CN106885335B - Automatic upgrading method and system for air conditioner - Google Patents

Abstract

The invention discloses an automatic upgrading method of an air conditioner, which comprises the following steps: the method comprises the steps that a server obtains current operation parameters of a first air conditioner and sends the obtained operation parameters to an upgrade evaluation device; when the operation parameters are received, the upgrade evaluation device determines whether the first air conditioner meets preset upgrade conditions based on the operation parameters; when the first air conditioner meets the preset upgrading condition, the upgrading evaluation device acquires first upgrading data corresponding to the operation parameters and sends the first upgrading data to the server; and when the first upgrading data is received, the server sends the first upgrading data to the first air conditioner. The invention also discloses an automatic upgrading system of the air conditioner. The invention realizes the upgrading of the air conditioner according to the operation parameters of the air conditioner, further realizes the automatic upgrading of the air conditioner, solves the technical problem of low efficiency of a mode of updating the operation parameters of the air conditioner by manually replacing an air conditioner mainboard, and greatly improves the upgrading efficiency of the air conditioner.

Description

Automatic upgrading method and system for air conditioner

Technical Field

The invention relates to the technical field of air conditioners, in particular to an automatic upgrading method and system of an air conditioner.

Background

With the development of air conditioning control technology, most air conditioning units currently use an electronic memory chip (e.g., ROM) to store operating parameters of the air conditioning unit, for example, when the air conditioning unit leaves a factory, the operating parameters configured by a technician are solidified in the ROM of the air conditioning unit.

Air conditioning systems, especially refrigeration systems, control systems and the like of air conditioning systems such as multi-connected air conditioning systems, large centrifugal units, modular units and the like are very complex, and upgrading of the air conditioning systems is often performed by needing professional technicians to upgrade the air conditioning systems, so that upgrading of the air conditioning systems is realized. For example, when the air conditioning system has a problem and needs to be updated, since the electronic chip, the controller of the air conditioning unit and other components are fixed on the main board of the air conditioning unit, and a technician needs to integrally replace the main board of the air conditioning unit to replace the electronic memory chip, the update of the operating parameters of the air conditioning unit is realized, so that the processing period is long, and the cost is wasted.

Disclosure of Invention

The invention provides an automatic upgrading method and system of an air conditioner, and aims to solve the technical problem of low efficiency in a mode of manually updating an air conditioning system.

In order to achieve the above object, the present invention provides an automatic upgrading method for an air conditioner, which comprises the following steps:

the method comprises the steps that a server obtains current operation parameters of a first air conditioner and sends the obtained operation parameters to an upgrade evaluation device;

when the operation parameters are received, the upgrading evaluation device determines whether the first air conditioner meets preset upgrading conditions or not based on the operation parameters;

when the first air conditioner meets a preset upgrading condition, the upgrading evaluation device acquires first upgrading data corresponding to the operation parameters and sends the first upgrading data to the server;

and when the first upgrading data is received, the server sends the first upgrading data to the first air conditioner so that the first air conditioner can carry out upgrading operation based on the first upgrading data.

Preferably, the step of the upgrade evaluation device determining whether the first air conditioner satisfies a preset upgrade condition based on the operation parameters includes:

the upgrading evaluation device acquires a set temperature of the first air conditioner and preset parameters corresponding to the ambient temperature;

the upgrade evaluation device determines whether the first air conditioner satisfies a preset upgrade condition based on the preset parameter determining the operation parameter.

Preferably, the step of the server transmitting the first upgrade data to the first air conditioner includes:

the server acquires performance parameters of the first air conditioner;

the server determines whether the first upgrade data is matched with the first air conditioner or not based on the acquired performance parameters;

and when the first upgrading data is matched with the first air conditioner, the server sends the first upgrading data to the first air conditioner.

Preferably, the automatic upgrade method of an air conditioner further includes:

when a customized upgrading request is received, the server acquires a parameter to be upgraded corresponding to the customized upgrading request and sends the acquired parameter to be upgraded to an upgrading evaluation device;

when the parameter to be upgraded is received, the upgrading evaluation device carries out verification operation on the parameter to be upgraded based on a preset rule;

when the parameter to be upgraded passes the verification, the upgrade evaluation device acquires second upgrade data corresponding to the parameter to be upgraded and sends the second upgrade data to the server;

and when the second upgrading data are received, the server sends the second upgrading data to the second air conditioner so that the second air conditioner can be upgraded based on the second upgrading data.

Preferably, the step of the server transmitting the second upgrade data to the second air conditioner includes:

the server acquires performance parameters of the second air conditioner;

the server determines whether the second upgrading data is matched with the second air conditioner or not based on the acquired performance parameters;

and when the second upgrading data are matched with the second air conditioner, the server sends the second upgrading data to the second air conditioner.

In addition, in order to achieve the above object, the present invention further provides an automatic upgrade system of an air conditioner, including: a server and an upgrade evaluation device; wherein,

the server includes:

the first acquisition module is used for acquiring the current operating parameters of the first air conditioner and sending the acquired operating parameters to the upgrade evaluation device;

the first sending module is used for sending the first upgrading data to the first air conditioner when the first upgrading data are received so that the first air conditioner can carry out upgrading operation based on the first upgrading data;

the upgrade evaluation apparatus includes:

the determining module is used for determining whether the first air conditioner meets a preset upgrading condition based on the operation parameters when the operation parameters are received;

and the second acquisition module is used for acquiring first upgrading data corresponding to the operating parameters when the first air conditioner meets preset upgrading conditions, and sending the first upgrading data to the server.

Preferably, the determining module comprises:

the first acquisition unit is used for acquiring the set temperature of the first air conditioner and preset parameters corresponding to the ambient temperature;

a first determination unit, configured to determine whether the first air conditioner satisfies a preset upgrade condition based on the preset parameter.

Preferably, the first transmitting module includes:

the second acquisition unit is used for acquiring the performance parameters of the first air conditioner;

a second determining unit, configured to determine whether the first upgrade data matches the first air conditioner based on the acquired performance parameter;

and the first sending unit is used for sending the first upgrading data to the first air conditioner when the first upgrading data is matched with the first air conditioner.

Preferably, the server further comprises:

the third acquisition module is used for acquiring a parameter to be upgraded corresponding to the customized upgrading request when the customized upgrading request is received, and sending the acquired parameter to be upgraded to the upgrading evaluation device;

the second sending module is used for sending the second upgrading data to the second air conditioner when the second upgrading data are received so that the second air conditioner can be upgraded based on the second upgrading data;

the upgrade evaluation apparatus further includes:

the verification module is used for verifying the parameter to be upgraded based on a preset rule when the parameter to be upgraded is received;

and the fourth obtaining module is used for obtaining second upgrading data corresponding to the parameter to be upgraded when the parameter to be upgraded passes the verification, and sending the second upgrading data to the server.

Preferably, the second sending module includes:

the third acquisition unit is used for acquiring the performance parameters of the second air conditioner;

a third determining unit, configured to determine whether the second upgrade data matches the second air conditioner based on the obtained performance parameter;

and the second sending unit is used for sending the second upgrading data to the second air conditioner when the second upgrading data is matched with the second air conditioner.

The invention obtains the current operation parameters of the first air conditioner through the server and sends the obtained operation parameters to the upgrade evaluation device, the upgrade evaluation device then determines whether the first air conditioner satisfies a preset upgrade condition based on the operation parameters, then when the first air conditioner meets the preset upgrading condition, the upgrading evaluation device acquires first upgrading data corresponding to the operation parameters and sends the first upgrading data to the server, then the server sends the first upgrading data to the first air conditioner for the first air conditioner to carry out upgrading operation based on the first upgrading data, thereby realizing the upgrading of the air conditioner according to the operating parameters of the air conditioner, and then realized the automatic upgrade of air conditioner, solved through the artifical mode inefficiency that changes the air conditioner mainboard and update the air conditioner operational parameter, improved the upgrading efficiency of air conditioner greatly.

Drawings

FIG. 1 is a schematic flow chart of a first embodiment of an automatic upgrade method for an air conditioner according to the present invention;

FIG. 2 is a detailed flowchart of the step of determining whether the first air conditioner satisfies the preset upgrade condition based on the operation parameters by the upgrade evaluation device in the second embodiment of the method for automatically upgrading an air conditioner according to the present invention;

fig. 3 is a detailed flowchart of a step in which the server sends the first upgrade data to the first air conditioner according to a third embodiment of the method for automatically upgrading an air conditioner of the present invention;

FIG. 4 is a schematic flow chart illustrating a fourth embodiment of an automatic upgrade method for an air conditioner according to the present invention;

fig. 5 is a detailed flowchart of the step of sending the second upgrade data to the second air conditioner by the server in the fifth embodiment of the method for automatically upgrading an air conditioner according to the present invention;

FIG. 6 is a functional block diagram of a first embodiment of an automatic upgrade system for an air conditioner according to the present invention;

FIG. 7 is a schematic diagram showing a detailed function of a determination module in a second embodiment of an automatic upgrade system of an air conditioner according to the present invention;

FIG. 8 is a schematic diagram of a detailed functional module of a first sending module in a third embodiment of an automatic upgrade system of an air conditioner according to the present invention;

FIG. 9 is a functional block diagram of a fourth embodiment of an automatic upgrade system for an air conditioner in accordance with the present invention;

fig. 10 is a schematic diagram of a detailed functional module of a second sending module in a fifth embodiment of an automatic upgrade system of an air conditioner according to the present invention.

The implementation, functional features and advantages of the objects of the present invention will be further explained with reference to the accompanying drawings.

Detailed Description

It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

The invention provides an automatic upgrading method of an air conditioner. Referring to fig. 1, fig. 1 is a schematic flow chart of a first embodiment of an automatic upgrade method of an air conditioner according to the present invention.

In this embodiment, the automatic upgrade method of an air conditioner includes:

step S10, the server acquires the current operation parameters of the first air conditioner and sends the acquired operation parameters to an upgrade evaluation device;

in this embodiment, the server may obtain, in real time and at a later time, current operating parameters of each air conditioner communicated with the server, where the operating parameters include data such as an operating mode of the air conditioner, a set temperature, an ambient temperature where the air conditioner is located, an operating pressure of the air conditioner, an operating temperature of the air conditioner, and an operating current of the air conditioner.

The server can adopt a remote server, namely a cloud server, and is communicated with the air conditioner through a network so as to obtain the current operating parameters of the air conditioner.

In this embodiment, when the operation parameter of the first air conditioner is obtained, the server sends the operation parameter to the upgrade evaluation device, so that the upgrade evaluation device determines whether the first air conditioner can be upgraded currently, that is, whether a preset upgrade condition is met, based on the operation parameter.

Step S20, when receiving the operation parameter, the upgrade evaluation device determining whether the first air conditioner satisfies a preset upgrade condition based on the operation parameter;

in this embodiment, when receiving a current operating parameter of a first air conditioner, an upgrade evaluation device determines whether the first air conditioner meets a preset upgrade condition based on the operating parameter, specifically, the upgrade evaluation device obtains a current set temperature and an ambient temperature of the first air conditioner through the current operating parameter, then obtains preset parameters of the air conditioner corresponding to the set temperature and the ambient temperature, and then compares the preset parameters with the operating parameter to determine whether the first air conditioner meets the preset upgrade condition; for example, if the operation parameter is the operation pressure of the first air conditioner, the preset parameter is a preset pressure range of the operation pressure of the first air conditioner corresponding to the set temperature and the ambient temperature, and when the current operation pressure of the first air conditioner is outside the preset pressure range, it is determined that the first air conditioner meets the preset upgrade condition; or, if the operation parameter is the operation temperature of the first air conditioner, the preset parameter is a preset temperature range of the operation temperature of the first air conditioner corresponding to the set temperature and the ambient temperature, and when the current operation temperature of the first air conditioner is out of the preset temperature range, it is determined that the first air conditioner meets the preset upgrading condition; or, if the operation parameter is the operation current of the first air conditioner, the preset parameter is a preset current range of the operation current of the first air conditioner corresponding to the set temperature and the ambient temperature, and when the current operation temperature of the first air conditioner is out of the preset temperature range, it is determined that the first air conditioner meets the preset upgrading condition; of course, the current operation parameters of the air conditioner acquired by the upgrade evaluation device are not limited to the above parameters, and the above parameters may be used in combination, for example, the operation parameters include the operation pressure of the air conditioner, the operation temperature of the air conditioner, and the operation current of the air conditioner, and as long as it can be determined that the first air conditioner satisfies the preset upgrade condition through one of the parameters, it is determined that the first air conditioner satisfies the preset upgrade condition.

Step S30, when the first air conditioner meets a preset upgrading condition, the upgrading evaluation device obtains first upgrading data corresponding to the operation parameters and sends the first upgrading data to the server;

in this embodiment, the upgrade evaluation device may directly generate the first upgrade data according to the operation parameter, and of course, the upgrade evaluation device may also generate the upgrade data in advance according to various operation parameters corresponding to the first air conditioner, and store the upgrade data in the local database or the server, and when the first air conditioner meets the preset upgrade condition, the upgrade evaluation device may search the corresponding first upgrade data in the local database or the server according to the operation parameter. And when first upgrading data are acquired, the upgrading evaluation device sends the first upgrading data to the server.

Step S40, when receiving the first upgrade data, the server sends the first upgrade data to the first air conditioner, so that the first air conditioner performs an upgrade operation based on the first upgrade data.

In this embodiment, when first upgrade data is acquired, the server sends the first upgrade data to the first air conditioner, and when the first air conditioner receives the first upgrade data, the first air conditioner performs an upgrade operation based on the first upgrade data, where the upgrade operation includes updating parameters of the first air conditioner, so as to implement automatic upgrade of the first air conditioner.

It should be emphasized that the upgrade evaluation device may be provided on the server or may be a separate terminal. In this embodiment, in order to improve the accuracy of the air conditioner upgrade, when the upgrade evaluation device determines that the first air conditioner meets the preset upgrade condition, the expert group performs re-evaluation according to the information such as the operating parameters of the first air conditioner, so as to ensure that the first air conditioner really needs to be upgraded currently, and avoid upgrading the air conditioner due to the operating parameters of the first air conditioner operating in a special state.

In this embodiment, for an air conditioner that cannot send its operating parameters to the server, an air conditioner that cannot perform automatic upgrade according to received first upgrade data, or an existing air conditioner such as an air conditioner that cannot receive first upgrade data, in order to facilitate automatic upgrade of the air conditioner, a corresponding automatic upgrade device may be installed in the air conditioner, the automatic upgrade device may acquire the operating parameters of the air conditioner in real time, the server acquires the operating parameters of the air conditioner acquired by the automatic upgrade device, and sends the first upgrade data to the automatic upgrade device, and the automatic upgrade device controls the air conditioner to perform upgrade operation according to the first upgrade data when receiving the first upgrade data.

The automatic upgrading method for the air conditioner provided by the embodiment includes the steps that the current operation parameters of the first air conditioner are obtained through the server, the obtained operation parameters are sent to the upgrading evaluation device, then the upgrading evaluation device determines whether the first air conditioner meets the preset upgrading conditions or not based on the operation parameters, when the first air conditioner meets the preset upgrading conditions, the upgrading evaluation device obtains first upgrading data corresponding to the operation parameters and sends the first upgrading data to the server, then the server sends the first upgrading data to the first air conditioner so that the first air conditioner can carry out upgrading operation based on the first upgrading data, the air conditioner is upgraded according to the operation parameters of the air conditioner, automatic upgrading of the air conditioner is further achieved, and the technical problem that the mode that the operation parameters of the air conditioner are updated through manual replacement of an air conditioner main board is low in efficiency is solved, the upgrading efficiency of the air conditioner is greatly improved.

A second embodiment of the automatic upgrade method of an air conditioner according to the present invention is proposed based on the first embodiment, and referring to fig. 2, in this embodiment, step S20 includes:

step S21, the upgrade evaluation device acquires the set temperature of the first air conditioner and the preset parameters corresponding to the ambient temperature;

in this embodiment, when the current operating parameter of the first air conditioner is obtained, the upgrade evaluation device obtains the current set temperature and the current ambient temperature of the first air conditioner through the current operating parameter, and then obtains the preset parameter of the first air conditioner corresponding to the set temperature and the ambient temperature, where the preset parameter includes a preset pressure range of the operating pressure of the first air conditioner, a preset temperature range of the operating temperature of the first air conditioner, and/or a preset current range of the operating current of the first air conditioner.

In step S22, the upgrade evaluation device determines whether the first air conditioner satisfies a preset upgrade condition based on the preset parameter to determine the operation parameter.

In this embodiment, when a preset parameter is obtained, the upgrade evaluation device determines, based on the preset parameter, whether the first air conditioner meets a preset upgrade condition or not based on the operating parameter. Specifically, comparing a preset parameter with an operation parameter to determine whether the first air conditioner meets a preset upgrading condition; for example, if the operation parameter is the operation pressure of the first air conditioner, the preset parameter is a preset pressure range of the operation pressure of the first air conditioner corresponding to the set temperature and the ambient temperature, and when the current operation pressure of the first air conditioner is outside the preset pressure range, it is determined that the first air conditioner meets the preset upgrade condition; or, if the operation parameter is the operation temperature of the first air conditioner, the preset parameter is a preset temperature range of the operation temperature of the first air conditioner corresponding to the set temperature and the ambient temperature, and when the current operation temperature of the first air conditioner is out of the preset temperature range, it is determined that the first air conditioner meets the preset upgrading condition; or, if the operation parameter is the operation current of the first air conditioner, the preset parameter is a preset current range of the operation current of the first air conditioner corresponding to the set temperature and the ambient temperature, and when the current operation temperature of the first air conditioner is out of the preset temperature range, it is determined that the first air conditioner meets the preset upgrading condition; of course, the current operation parameters of the first air conditioner are not limited to the above parameters, and the above parameters may be used in combination, for example, the operation parameters include the operation pressure of the first air conditioner, the operation temperature of the first air conditioner, and the operation current of the first air conditioner, and as long as it is determined that the first air conditioner satisfies the preset upgrade condition through one of the parameters, it is determined that the first air conditioner satisfies the preset upgrade condition.

According to the automatic upgrading method for the air conditioner, the preset parameters corresponding to the set temperature and the environment temperature of the first air conditioner are obtained through the upgrading evaluation device, then the upgrading evaluation device determines whether the first air conditioner meets the preset upgrading conditions or not based on the preset parameters, whether the air conditioner meets the preset upgrading conditions or not is determined accurately according to the operation parameters and the preset parameters of the air conditioner, the upgrading accuracy of the air conditioner is improved, and the upgrading efficiency of the air conditioner is improved.

A third embodiment of the automatic upgrade method of an air conditioner according to the present invention is proposed based on the first embodiment, and referring to fig. 3, in the present embodiment, step S40 includes:

step S41, the server acquires the performance parameters of the first air conditioner;

in this embodiment, when the first upgrade data is acquired, the server acquires performance parameters of the first air conditioner, where the performance parameters include a rated power of the first air conditioner, a minimum temperature and a maximum temperature in a cooling mode, and the like.

Step S42, the server determines whether the first upgrade data matches the first air conditioner based on the acquired performance parameter;

in this embodiment, when the performance parameter of the first air conditioner is obtained, the server determines, based on the obtained performance parameter, whether the first upgrade data is matched with the first air conditioner, specifically, for example, when the first upgrade data includes adjustment information of a maximum power in a cooling mode of the first air conditioner, if the maximum power corresponding to the adjustment information is smaller than a rated power of the first air conditioner, it is determined that the first upgrade data is matched with the first air conditioner.

Step S43, when the first upgrade data matches the first air conditioner, the server sends the first upgrade data to the first air conditioner.

In this embodiment, when the first upgrade data is matched with the first air conditioner, the server sends the first upgrade data to the first air conditioner, so that the first air conditioner performs upgrade operation based on the first upgrade data when receiving the first upgrade data, and further automatic upgrade of the air conditioner is realized.

According to the automatic upgrading method for the air conditioner, the performance parameters of the first air conditioner are obtained through the server, then the server determines whether the first upgrading data is matched with the first air conditioner or not based on the obtained performance parameters, and then when the first upgrading data is matched with the first air conditioner, the server sends the first upgrading data to the first air conditioner, so that the first upgrading data is sent to the first air conditioner when the first upgrading data is matched with the air conditioner, the first air conditioner is upgraded, further stable operation of the first air conditioner after upgrading can be guaranteed, the situation that the first air conditioner cannot operate after upgrading is avoided, and the upgrading efficiency of the air conditioner is further improved.

A fourth embodiment of the automatic upgrade method of an air conditioner according to the present invention is proposed based on the first embodiment, and referring to fig. 4, in this embodiment, the automatic upgrade method of an air conditioner further includes:

step S50, when receiving a customized upgrading request, the server acquires a parameter to be upgraded corresponding to the customized upgrading request, and sends the acquired parameter to be upgraded to an upgrading evaluation device;

in this embodiment, when a user needs to customize an operation mode of an air conditioner individually, for example, adjust a wind speed corresponding to a minimum wind speed or a maximum wind speed in a cooling mode of the air conditioner, or adjust an instruction corresponding to a key of a remote controller of the air conditioner, the user may edit a customized upgrade request through a terminal such as a remote controller, and the air conditioner sends the customized upgrade request edited by the user to a server, or the user may edit the customized upgrade request through a mobile terminal and control the mobile terminal to send the customized upgrade request edited by the user to the server.

In this embodiment, when receiving a customized upgrade request, the server obtains a parameter to be upgraded corresponding to the customized upgrade request, for example, when a user adjusts a wind speed corresponding to a minimum wind speed in a cooling mode of the air conditioner, the parameter to be upgraded includes a modified minimum wind speed, and the like.

Step S60, when receiving the parameter to be upgraded, the upgrade evaluation device verifies the parameter to be upgraded based on a preset rule;

in this embodiment, when the parameter to be upgraded is obtained, the upgrade evaluation device performs a verification operation on the parameter to be upgraded based on a preset rule to determine that the second air conditioner corresponding to the customized upgrade request can normally operate after being upgraded according to the parameter to be upgraded, for example, because the temperature range in the air conditioner cooling mode is 16 ℃ to 30 ℃ in a general situation, if the personalized customization of the user sets the maximum temperature in the air conditioner cooling mode to 33 ℃, the parameter to be upgraded corresponding to the personalized customization does not pass the verification, and if the personalized customization of the user sets the maximum temperature in the air conditioner cooling mode to 28 ℃, the parameter to be upgraded corresponding to the personalized customization can pass the verification.

Step S70, when the parameter to be upgraded passes the verification, the upgrade evaluation device obtains second upgrade data corresponding to the parameter to be upgraded, and sends the second upgrade data to the server;

step S80, when the second upgrade data is received, the server sends the second upgrade data to the second air conditioner corresponding to the customized upgrade request, so that the second air conditioner can be upgraded based on the second upgrade data.

In this embodiment, when the parameter to be upgraded passes the verification, the upgrade evaluation device obtains second upgrade data corresponding to the parameter to be upgraded, and sends the second upgrade data to the server, and the server sends the second upgrade data to the second air conditioner corresponding to the customized upgrade request, so that the second air conditioner can be upgraded based on the second upgrade data.

In the automatic upgrading method for the air conditioner, when a customized upgrading request is received, the server acquires a parameter to be upgraded corresponding to the customized upgrading request, and sends the parameter to be upgraded to the upgrading evaluation device, then when the parameter to be upgraded is received, the upgrading evaluation device performs verification operation on the parameter to be upgraded based on a preset rule, then when the parameter to be upgraded passes verification, the upgrading evaluation device acquires second upgrading data corresponding to the parameter to be upgraded, and sends the second upgrading data to the server, and finally when the second upgrading data is received, the server sends the second upgrading data to a second air conditioner corresponding to the customized upgrading request, so that the second air conditioner can be upgraded based on the second upgrading data, and the second upgrading data is sent to the second air conditioner according to the parameter to be upgraded corresponding to the customized upgrading request, the second air conditioner is upgraded, so that the operation of the air conditioner can be customized individually by a user, and the user experience is improved.

A fifth embodiment of the automatic upgrade method of an air conditioner according to the present invention is proposed based on the fourth embodiment, and referring to fig. 5, in the present embodiment, step S80 includes:

step S81, the server acquires the performance parameters of the second air conditioner;

in this embodiment, when the second upgrade data is acquired, the server acquires performance parameters of the second air conditioner, where the performance parameters include a rated power of the second air conditioner, a minimum temperature and a maximum temperature in the cooling mode, and the like.

Step S82, the server determines whether the second upgrade data matches the second air conditioner based on the acquired performance parameter;

in this embodiment, when the performance parameter of the second air conditioner is acquired, the server determines whether the second upgrade data is matched with the second air conditioner based on the acquired performance parameter, specifically, for example, when the second upgrade data includes adjustment information of the maximum power in the cooling mode of the second air conditioner, if the maximum power corresponding to the adjustment information is smaller than the rated power of the second air conditioner, it determines that the second upgrade data is matched with the second air conditioner.

And step S83, when the second upgrade data is matched with the second air conditioner, the server sends the second upgrade data to the second air conditioner.

In this embodiment, when the second upgrade data is matched with the second air conditioner, the server sends the second upgrade data to the second air conditioner, so that the second air conditioner performs upgrade operation based on the second upgrade data when receiving the second upgrade data, thereby implementing automatic upgrade of the air conditioner.

According to the automatic upgrading method for the air conditioner, the server acquires the performance parameters of the second air conditioner, then the server determines whether the second upgrading data is matched with the second air conditioner or not based on the acquired performance parameters, and then when the second upgrading data is matched with the second air conditioner, the server sends the second upgrading data to the second air conditioner, so that the first upgrading data is sent to the air conditioner when the second upgrading data is matched with the air conditioner, the air conditioner is upgraded, the air conditioner can be stably operated after being upgraded, the situation that the air conditioner cannot be operated after being upgraded is avoided, and user experience is further improved.

The invention further provides an automatic upgrading system of the air conditioner. Referring to fig. 6, fig. 6 is a functional block diagram of the first embodiment of the automatic upgrade system of an air conditioner according to the present invention.

In this embodiment, the automatic upgrade system of an air conditioner includes: a server 100 and an upgrade evaluation apparatus 200; wherein,

the server 100 includes:

the first obtaining module 110 is configured to obtain a current operating parameter of the first air conditioner, and send the obtained operating parameter to the upgrade evaluation device;

in this embodiment, the first obtaining module 110 may obtain, in real time and at a later time, current operating parameters of each air conditioner that is in communication with the first obtaining module, where the operating parameters include an operating mode of the air conditioner, a set temperature, an ambient temperature of the air conditioner, an operating pressure of the air conditioner, an operating temperature of the air conditioner, and an operating current of the air conditioner.

The server 100 may adopt a remote server, i.e., a cloud server, and implement communication with the air conditioner through a network to obtain current operating parameters of the air conditioner.

In this embodiment, when the operation parameter of the first air conditioner is acquired, the first acquiring module 110 sends the operation parameter to the upgrade evaluation device, so that the upgrade evaluation device determines whether the first air conditioner can be upgraded currently, that is, whether a preset upgrade condition is met, based on the operation parameter.

A first sending module 120, configured to send the first upgrade data to the first air conditioner when receiving the first upgrade data, so that the first air conditioner performs an upgrade operation based on the first upgrade data;

in this embodiment, when the first upgrade data is acquired, the first sending module 120 sends the first upgrade data to the first air conditioner, and when the first air conditioner receives the first upgrade data, the first air conditioner performs an upgrade operation based on the first upgrade data, where the upgrade operation includes updating parameters of the first air conditioner, so as to implement automatic upgrade of the first air conditioner.

The upgrade evaluation apparatus 200 includes:

a determining module 210, configured to determine, when the operation parameter is received, whether the first air conditioner meets a preset upgrade condition based on the operation parameter;

in this embodiment, when receiving a current operating parameter of a first air conditioner, the determining module 210 determines whether the first air conditioner meets a preset upgrade condition based on the operating parameter, specifically, the upgrade evaluating device obtains a current set temperature and an ambient temperature of the first air conditioner through the current operating parameter, then obtains preset parameters of the air conditioner corresponding to the set temperature and the ambient temperature, and then compares the preset parameters with the operating parameter to determine whether the first air conditioner meets the preset upgrade condition; for example, if the operation parameter is the operation pressure of the first air conditioner, the preset parameter is a preset pressure range of the operation pressure of the first air conditioner corresponding to the set temperature and the ambient temperature, and when the current operation pressure of the first air conditioner is outside the preset pressure range, it is determined that the first air conditioner meets the preset upgrade condition; or, if the operation parameter is the operation temperature of the first air conditioner, the preset parameter is a preset temperature range of the operation temperature of the first air conditioner corresponding to the set temperature and the ambient temperature, and when the current operation temperature of the first air conditioner is out of the preset temperature range, it is determined that the first air conditioner meets the preset upgrading condition; or, if the operation parameter is the operation current of the first air conditioner, the preset parameter is a preset current range of the operation current of the first air conditioner corresponding to the set temperature and the ambient temperature, and when the current operation temperature of the first air conditioner is out of the preset temperature range, it is determined that the first air conditioner meets the preset upgrading condition; of course, the current operation parameters of the air conditioner acquired by the upgrade evaluation device are not limited to the above parameters, and the above parameters may be used in combination, for example, the operation parameters include the operation pressure of the air conditioner, the operation temperature of the air conditioner, and the operation current of the air conditioner, and as long as it can be determined that the first air conditioner satisfies the preset upgrade condition through one of the parameters, it is determined that the first air conditioner satisfies the preset upgrade condition.

The second obtaining module 220 is configured to obtain first upgrade data corresponding to the operation parameter when the first air conditioner meets a preset upgrade condition, and send the first upgrade data to the server.

In this embodiment, the second obtaining module 220 may directly generate the first upgrade data according to the operation parameter, and certainly, the second obtaining module 220 may also generate upgrade data in advance according to various operation parameters corresponding to the first air conditioner, and store the upgrade data in a local database or a server, and when the first air conditioner meets a preset upgrade condition, the second obtaining module 220 may search for the corresponding first upgrade data in the local database or the server according to the operation parameter. When the first upgrade data is acquired, the second acquiring module 220 transmits the first upgrade data to the server.

In the automatic upgrading system of the air conditioner provided by this embodiment, the first obtaining module 110 obtains the current operating parameters of the first air conditioner, and sends the obtained operating parameters to the upgrade evaluation device, then the determining module 210 determines whether the first air conditioner meets the preset upgrade conditions based on the operating parameters, then when the first air conditioner meets the preset upgrade conditions, the second obtaining module 220 obtains the first upgrade data corresponding to the operating parameters, and sends the first upgrade data to the server, and then the first sending module 120 sends the first upgrade data to the first air conditioner, so that the first air conditioner performs upgrade operation based on the first upgrade data, thereby upgrading the air conditioner according to the operating parameters of the air conditioner, further implementing automatic upgrade of the air conditioner, and solving the technical problem of low efficiency in a mode of updating the operating parameters of the air conditioner by manually replacing an air conditioner mainboard, the upgrading efficiency of the air conditioner is greatly improved.

A second embodiment of the automatic upgrade system of an air conditioner according to the present invention is proposed based on the first embodiment, and referring to fig. 7, in this embodiment, the determination module 210 includes:

a first obtaining unit 211, configured to obtain a preset parameter corresponding to a set temperature and an ambient temperature of the first air conditioner;

in this embodiment, when the current operation parameter of the first air conditioner is obtained, the first obtaining unit 211 obtains the current set temperature and the current environment temperature of the first air conditioner through the current operation parameter, and then obtains the preset parameter of the first air conditioner corresponding to the set temperature and the current environment temperature, where the preset parameter includes a preset pressure range of the operation pressure of the first air conditioner, a preset temperature range of the operation temperature of the first air conditioner, and/or a preset current range of the operation current of the first air conditioner.

A first determining unit 212, configured to determine whether the first air conditioner satisfies a preset upgrade condition based on the preset parameter.

In this embodiment, when the preset parameter is obtained, the first determining unit 212 determines whether the first air conditioner meets a preset upgrade condition based on the preset parameter. Specifically, comparing a preset parameter with an operation parameter to determine whether the first air conditioner meets a preset upgrading condition; for example, if the operation parameter is the operation pressure of the first air conditioner, the preset parameter is a preset pressure range of the operation pressure of the first air conditioner corresponding to the set temperature and the ambient temperature, and when the current operation pressure of the first air conditioner is outside the preset pressure range, it is determined that the first air conditioner meets the preset upgrade condition; or, if the operation parameter is the operation temperature of the first air conditioner, the preset parameter is a preset temperature range of the operation temperature of the first air conditioner corresponding to the set temperature and the ambient temperature, and when the current operation temperature of the first air conditioner is out of the preset temperature range, it is determined that the first air conditioner meets the preset upgrading condition; or, if the operation parameter is the operation current of the first air conditioner, the preset parameter is a preset current range of the operation current of the first air conditioner corresponding to the set temperature and the ambient temperature, and when the current operation temperature of the first air conditioner is out of the preset temperature range, it is determined that the first air conditioner meets the preset upgrading condition; of course, the current operation parameters of the first air conditioner are not limited to the above parameters, and the above parameters may be used in combination, for example, the operation parameters include the operation pressure of the first air conditioner, the operation temperature of the first air conditioner, and the operation current of the first air conditioner, and as long as it is determined that the first air conditioner satisfies the preset upgrade condition through one of the parameters, it is determined that the first air conditioner satisfies the preset upgrade condition.

According to the automatic upgrading system of the air conditioner, the first obtaining unit 211 is used for obtaining the preset parameters corresponding to the set temperature and the ambient temperature of the first air conditioner, then the first determining unit 222 is used for determining whether the first air conditioner meets the preset upgrading conditions or not based on the preset parameters, and therefore whether the first air conditioner meets the preset upgrading conditions or not is determined accurately according to the operation parameters and the preset parameters of the air conditioner, the upgrading accuracy of the air conditioner is improved, and the upgrading efficiency of the air conditioner is improved.

A third embodiment of the automatic upgrade system of an air conditioner of the present invention is proposed based on the first embodiment, and referring to fig. 8, in this embodiment, the first transmitting module 120 includes:

a second obtaining unit 121, configured to obtain performance parameters of the first air conditioner;

in this embodiment, when the first upgrade data is acquired, the second acquiring unit 121 acquires performance parameters of the first air conditioner, where the performance parameters include a rated power of the first air conditioner, a minimum temperature and a maximum temperature in the cooling mode, and the like.

A second determining unit 122, configured to determine whether the first upgrade data matches the first air conditioner based on the acquired performance parameter;

in this embodiment, when the performance parameter of the first air conditioner is acquired, the second determining unit 122 determines whether the first upgrade data is matched with the first air conditioner based on the acquired performance parameter, specifically, for example, when the first upgrade data includes adjustment information of the maximum power in the cooling mode of the first air conditioner, if the maximum power corresponding to the adjustment information is smaller than the rated power of the first air conditioner, it is determined that the first upgrade data is matched with the first air conditioner.

A first sending unit 123, configured to send the first upgrade data to the first air conditioner when the first upgrade data matches the first air conditioner.

In this embodiment, when the first upgrade data is matched with the air conditioner, the first sending unit 123 sends the first upgrade data to the air conditioner, so that the air conditioner performs an upgrade operation based on the first upgrade data when receiving the first upgrade data, thereby implementing automatic upgrade of the air conditioner.

According to the automatic upgrading system of the air conditioner, the second obtaining unit 121 is used for obtaining the performance parameters of the first air conditioner, then the second determining unit 122 is used for determining whether the first upgrading data is matched with the first air conditioner or not based on the obtained performance parameters, when the first upgrading data is matched with the first air conditioner, the first sending unit 123 is used for sending the first upgrading data to the first air conditioner, the first upgrading data is sent to the first air conditioner when the first upgrading data is matched with the first air conditioner, so that the first air conditioner can be upgraded, the air conditioner can be guaranteed to run stably after being upgraded, the situation that the air conditioner cannot run after being upgraded is avoided, and the upgrading efficiency of the air conditioner is further improved.

A fourth embodiment of the automatic upgrade system of an air conditioner according to the present invention is proposed based on the first embodiment, and referring to fig. 9, in this embodiment, the server 100 further includes:

the third obtaining module 130 is configured to, when a customized upgrade request is received, obtain a parameter to be upgraded corresponding to the customized upgrade request, and send the obtained parameter to be upgraded to the upgrade evaluation device;

in this embodiment, when a user needs to customize an operation mode of an air conditioner individually, for example, adjust a wind speed corresponding to a minimum wind speed or a maximum wind speed in a cooling mode of the air conditioner, or adjust an instruction corresponding to a key of a remote controller of the air conditioner, the user may edit a customized upgrade request through a terminal such as a remote controller, and the air conditioner sends the customized upgrade request edited by the user to a server, or the user may edit the customized upgrade request through a mobile terminal and control the mobile terminal to send the customized upgrade request edited by the user to the server.

In this embodiment, when the customized upgrade request is received, the third obtaining module 130 obtains a parameter to be upgraded corresponding to the customized upgrade request, for example, when the user adjusts the wind speed corresponding to the minimum wind speed in the cooling mode of the air conditioner, the parameter to be upgraded includes the modified minimum wind speed, and the like.

A second sending module 140, configured to send the second upgrade data to the second air conditioner when the second upgrade data is received, so that the second air conditioner can upgrade based on the second upgrade data;

in this embodiment, when the parameter to be upgraded passes the verification, the fourth obtaining module 240 obtains the second upgrade data corresponding to the parameter to be upgraded, and sends the second upgrade data to the server, and the second sending module 140 sends the second upgrade data to the second air conditioner corresponding to the customized upgrade request, so that the second air conditioner can upgrade based on the second upgrade data. The upgrade evaluation apparatus 200 further includes:

the verification module 230 is configured to, when receiving the parameter to be upgraded, perform a verification operation on the parameter to be upgraded based on a preset rule;

in this embodiment, when the parameter to be upgraded is obtained, the verification module 230 performs a verification operation on the parameter to be upgraded based on a preset rule to determine that the second air conditioner corresponding to the customized upgrade request can normally operate after being upgraded according to the parameter to be upgraded, for example, because the temperature range in the air conditioner cooling mode is 16 ℃ to 30 ℃ in a general situation, if the personalized customization of the user sets the maximum temperature in the air conditioner cooling mode to 33 ℃, the parameter to be upgraded corresponding to the personalized customization does not pass the verification, if the personalized customization of the user sets the maximum temperature in the air conditioner cooling mode to 28 ℃, the parameter to be upgraded corresponding to the personalized customization can pass the verification.

A fourth obtaining module 240, configured to obtain second upgrade data corresponding to the parameter to be upgraded when the parameter to be upgraded passes verification, and send the second upgrade data to the server.

In the automatic upgrading system of the air conditioner provided by this embodiment, when a customized upgrading request is received, the third obtaining module 130 obtains a parameter to be upgraded corresponding to the customized upgrading request, and sends the parameter to be upgraded to the upgrading evaluation device, then when the parameter to be upgraded is received, the verifying module 230 performs a verifying operation on the parameter to be upgraded based on a preset rule, then when the parameter to be upgraded is verified, the fourth obtaining module 240 obtains second upgrading data corresponding to the parameter to be upgraded, and sends the second upgrading data to the server, and finally when the second upgrading data is received, the second sending module 140 sends the second upgrading data to the second air conditioner corresponding to the customized upgrading request, so that the second air conditioner is upgraded based on the second upgrading data, thereby realizing that the second upgrading data is sent to the second air conditioner according to the parameter to be upgraded corresponding to the customized upgrading request, the second air conditioner is upgraded, so that the operation of the air conditioner can be customized individually by a user, and the user experience is improved.

A fifth embodiment of the automatic upgrade system of an air conditioner according to the present invention is proposed based on the fourth embodiment, and referring to fig. 10, in this embodiment, the second transmitting module 140 includes:

a third obtaining unit 141, configured to obtain a performance parameter of the second air conditioner;

in this embodiment, when the second upgrade data is acquired, the third acquiring unit 81 acquires performance parameters of the second air conditioner, where the performance parameters include a rated power of the second air conditioner, a minimum temperature and a maximum temperature in the cooling mode, and the like.

A third determining unit 142, configured to determine whether the second upgrade data matches the second air conditioner based on the obtained performance parameter;

in this embodiment, when the performance parameter of the second air conditioner is acquired, the third determining unit 82 determines whether the second upgrade data is matched with the second air conditioner based on the acquired performance parameter, specifically, for example, when the second upgrade data includes the adjustment information of the maximum power in the cooling mode of the second air conditioner, if the maximum power corresponding to the adjustment information is smaller than the rated power of the second air conditioner, it is determined that the second upgrade data is matched with the second air conditioner.

A second sending unit 143, configured to send the second upgrade data to the second air conditioner when the second upgrade data matches the second air conditioner.

In this embodiment, when the second upgrade data is matched with the second air conditioner, the server sends the second upgrade data to the second air conditioner, so that the second air conditioner performs upgrade operation based on the second upgrade data when receiving the second upgrade data, thereby implementing automatic upgrade of the air conditioner.

According to the automatic upgrading system of the air conditioner, the third obtaining unit 81 is used for obtaining the performance parameters of the second air conditioner, then the third determining unit 82 determines whether the second upgrading data is matched with the second air conditioner or not based on the obtained performance parameters, and when the second upgrading data is matched with the second air conditioner, the second sending unit 83 is used for sending the second upgrading data to the second air conditioner, so that the first upgrading data is sent to the second air conditioner when the second upgrading data is matched with the second air conditioner, the second air conditioner is upgraded, the second air conditioner can be stably operated after upgrading, the situation that the second air conditioner cannot be operated after upgrading is avoided, and user experience is further improved.

The above description is only a preferred embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications of equivalent structures and equivalent processes, which are made by using the contents of the present specification and the accompanying drawings, or directly or indirectly applied to other related technical fields, are included in the scope of the present invention.

Claims (8)

1. An automatic upgrading method of an air conditioner is characterized by comprising the following steps:

the method comprises the steps that a server obtains current operation parameters of a first air conditioner and sends the obtained operation parameters to an upgrade evaluation device;

when the operation parameters are received, the upgrading evaluation device compares preset parameters with the operation parameters to determine whether the first air conditioner meets preset upgrading conditions;

when the first air conditioner meets a preset upgrading condition, the upgrading evaluation device acquires first upgrading data corresponding to the operation parameters and sends the first upgrading data to the server;

when the first upgrading data are received, the server determines whether the first upgrading data are matched with the first air conditioner or not based on the acquired performance parameters of the first air conditioner, and when the first upgrading data are matched with the first air conditioner, the first upgrading data are sent to the first air conditioner so that the first air conditioner can be upgraded based on the first upgrading data.

2. The automatic upgrade method of an air conditioner according to claim 1, wherein the step of the upgrade evaluation device determining whether the first air conditioner satisfies a preset upgrade condition based on the operation parameters comprises:

the upgrading evaluation device acquires a set temperature of the first air conditioner and preset parameters corresponding to the ambient temperature;

the upgrade evaluation device determines whether the first air conditioner satisfies a preset upgrade condition based on the preset parameter and the operation parameter.

3. The automatic upgrade method of an air conditioner according to claim 1 or 2, further comprising:

when a customized upgrading request is received, the server acquires a parameter to be upgraded corresponding to the customized upgrading request and sends the acquired parameter to be upgraded to an upgrading evaluation device;

when the parameter to be upgraded is received, the upgrading evaluation device carries out verification operation on the parameter to be upgraded based on a preset rule;

when the parameter to be upgraded passes the verification, the upgrade evaluation device acquires second upgrade data corresponding to the parameter to be upgraded and sends the second upgrade data to the server;

and when the second upgrading data are received, the server sends the second upgrading data to a second air conditioner corresponding to the customized upgrading request, so that the second air conditioner can be upgraded based on the second upgrading data.

4. The automatic upgrade method of an air conditioner according to claim 3, wherein the step of the server transmitting the second upgrade data to the second air conditioner includes:

the server acquires performance parameters of the second air conditioner;

the server determines whether the second upgrading data is matched with the second air conditioner or not based on the acquired performance parameters;

and when the second upgrading data are matched with the second air conditioner, the server sends the second upgrading data to the second air conditioner.

5. An automatic upgrade system of an air conditioner, comprising: a server and an upgrade evaluation device; wherein,

the server includes:

the first acquisition module is used for acquiring the current operating parameters of the first air conditioner and sending the acquired operating parameters to the upgrade evaluation device;

the first sending module is used for determining whether the first upgrading data is matched with the first air conditioner or not based on the acquired performance parameters of the first air conditioner when the first upgrading data is received, and sending the first upgrading data to the first air conditioner when the first upgrading data is matched with the first air conditioner so that the first air conditioner can carry out upgrading operation based on the first upgrading data;

the upgrade evaluation apparatus includes:

the determining module is used for comparing preset parameters with the operation parameters when the operation parameters are received, and determining whether the first air conditioner meets preset upgrading conditions;

and the second acquisition module is used for acquiring first upgrading data corresponding to the operating parameters when the first air conditioner meets preset upgrading conditions, and sending the first upgrading data to the server.

6. The automatic upgrade system of an air conditioner according to claim 5, wherein the determination module comprises:

the first acquisition unit is used for acquiring the set temperature of the first air conditioner and preset parameters corresponding to the ambient temperature;

a first determination unit for determining whether the first air conditioner satisfies a preset upgrade condition based on the preset parameter and the operation parameter.

7. The automatic upgrade system of an air conditioner according to claim 5 or 6, wherein the server further comprises:

the third acquisition module is used for acquiring a parameter to be upgraded corresponding to the customized upgrading request when the customized upgrading request is received, and sending the acquired parameter to be upgraded to the upgrading evaluation device;

the second sending module is used for sending the second upgrading data to the second air conditioner when receiving the second upgrading data so that the second air conditioner can be upgraded based on the second upgrading data;

the upgrade evaluation apparatus further includes:

the verification module is used for verifying the parameter to be upgraded based on a preset rule when the parameter to be upgraded is received;

and the fourth obtaining module is used for obtaining second upgrading data corresponding to the parameter to be upgraded when the parameter to be upgraded passes the verification, and sending the second upgrading data to the server.

8. The automatic upgrade system of an air conditioner according to claim 7, wherein the second transmission module comprises:

the third acquisition unit is used for acquiring the performance parameters of the second air conditioner;

a third determining unit, configured to determine whether the second upgrade data matches the second air conditioner based on the obtained performance parameter;

and the second sending unit is used for sending the second upgrading data to the second air conditioner when the second upgrading data is matched with the second air conditioner.

Images