CN114120618A

CN114120618A - One-key infrared configuration method, infrared device, mobile terminal and system

Info

Publication number: CN114120618A
Application number: CN202111456038.6A
Authority: CN
Inventors: 张宁; 龙小寒
Original assignee: Sichuan Hongmei Intelligent Technology Co Ltd
Current assignee: Sichuan Hongmei Intelligent Technology Co Ltd
Priority date: 2021-12-01
Filing date: 2021-12-01
Publication date: 2022-03-01

Abstract

The application provides a method, an infrared device, a mobile terminal and a system for realizing infrared configuration by one key. According to the scheme, after a user presses a retrieval key on a remote controller of target infrared equipment to send a target retrieval infrared code to an infrared device, the infrared device acquires a target infrared code table in which all function fields of the target infrared equipment and infrared codes corresponding to all functions are stored, and sends the target infrared code table to a mobile terminal, and the mobile terminal matches all infrared codes in the target infrared code table to all functions of the target infrared equipment.

Description

One-key infrared configuration method, infrared device, mobile terminal and system

Technical Field

The invention relates to the technical field of infrared configuration, in particular to a method, an infrared device, a mobile terminal and a system for realizing infrared configuration by one key.

Background

Infrared devices, such as televisions, switches, air conditioners, etc., are often used in home appliances in our homes. Different infrared devices have different remote controllers, so that the remote controllers are always switched when different infrared devices are used. In life, the remote controller can be easily lost or damaged, and the battery of the remote controller needs to be replaced regularly, so that the remote controller is very troublesome and cumbersome, and is very inconvenient to use. The infrared device is used for solving the problem, and the infrared product can be uniformly remotely controlled through one infrared device, so that the condition is avoided.

The patent number cn201911425925.x, patent name "a matching method, control method, system, and storage medium for infrared device", mainly describes a way for infrared device to learn, match, and transmit infrared signals corresponding to infrared codes. The defect of this patent lies in that every infrared button all needs the user to carry out solitary study, and user operation is loaded down with trivial details, and the study cost is higher.

Disclosure of Invention

The invention provides a method, an infrared device, a mobile terminal and a system for realizing infrared configuration by one key. The technical scheme of the invention is as follows:

in a first aspect, a method for implementing infrared configuration by one key is provided, which includes:

receiving an infrared learning instruction sent by a mobile terminal, wherein the infrared learning instruction is sent when the mobile terminal detects infrared learning operation aiming at target infrared equipment;

entering an infrared learning state according to the infrared learning instruction;

receiving a target retrieval infrared code in the infrared learning state, wherein the target retrieval infrared code is an infrared code sent by a remote controller when a user presses a retrieval key on the remote controller of the target infrared equipment, and one infrared equipment is preset with a unique retrieval key;

judging whether the target retrieval infrared code exists in a pre-stored infrared code library, wherein a plurality of function fields of a plurality of types of infrared equipment and the infrared code corresponding to each function are stored in the infrared code library, each function and the corresponding infrared code have a one-to-one mapping relation, the function field of each type of infrared equipment comprises a unique retrieval field, and the infrared code corresponding to the retrieval field is the retrieval infrared code;

and when the target retrieval infrared code exists in the infrared code library, sending a target infrared code table of the target infrared equipment to the mobile terminal, so that the mobile terminal matches each infrared code in the target infrared code table to each function of the target infrared equipment, wherein all function fields of the target infrared equipment and the infrared code corresponding to each function are stored in the target infrared code table.

Optionally, after the sending the infrared code table of the target infrared device to the mobile terminal, the method further includes:

receiving an infrared code corresponding to a target function sent by the mobile terminal, wherein the infrared code corresponding to the target function is obtained by the mobile terminal according to the target infrared code table when the mobile terminal detects that a user enters from a custom device entrance and operates the target function of the target infrared device;

and forwarding the infrared code corresponding to the target function to the target infrared equipment, so that the target infrared equipment executes the target function.

Optionally, before receiving the infrared learning instruction sent by the mobile terminal, the method further includes:

establishing a communication link with the mobile terminal;

receiving the distribution network information sent by the mobile terminal through the communication link;

connecting to the Internet according to the distribution network information, and downloading the infrared code library from a cloud platform, wherein the cloud platform is used for storing and updating the infrared code library;

locally storing the infrared code library;

and generating a time stamp for storing the infrared code library, wherein the time stamp is used for marking the updating time of the locally stored infrared code library.

Optionally, after downloading the infrared code library from the cloud platform, the method further includes:

acquiring a timestamp recorded when the cloud platform updates the infrared code library from the cloud platform regularly;

judging whether the locally stored infrared code library needs to be updated or not according to the timestamp recorded when the cloud platform updates the infrared code library and the timestamp of the locally stored infrared code library;

and if the infrared code library stored locally needs to be updated, re-downloading the infrared code library from the cloud platform.

In a second aspect, a method for implementing infrared configuration by one key is provided, which includes:

when the infrared learning operation aiming at the target infrared equipment is detected, an infrared learning instruction is sent to the infrared device;

receiving a target infrared code table of the target infrared equipment, which is sent by the infrared device, wherein all function fields of the target infrared equipment and infrared codes corresponding to all functions are stored in the target infrared code table, the target infrared code table is sent when the infrared device receives a target retrieval infrared code in an infrared learning state and determines that the target retrieval infrared code exists in a local infrared code library of the infrared device, and the target retrieval infrared code is sent by a remote controller when a user presses a retrieval key on the remote controller of the target infrared equipment;

and matching each infrared code in the target infrared code table to each function of the target infrared equipment.

Optionally, after receiving the target infrared code table of the target infrared device sent by the infrared apparatus, the method further includes:

acquiring a user-defined device identifier set for the target infrared device by a user;

when detecting that a user enters from the user-defined equipment identification inlet and operates a target function of the target infrared equipment, acquiring an infrared code corresponding to the target function according to the target infrared code table;

and sending the infrared code corresponding to the target function to the infrared device, so that the infrared device forwards the infrared code corresponding to the target function to the target infrared equipment, and the target infrared equipment executes the target function.

Optionally, before sending the infrared learning instruction to the infrared device, the method further includes:

acquiring identifiers of a plurality of types of infrared equipment;

generating an infrared device type list by using the identifiers of the infrared devices of the types;

when the selection operation of any type of infrared equipment in the infrared equipment type list is detected, determining that the infrared equipment of any type is target infrared equipment, and switching to a control interface of the target infrared equipment;

and displaying the functions of the target infrared equipment on a control interface of the target infrared equipment in sequence, wherein the displayed functions of the target infrared equipment are consistent with the arrangement sequence of the function fields of the target infrared equipment in the target infrared code table.

In a third aspect, an infrared apparatus is provided, the infrared apparatus comprising:

the mobile terminal comprises a first receiving unit, a second receiving unit and a control unit, wherein the first receiving unit is configured to receive an infrared learning instruction sent by the mobile terminal, and the infrared learning instruction is sent when the mobile terminal detects infrared learning operation aiming at target infrared equipment;

the switching unit is configured to enter an infrared learning state according to the infrared learning instruction;

the second receiving unit is configured to receive a target retrieval infrared code in an infrared learning state, wherein the target retrieval infrared code is an infrared code sent by a remote controller when a user presses a retrieval key on a remote controller of target infrared equipment, and one infrared equipment is preset with a unique retrieval key;

the first judgment unit is configured to judge whether a target retrieval infrared code exists in a pre-stored infrared code library, a plurality of function fields of a plurality of types of infrared equipment and the infrared code corresponding to each function are stored in the infrared code library, each function and the corresponding infrared code have a one-to-one mapping relation, the function field of each type of infrared equipment comprises a unique retrieval field, and the infrared code corresponding to the retrieval field is the retrieval infrared code;

and the sending unit is configured to send a target infrared code table of the target infrared equipment to the mobile terminal when the target retrieval infrared code exists in the infrared code library, so that the mobile terminal matches each infrared code in the target infrared code table to each function of the target infrared equipment, and all function fields of the target infrared equipment and the infrared code corresponding to each function are stored in the target infrared code table.

Optionally, the infrared device further comprises:

the third receiving unit is configured to receive an infrared code corresponding to a target function sent by the mobile terminal, wherein the infrared code corresponding to the target function is acquired by the mobile terminal according to the target infrared code table when the mobile terminal detects that a user enters from a custom device entrance and operates the target function of the target infrared device;

and the forwarding unit is configured to forward the infrared code corresponding to the target function to the target infrared device, so that the target infrared device executes the target function.

Optionally, the infrared device further comprises:

an establishing unit configured to establish a communication link with a mobile terminal;

the fourth receiving unit is configured to receive the distribution network information sent by the mobile terminal through a communication link;

the downloading unit is configured to be connected to the internet according to the distribution network information and download the infrared code library from the cloud platform, and the cloud platform is used for storing and updating the infrared code library;

the storage unit is configured to locally store an infrared code library;

and the generating unit is configured to generate a time stamp for storing the infrared code library, and the time stamp is used for marking the updating time of the locally stored infrared code library.

Optionally, the infrared device further comprises:

the updating unit is configured to periodically acquire a timestamp recorded when the cloud platform updates the infrared code library;

the second judgment unit is configured to judge whether the locally stored infrared code library needs to be updated or not according to the timestamp recorded when the cloud platform updates the infrared code library and the timestamp of the locally stored infrared code library;

and the downloading unit is also configured to re-download the infrared code library from the cloud platform if the infrared code library stored locally needs to be updated.

In a fourth aspect, a mobile terminal is provided, the mobile terminal comprising:

a first transmitting unit configured to transmit an infrared learning instruction to the infrared apparatus when an infrared learning operation for the target infrared device is detected;

the receiving unit is configured to receive a target infrared code table of target infrared equipment, the target infrared code table stores all function fields of the target infrared equipment and infrared codes corresponding to all functions, the target infrared code table is sent when the infrared equipment receives a target retrieval infrared code in an infrared learning state and determines that the target retrieval infrared code exists in a local infrared code library of the infrared equipment, and the target retrieval infrared code is sent by a remote controller when a user presses a retrieval key on the remote controller of the target infrared equipment;

and the matching unit is configured to match each infrared code in the target infrared code table to each function of the target infrared equipment.

Optionally, the mobile terminal further includes:

the first acquisition unit is configured to acquire a user-defined device identifier set by a user for the target infrared device;

the second acquisition unit is configured to acquire an infrared code corresponding to the target function according to the target infrared code table when detecting that a user enters and operates the target function of the target infrared device from the user-defined device identification inlet;

and the second sending unit is configured to send the infrared code corresponding to the target function to the infrared device, so that the infrared device forwards the infrared code corresponding to the target function to the target infrared equipment, and the target infrared equipment executes the target function.

Optionally, the mobile terminal further includes:

the third acquisition unit is configured to acquire the identifiers of the infrared devices of the types;

the generating unit is configured to generate an infrared device type list from the identifiers of the infrared devices of the types;

the infrared device type list processing unit is configured to be used for determining any type of infrared device as a target infrared device when the selection operation of any type of infrared device in the infrared device type list is detected, and switching to a control interface of the target infrared device;

and the display unit is configured to display the functions of the target infrared equipment in sequence on a control interface of the target infrared equipment, wherein the displayed functions of the target infrared equipment are consistent with the arrangement sequence of the function fields of the target infrared equipment in the target infrared code table.

In a fifth aspect, a system for realizing infrared configuration by one key is provided, which comprises an infrared device and a mobile terminal;

the infrared device is configured to perform the method of the first aspect;

the mobile terminal is configured to perform the method of the second aspect.

According to the method, the infrared device, the mobile terminal and the system provided by the embodiment of the specification, after a user presses a retrieval key on a remote controller of target infrared equipment to send a target retrieval infrared code to the infrared device, the infrared device acquires a target infrared code table in which all function fields of the target infrared equipment and the infrared code corresponding to each function are stored, and sends the target infrared code table to the mobile terminal, the mobile terminal matches each infrared code in the target infrared code table to each function of the target infrared equipment, so that the method for matching all functions of the target infrared equipment by operating the retrieval key to perform one-key infrared learning is provided.

Drawings

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

Fig. 1 is a schematic diagram of an implementation environment of a method for implementing infrared configuration by one key according to an embodiment of the present invention.

Fig. 2 is a flowchart of a method for implementing infrared configuration by one key according to an embodiment of the present invention.

Fig. 3 is a flowchart of a method for implementing infrared configuration by one key according to an embodiment of the present invention.

Fig. 4 is a flowchart of a method for implementing infrared configuration by one key according to an embodiment of the present invention.

Fig. 5 is a flowchart of a method for implementing infrared configuration by one key according to an embodiment of the present invention.

Fig. 6 is a schematic block diagram of an infrared apparatus provided by an embodiment of the present invention.

Fig. 7 is a schematic block diagram of a mobile terminal provided by an embodiment of the present invention.

Fig. 8 is a schematic block diagram of a system for implementing an infrared configuration by one key according to an embodiment of the present invention.

Detailed Description

As shown in fig. 1, which is a schematic diagram of an implementation environment of a method for implementing infrared configuration by one key according to an embodiment of the present invention, the implementation environment includes an infrared apparatus 10, a mobile terminal 20, a target infrared device 30, and a cloud platform 40. The infrared device 10 and the mobile terminal 20 are connected through a wireless network. Before the infrared device 10 is connected to the internet, the infrared device 10 and the mobile terminal 20 may communicate by means of bluetooth, optical signals, NFC, or the like. After the infrared device 10 is connected to the internet, the infrared device 10 and the mobile terminal 20 may also communicate through WiFi. The infrared device 10 is connected to the cloud platform 40 through a wireless network, which may be a WiFi network. The target infrared device 30 is configured with a remote controller, the infrared apparatus 10 communicates with the target infrared device 30 through the remote controller of the target infrared device 30, and the target infrared device 30 communicates with the remote controller through an infrared signal, which may be an infrared code or the like.

The infrared device 10 may be a gateway device such as a set-top box. The mobile terminal 20 may be a tablet computer, a mobile phone, or a smart wearable device such as a smart band, smart glasses, etc. The target infrared device 30 may be a smart television, a smart air conditioner, an infrared projector, or a sweeping robot, etc. The cloud platform 40 may be a desktop computer, a tablet computer, or a PC cluster, etc.

In the embodiment of the present invention, the cloud platform 40 may obtain and store types of infrared devices of common brands on the market in a database thereof in advance, and define and store an infrared code table of each type of infrared device, where the infrared code tables of the various types of infrared devices form an infrared code library. The cloud platform 40 may also define a storage rule of the infrared code library in advance, where the storage rule includes all function fields of various types of infrared devices and an infrared code corresponding to each function. And each function and the corresponding infrared code of the function have a one-to-one mapping relation in storage. The function field in the storage rule includes a search field, and the search field has uniqueness, and generally uses a switch function of a remote controller as the search field. If there is no on-off key, other functions are used as the search field. The remote controller key corresponding to the search field is a search key, and the infrared code corresponding to the search field is a search infrared code. The search field of each infrared device needs to be defined in advance and cannot be changed. In addition, when storing the infrared code, the cloud platform 40 may generally mark the search field or place the search field at a specific location, for example, arrange the search field at the first position of the function field, in order to identify the search field.

For example: the intelligent air conditioner has the functions of switching, mode, wind speed, sleep and the like, the retrieval field is the switch, the functional fields corresponding to the switching, the mode, the wind speed and the sleep are power, mode, wind and sleep, the corresponding retrieval infrared codes are 0x0101, 0x0102, 0x0103 and 0x0104 respectively, and then the infrared code table of the intelligent air conditioner stored in the database of the cloud platform 40 is as follows: { power: 0x0101, mode:0x0102, windsleep:0x0103, sleep:0x0104 }.

With reference to the implementation environment schematic diagram shown in fig. 1 and the above description, the embodiment of the present invention provides a method for implementing infrared configuration by one key, and the embodiment of the present invention takes the infrared device 10 as an example to execute the method provided in the embodiment of the present invention, and details of the method provided in the embodiment of the present invention are described. As shown in fig. 2, the method may include the steps of:

step 201, receiving an infrared learning instruction sent by a mobile terminal, where the infrared learning instruction is sent when the mobile terminal detects an infrared learning operation for a target infrared device.

The infrared learning instruction sent by the mobile terminal can be received through an MQTT (Message Queuing Telemetry Transport) protocol.

And step 203, entering an infrared learning state according to the infrared learning instruction.

And step 205, receiving a target retrieval infrared code in an infrared learning state, wherein the target retrieval infrared code is an infrared code sent by a remote controller when a user presses a retrieval key on a remote controller of a target infrared device, and one infrared device is preset with a unique retrieval key.

And step 207, judging whether a target retrieval infrared code exists in a pre-stored infrared code library, wherein a plurality of function fields of a plurality of types of infrared equipment and the infrared code corresponding to each function are stored in the infrared code library, each function and the corresponding infrared code have a one-to-one mapping relation, the function field of each type of infrared equipment comprises a unique retrieval field, and the infrared code corresponding to the retrieval field is the retrieval infrared code.

Specifically, when judging whether a target retrieval infrared code exists in a pre-stored infrared code library, the method is realized by comparing the target retrieval infrared code with each infrared code in the infrared code library.

And 209, when the target retrieval infrared code exists in the infrared code library, sending a target infrared code table of the target infrared equipment to the mobile terminal, so that the mobile terminal matches each infrared code in the target infrared code table to each function of the target infrared equipment, wherein all function fields of the target infrared equipment and the infrared code corresponding to each function are stored in the target infrared code table.

According to the method provided by the embodiment of the invention, after a user presses the retrieval key on the remote controller of the target infrared equipment to send the target retrieval infrared code, the target infrared code table storing all function fields of the target infrared equipment and the infrared code corresponding to each function is obtained, and the target infrared code table is sent to the mobile terminal, so that the mobile terminal matches each infrared code in the target infrared code table to each function of the target infrared equipment, and therefore, the method capable of matching all functions of the target infrared equipment by operating the retrieval key to perform one-key infrared learning is provided.

With reference to the implementation environment diagram shown in fig. 1, the embodiment of the present invention provides a method for implementing infrared configuration by one key, and the embodiment of the present invention takes the mobile terminal 20 as an example to execute the method provided in the embodiment of the present invention, and details of the method provided in the embodiment of the present invention are described. As shown in fig. 3, the method may include the steps of:

and 301, when the infrared learning operation aiming at the target infrared equipment is detected, sending an infrared learning instruction to the infrared device.

Specifically, a display interface of the mobile terminal displays a plurality of types of infrared devices, and when a certain infrared device is detected to be selected, the selected infrared device is determined to be a target infrared device. And when the mobile terminal further detects the preset operation of the user on the infrared learning key, determining to acquire the infrared learning operation aiming at the target infrared equipment. The preset operation can be double-click, long-press or drawing a preset shape on the infrared learning key, and the like, and the preset shape can be a circle, a number, and the like.

Further, infrared learning instructions may be sent to the infrared device based on the MQTT protocol. Of course, the infrared learning instruction may also be sent to the infrared device by other wireless means, such as bluetooth.

And step 303, receiving a target infrared code table of the target infrared device, which is sent by the infrared apparatus, wherein all function fields of the target infrared device and the infrared code corresponding to each function are stored in the target infrared code table, the target infrared code table is sent when the infrared apparatus receives the target retrieval infrared code in the infrared learning state and determines that the target retrieval infrared code exists in a local infrared code library of the infrared apparatus, and the target retrieval infrared code is sent by the remote controller when the user presses a retrieval key on the remote controller of the target infrared device.

And 305, matching each infrared code in the target infrared code table to each function of the target infrared equipment.

Specifically, the control interface of the target infrared device displays each function of the target infrared device, and the sequence of displaying each function is consistent with the sequence of arranging the function fields of the target infrared device in the target infrared code table, so that when each infrared code in the target infrared code table is matched with each function of the target infrared device, only sequential matching is needed, the matching operation is simple, and the required time is short. Of course, when each infrared code in the target infrared code table is matched to each function of the target infrared device, other methods may also be adopted, such as extracting a function field in the target infrared code table, then extracting each function key in the control interface of the target infrared device, matching according to the principle that the function field and the function key are always matched, and the like.

According to the method provided by the embodiment of the invention, after a user presses the retrieval key on the remote controller of the target infrared equipment to send the target retrieval infrared code to the infrared device, the infrared device acquires the target infrared code table in which all function fields of the target infrared equipment and the infrared code corresponding to each function are stored, and sends the target infrared code table to the mobile terminal, and then the target infrared code table is received and all infrared codes in the target infrared code table are matched to all functions of the target infrared equipment, so that the method for matching all functions of the target infrared equipment by operating the retrieval key to perform one-key infrared learning is provided.

With reference to the implementation environment diagram shown in fig. 1, the embodiment of the present invention provides a method for implementing infrared configuration by one key, and the embodiment of the present invention takes the method provided by the embodiment of the present invention, which is interactively executed by the mobile terminal 20 of the infrared device 10, as an example, to describe the method provided by the embodiment of the present invention in detail. As shown in fig. 4, the method may include the steps of:

step 401, when the mobile terminal detects an infrared learning operation for a target infrared device, sending an infrared learning instruction to an infrared apparatus.

And step 403, the infrared device receives the infrared learning instruction and enters an infrared learning state according to the infrared learning instruction.

Step 405, the user presses a retrieval key on the remote controller of the target infrared device to enable the remote controller to send a target retrieval infrared code to the target infrared device.

And 407, the infrared device receives the target retrieval infrared code in the infrared learning state and judges whether the target retrieval infrared code exists in a pre-stored infrared code library.

And step 409, when the target retrieval infrared code exists in the infrared code library, the infrared device sends a target infrared code table of the target infrared equipment to the mobile terminal, and all function fields of the target infrared equipment and the infrared code corresponding to each function are stored in the target infrared code table.

Step 411, the mobile terminal receives the target infrared code table and matches each infrared code in the target infrared code table to each function of the target infrared device.

According to the method provided by the embodiment of the invention, after a user presses the retrieval key on the remote controller of the target infrared equipment to send the target retrieval infrared code to the infrared device, the infrared device acquires the target infrared code table in which all function fields of the target infrared equipment and the infrared code corresponding to each function are stored, and sends the target infrared code table to the mobile terminal, and then the mobile terminal matches each infrared code in the target infrared code table to each function of the target infrared equipment, so that the method for matching all functions of the target infrared equipment by operating the retrieval key to perform one-key infrared learning is provided.

With reference to the implementation environment diagram shown in fig. 1, the embodiment of the present invention provides a method for implementing infrared configuration by one key, and the embodiment of the present invention takes the method provided by the embodiment of the present invention, which is interactively executed by the mobile terminal 20 of the infrared device 10, as an example, to describe the method provided by the embodiment of the present invention in detail. As shown in fig. 5, the method may include the steps of:

step 501, a communication link is established between the mobile terminal and the infrared device, the mobile terminal sends distribution network information to the infrared device through the communication link, and the infrared device receives the distribution network information and is connected to the internet according to the distribution network information.

The communication link may be bluetooth, or may be an optical signal link. And when the communication link is Bluetooth, the mobile terminal sends the distribution network information to the infrared device through the Bluetooth. And when the communication link is an optical signal link, the mobile terminal sends the distribution network information to the infrared device through the optical signal link. When the communication link is an optical signal link, the mobile terminal encodes the distribution network information to generate an optical signal, and then sends the distribution network information through a light-emitting element, such as a screen, a flash lamp, an infrared emission tube or an LED. The infrared device receives optical signals through a photosensitive element such as a camera, a photoresistor, an infrared receiving tube or a photosensitive diode, and analyzes the optical signals to obtain distribution network information. The distribution network information comprises an SSID and a password of a local area network router where the infrared device is located.

Further, in order to prevent the router from being illegally connected, the distribution network information may be encrypted before the mobile terminal sends the distribution network information to the infrared device. The specific encryption algorithm can be selected from a symmetric encryption algorithm or an asymmetric encryption algorithm according to needs. Preferably, the encryption algorithm is an AES128 encryption algorithm to better ensure the security of the distribution network information. On the basis, after the infrared device receives the distribution network information, decryption operation needs to be performed first.

And 503, downloading the infrared code library from the cloud platform through the internet by the infrared device, and storing the infrared code library locally.

And 505, the infrared device generates a time stamp for storing the infrared code library, and the time stamp is used for marking the updating time of the locally stored infrared code library.

Step 507, the infrared device periodically acquires a timestamp recorded when the infrared code library is updated from the cloud platform, and judges whether the locally stored infrared code library needs to be updated according to the timestamp recorded when the infrared code library is updated by the cloud platform and the timestamp of the locally stored infrared code library; and if the infrared code library stored locally needs to be updated, the infrared code library is downloaded from the cloud platform again.

Specifically, when whether the locally stored infrared code library needs to be updated is judged, if the timestamp recorded when the cloud platform updates the infrared code library is behind the timestamp of the locally stored infrared code library, the locally stored infrared code library is determined to be updated. For example, when the cloud platform updates the infrared code library with a recorded timestamp of 21.11.06 and a timestamp of 21.10.04, it is determined that the locally stored infrared code library needs to be updated.

Step 509, the mobile terminal obtains the identifiers of the infrared devices of the multiple types, generates an infrared device type list from the identifiers of the infrared devices of the multiple types, displays the infrared device type list, and determines that the infrared device of the type is the target infrared device when the mobile terminal detects a selection operation on any infrared device of the types in the infrared device type list, and switches to a control interface of the target infrared device.

Specifically, a user operates the mobile terminal to enter an infrared device interface, the infrared device interface comprises a list of common infrared device types on the market, and the user selects a target infrared device type which the user wants to match, clicks to enter the next page, and can see a control interface of the target infrared device type. And the control interface of the target infrared equipment displays all functions of the target infrared equipment in sequence.

Preferably, the sequence of each function of the target infrared device displayed on the control interface is consistent with the arrangement sequence of the function fields of the target infrared device in the target infrared code table, so that the mobile terminal can store all the function fields of the target infrared device and the infrared code corresponding to each function in the target infrared code table.

And 511, when the mobile terminal detects the infrared learning operation aiming at the target infrared equipment on the control interface of the target infrared equipment, sending an infrared learning instruction to the infrared device.

For example, an infrared learning key is displayed on a control interface of the target infrared device, and when the mobile terminal detects that the infrared learning key is selected, it is determined that an infrared learning operation for the target infrared device is detected, and an infrared learning instruction is triggered to be sent to the infrared device. Specifically, the mobile terminal may send an infrared learning instruction to the infrared device based on the MQTT protocol.

And 513, the infrared device receives the infrared learning instruction sent by the mobile terminal and enters an infrared learning state according to the infrared learning instruction.

Step 515, the user presses a search key on the remote control of the target infrared device, so that the remote control sends the target search infrared code to the target infrared device.

And 517, the infrared device receives the target retrieval infrared code in the infrared learning state and judges whether the pre-stored infrared code library has the target retrieval infrared code.

And step 519, when the target retrieval infrared code exists in the infrared code library, the infrared device sends a target infrared code table of the target infrared equipment to the mobile terminal, and all function fields of the target infrared equipment and the infrared code corresponding to each function are stored in the target infrared code table.

And step 521, the mobile terminal receives the target infrared code table and matches each infrared code in the target infrared code table to each function of the target infrared equipment.

Further, after the mobile terminal receives the target infrared code table, the method provided by the embodiment of the present invention may further include: the mobile terminal allocates a virtual device identifier to the target infrared device, establishes a binding relationship between the target infrared code table and the virtual device identifier, and sends the binding relationship to the cloud platform, so that the cloud platform establishes a mapping relationship among the devices, the function field and the infrared code, and information of an infrared code library stored by the cloud platform is further perfected.

On the basis of the above embodiment, the method provided by the embodiment of the invention further supports the user to customize the name of the target infrared device, and the user can define the identifier of the target infrared device according to the preference or the requirement of the user, for example, the smart television is called as "yellow color" to increase the fun of operating the smart television. If the user needs to customize the target infrared device, the method provided by the embodiment of the invention may further include: and step 423, the mobile terminal acquires the user-defined device identifier set by the user for the target infrared device, and displays the user-defined device identifier. At the moment, after entering through the user-defined device identification inlet of the mobile terminal, the user can remotely control the target infrared device. The method comprises the following specific steps:

when the mobile terminal detects that a user enters from the user-defined equipment identification inlet and operates the target function of the target infrared equipment, the infrared code corresponding to the target function is obtained according to the target infrared code table, and the infrared code corresponding to the target function is sent to the infrared device. And the infrared device receives and forwards the infrared code corresponding to the target function to the target infrared equipment, so that the target infrared equipment executes the target function. Specifically, the mobile terminal may send an infrared code corresponding to the target function to the infrared device through the MQTT protocol.

The foregoing description has been directed to specific embodiments of this disclosure. Other embodiments are within the scope of the following claims. In some cases, the actions or steps recited in the claims may be performed in a different order than in the embodiments and still achieve desirable results. In addition, the processes depicted in the accompanying figures do not necessarily require the particular order shown, or sequential order, to achieve desirable results. In some embodiments, multitasking and parallel processing may also be possible or may be advantageous.

An infrared apparatus is provided according to an embodiment of the present invention, and fig. 6 shows a schematic block diagram of the infrared apparatus according to an embodiment. As shown in fig. 6, the infrared device includes:

a first receiving unit 601, configured to receive an infrared learning instruction sent by a mobile terminal, where the infrared learning instruction is sent when the mobile terminal detects an infrared learning operation for a target infrared device;

a switching unit 603 configured to enter an infrared learning state according to the infrared learning instruction;

a second receiving unit 605, configured to receive a target retrieval infrared code in an infrared learning state, where the target retrieval infrared code is an infrared code sent by a remote controller when a user presses a retrieval key on a remote controller of a target infrared device, and a unique retrieval key is preset in one infrared device;

a first determining unit 607 configured to determine whether a target search infrared code exists in a pre-stored infrared code library, where a plurality of function fields of a plurality of types of infrared devices and an infrared code corresponding to each function are stored in the infrared code library, each function and the corresponding infrared code have a one-to-one mapping relationship, the function field of each type of infrared device includes a unique search field, and the infrared code corresponding to the search field is the search infrared code;

the sending unit 609 is configured to send a target infrared code table of the target infrared device to the mobile terminal when the target retrieval infrared code exists in the infrared code library, so that the mobile terminal matches each infrared code in the target infrared code table to each function of the target infrared device, and all function fields of the target infrared device and the infrared code corresponding to each function are stored in the target infrared code table.

Optionally, the infrared device further comprises:

the storage unit is configured to locally store an infrared code library;

Optionally, the infrared device further comprises:

According to the infrared device provided by the embodiment of the invention, after a user presses the retrieval key on the remote controller of the target infrared equipment to send the target retrieval infrared code, the target infrared code table storing all the function fields of the target infrared equipment and the infrared code corresponding to each function is obtained, and the target infrared code table is sent to the mobile terminal, so that the mobile terminal matches each infrared code in the target infrared code table to each function of the target infrared equipment, and therefore, the method for matching all the functions of the target infrared equipment by operating the retrieval key to perform one-key infrared learning is provided.

It is to be understood that the illustrated structure of the embodiments of the present invention does not constitute a specific limitation to the infrared device. In other embodiments of the invention, the infrared device may include more or fewer components than shown, or some components may be combined, some components may be separated, or a different arrangement of components may be used. The illustrated components may be implemented in hardware, software, or a combination of software and hardware.

Since the above information interaction and execution process between the units in the infrared device are based on the same concept as the method embodiment of the present invention, specific contents may be referred to the description in the method embodiment of the present invention, and are not described herein again.

An embodiment of the present invention provides a mobile terminal, and fig. 7 shows a schematic block diagram of the mobile terminal according to an embodiment. As shown in fig. 7, the mobile terminal includes:

a first transmitting unit 701 configured to transmit an infrared learning instruction to an infrared apparatus when an infrared learning operation for a target infrared device is detected;

the receiving unit 703 is configured to receive a target infrared code table of the target infrared device sent by the infrared apparatus, where all function fields of the target infrared device and an infrared code corresponding to each function are stored in the target infrared code table, the target infrared code table is sent when the infrared apparatus receives a target retrieval infrared code in an infrared learning state and determines that a target retrieval infrared code exists in a local infrared code library of the infrared apparatus, and the target retrieval infrared code is sent by the remote controller when a user presses a retrieval key on a remote controller of the target infrared device;

the matching unit 705 is configured to match each infrared code in the target infrared code table to each function of the target infrared device.

Optionally, the mobile terminal further includes:

According to the mobile terminal provided by the embodiment of the invention, after a user presses the retrieval key on the remote controller of the target infrared equipment to send the target retrieval infrared code to the infrared device, the infrared device acquires the target infrared code table in which all function fields of the target infrared equipment and the infrared code corresponding to each function are stored, and sends the target infrared code table to the mobile terminal, and then the target infrared code table is received and all infrared codes in the target infrared code table are matched to all functions of the target infrared equipment, so that the method for matching all functions of the target infrared equipment by operating the retrieval key to perform one-key infrared learning is provided.

It is to be understood that the illustrated structure of the embodiment of the present invention does not specifically limit the mobile terminal. In other embodiments of the invention, the mobile terminal may include more or fewer components than shown, or some components may be combined, some components may be split, or a different arrangement of components. The illustrated components may be implemented in hardware, software, or a combination of software and hardware.

Since the above-mentioned information interaction, execution process and other contents between the units in the mobile terminal are based on the same concept as the method embodiment of the present invention, specific contents may refer to the description in the method embodiment of the present invention, and are not described herein again.

As shown in fig. 8, an embodiment of the present invention further provides a system for implementing an infrared configuration by one key, which includes an infrared device 801 and a mobile terminal 803; the infrared device 801 is configured to perform the functions configured by the infrared device in the above embodiments; the mobile terminal 803 is configured to perform the above-described functions configured by the mobile terminal in the above-described embodiments. Specific implementation manners of the functions configured by the infrared device 801 and the mobile terminal 803 have been described in detail in the above embodiments, and are not described herein again.

According to the system provided by the embodiment of the invention, after a user presses the retrieval key on the remote controller of the target infrared equipment to send the target retrieval infrared code to the infrared device, the infrared device acquires the target infrared code table in which all function fields of the target infrared equipment and the infrared code corresponding to each function are stored, and sends the target infrared code table to the mobile terminal, and then the mobile terminal matches each infrared code in the target infrared code table to each function of the target infrared equipment, so that the method for matching all functions of the target infrared equipment by operating the retrieval key to perform one-key infrared learning is provided.

It should be noted that not all steps and modules in the above flows and system structure diagrams are necessary, and some steps or modules may be omitted according to actual needs. The execution order of the steps is not fixed and can be adjusted as required. The system structure described in the above embodiments may be a physical structure or a logical structure, that is, some modules may be implemented by the same physical entity, or some modules may be implemented by a plurality of physical entities, or some components in a plurality of independent devices may be implemented together.

In the above embodiments, the hardware unit may be implemented mechanically or electrically. For example, a hardware element may comprise permanently dedicated circuitry or logic (such as a dedicated processor, FPGA or ASIC) to perform the corresponding operations. The hardware elements may also comprise programmable logic or circuitry, such as a general purpose processor or other programmable processor, that may be temporarily configured by software to perform the corresponding operations. The specific implementation (mechanical, or dedicated permanent, or temporarily set) may be determined based on cost and time considerations.

While the invention has been shown and described in detail in the drawings and in the preferred embodiments, it is not intended to limit the invention to the embodiments disclosed, and it will be apparent to those skilled in the art that various combinations of the code auditing means in the various embodiments described above may be used to obtain further embodiments of the invention, which are also within the scope of the invention.

Claims

1. A method for realizing infrared configuration by one key is characterized by comprising the following steps:

2. The method according to claim 1, wherein after the sending the infrared code table of the target infrared device to the mobile terminal, further comprising:

3. The method according to claim 1, wherein before receiving the infrared learning instruction sent by the mobile terminal, the method further comprises:

establishing a communication link with the mobile terminal;

locally storing the infrared code library;

4. The method of claim 3, wherein after downloading the infrared code library from the cloud platform, further comprising:

5. A method for realizing infrared configuration by one key is characterized by comprising the following steps:

6. The method of claim 5, wherein after receiving the target infrared code table of the target infrared device sent by the infrared apparatus, further comprising:

7. The method of claim 5, wherein prior to sending the infrared learning instruction to the infrared device, further comprising:

acquiring identifiers of a plurality of types of infrared equipment;

8. An infrared device, comprising:

the second receiving unit is configured to receive a target retrieval infrared code in the infrared learning state, wherein the target retrieval infrared code is an infrared code sent by the remote controller when a user presses a retrieval key on the remote controller of the target infrared equipment, and one infrared equipment is preset with one unique retrieval key;

the first judgment unit is configured to judge whether the target retrieval infrared code exists in a pre-stored infrared code library, a plurality of function fields of a plurality of types of infrared equipment and the infrared code corresponding to each function are stored in the infrared code library, a one-to-one mapping relation exists between each function and the corresponding infrared code, the function field of each type of infrared equipment comprises a unique retrieval field, and the infrared code corresponding to the retrieval field is the retrieval infrared code;

9. A mobile terminal, comprising:

the receiving unit is configured to receive a target infrared code table of the target infrared equipment, which is sent by the infrared device, wherein all function fields of the target infrared equipment and infrared codes corresponding to all functions are stored in the target infrared code table, the target infrared code table is sent when the infrared device receives a target retrieval infrared code in an infrared learning state and determines that the target retrieval infrared code exists in a local infrared code library of the infrared device, and the target retrieval infrared code is an infrared code sent by a remote controller when a user presses a retrieval key on the remote controller of the target infrared equipment;

10. The system for realizing the infrared configuration by one key is characterized by comprising an infrared device and a mobile terminal;

the infrared device is configured to perform the method of any one of claims 1 to 4;

the mobile terminal is configured to perform the method of any of claims 5 to 7.