CN110830337A - WIFI expander-based remote infrared control method and system and storage medium - Google Patents

Abstract

The invention relates to the technical field of WIFI (wireless fidelity), and discloses a remote infrared control method, a system and a storage medium based on a WIFI expander. Therefore, the household appliance can be remotely controlled in real time by the mode, and the energy consumption of the household appliance is greatly reduced.

Description

WIFI expander-based remote infrared control method and system and storage medium

Technical Field

The invention relates to the technical field of WIFI, in particular to a remote infrared control method and system based on a WIFI expander and a storage medium.

Background

At present, household appliances are short for household appliances. Electrical appliances are understood in the narrow sense to mean loads on electrical circuits and devices for controlling, regulating or protecting electrical circuits, motors, etc., such as loudspeakers, switches, varistors, fuses, etc. Electrical appliances in the broad sense refer to products that work using a combination of electrical components, typically using electricity as a source of energy. Domestic dealers generally classify home appliances into black appliances and white appliances. The source of white household appliances, which are white household appliances at first, is that since many household appliances exist in a household, most of the household appliances are large in size, early consumers like to select unobtrusive white when purchasing the household appliances, and even if the household appliances are made in various colors, many people refer to the household appliances as white household appliances. The black household appliances with the same reason refer to black household appliances, and since the outermost surface of the early television adopting the tube-on-line technology is provided with a circle of black edges, the black brown shell is least easy to generate visual contrast for consumers. The black electric products are used for entertainment and leisure of people, while the white electric products are used for reducing the labor intensity of people, such as washing machines and partial kitchen appliances; improving living environment and improving living standard of materials, such as air conditioner and refrigerator. The black and white electricity can be distinguished from the operating principle and core parts, the black electricity is more through electronic components, circuit boards and the like, and the white electricity is more through converting electric energy into heat energy and kinetic energy through a motor to work. In recent years, various household electrical appliances, such as network household electrical appliances, refrigerators with liquid crystal televisions, and the like, have a phenomenon of mutual permeation and blending. The electric appliances of various sizes are generally used for household clothes and household.

However, at present, household appliances support infrared remote control, such as televisions, lamps, water heaters, air conditioners and the like, but infrared control is short-distance, control needs to be performed within a limited range, and remote real-time control cannot be achieved.

Disclosure of Invention

The invention aims to overcome the defects in the prior art and provides a remote infrared control method, a system and a storage medium based on a WIFI expander, wherein the remote infrared control method, the system and the storage medium can realize remote control of household appliances and can reduce the energy consumption of the household appliances.

The purpose of the invention is realized by the following technical scheme:

a remote infrared control method based on a WIFI expander is disclosed, the WIFI expander is used for remotely controlling household appliances, an infrared emission module is arranged in each household appliance, and the method comprises the following steps:

s101, receiving a plurality of learning signal requests sent by the built-in infrared emission module of the household appliance;

s102, generating a plurality of pre-execution instructions corresponding to the learning signal requests one by one according to the learning signal requests, and storing the pre-execution instructions;

s103, establishing a plurality of code values, and binding the code values with the pre-execution instructions in a one-to-one correspondence manner to generate an infrared code table;

s104, receiving a plurality of service request instructions from a cloud server;

s105, matching each service request instruction with each pre-execution instruction in a one-to-one correspondence mode according to the infrared coding table;

and S106, sending each coded value corresponding to each pre-execution instruction.

In one embodiment, before the step of receiving a plurality of service request instructions from the cloud server, the method further includes the following steps:

and accessing an Internet network, connecting with the cloud server, and broadcasting the hot spot.

In one embodiment, in the step, according to each learning signal request, a plurality of pre-execution instructions corresponding to each learning signal request one to one are generated, and the storing of each pre-execution instruction specifically includes:

establishing a plurality of management labels aiming at the pre-execution instructions, and respectively binding the management labels with the coding values in a one-to-one correspondence manner;

and binding the management labels with the pre-execution instructions in a one-to-one correspondence manner to generate a management information table.

In one embodiment, after the step of binding each management tag with each encoding value in a one-to-one correspondence manner, the method further includes the following steps:

and sending the management information table.

A remote infrared control system based on WIFI extender includes:

the infrared receiving module is used for receiving a plurality of learning signal requests sent by the built-in infrared transmitting module of the household appliance, and is also used for receiving a plurality of service request instructions from the cloud server;

an instruction receiving module for receiving a plurality of service request instructions from a cloud server;

the storage module is used for storing each pre-execution instruction;

the binding module is used for establishing a plurality of code values, and binding each code value with each pre-execution instruction in a one-to-one correspondence manner to generate an infrared code table;

the generating module is used for generating a plurality of pre-execution instructions which are in one-to-one correspondence with the learning signal requests according to the learning signal requests, and is also used for matching the service request instructions with the pre-execution instructions according to the infrared code table to generate a plurality of execution code values;

a transmitting module, configured to transmit each of the execution coded values.

In one embodiment, the system further comprises a network connection module, wherein the network connection module is used for accessing an Internet network, connecting with the cloud server and broadcasting the hot spot.

In one embodiment, the generating module is further configured to establish a plurality of management tags for each learning signal request, and the generating module is further configured to generate a management information table.

In one embodiment, the binding module is further configured to bind each management tag with each encoding value in a one-to-one correspondence.

In one embodiment, the binding module is further configured to bind each management tag with each pre-execution instruction in a one-to-one correspondence manner.

A storage medium, which stores a plurality of medium instructions, where the instructions are suitable for being loaded by a processor to execute the steps in the remote infrared control method for the WIFI extender according to any one of the embodiments of the present invention.

Compared with the prior art, the invention has the following advantages and beneficial effects:

the invention relates to a remote infrared control method, a system and a storage medium based on a WIFI expander. Therefore, the household appliance can be remotely controlled in real time by the mode, and the energy consumption of the household appliance is greatly reduced.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings needed to be used in the embodiments will be briefly described below, it should be understood that the following drawings only illustrate some embodiments of the present invention and therefore should not be considered as limiting the scope, and for those skilled in the art, other related drawings can be obtained according to the drawings without inventive efforts.

Fig. 1 is a flowchart of a method of a remote infrared control method based on a WIFI extender according to an embodiment of the present invention;

fig. 2 is a functional block diagram of a remote infrared control system based on a WIFI extender according to an embodiment of the present invention.

Detailed Description

To facilitate an understanding of the invention, the invention will now be described more fully with reference to the accompanying drawings. Preferred embodiments of the present invention are shown in the drawings. This invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

It will be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. The terms "vertical," "horizontal," "left," "right," and the like as used herein are for illustrative purposes only and do not represent the only embodiments.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used herein in the description of the invention is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. As used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items.

In an embodiment, a remote infrared control method based on a WIFI extender, where an infrared emission module is built in a home appliance, includes: receiving a plurality of learning signal requests sent by the built-in infrared emission module of the household appliance; generating a plurality of pre-execution instructions corresponding to the learning signal requests one to one according to the learning signal requests, and storing the pre-execution instructions; establishing a plurality of coding values, and binding each coding value with each pre-execution instruction in a one-to-one correspondence manner to generate an infrared coding table; receiving a plurality of service request instructions from a cloud server; according to the infrared coding table, matching each service request instruction with each pre-execution instruction in a one-to-one correspondence manner; and transmitting each coded value corresponding to each pre-execution instruction. A remote infrared control system based on WIFI extender includes: the infrared receiving module is used for receiving a plurality of learning signal requests sent by the built-in infrared transmitting module of the household appliance, and is also used for receiving a plurality of service request instructions from the cloud server; an instruction receiving module for receiving a plurality of service request instructions from a cloud server; the storage module is used for storing each pre-execution instruction; the binding module is used for establishing a plurality of code values, and binding each code value with each pre-execution instruction in a one-to-one correspondence manner to generate an infrared code table; the generating module is used for generating a plurality of pre-execution instructions which are in one-to-one correspondence with the learning signal requests according to the learning signal requests, and is also used for matching the service request instructions with the pre-execution instructions in one-to-one correspondence respectively according to the infrared coding table; and the transmitting module is used for transmitting each coded value corresponding to each pre-execution instruction. According to the invention, the learning signal request of the household appliance with the infrared function is received through the WIFI expander, the learning signal request is converted into the pre-execution instruction for storage, when a user uses the mobile device to control the household appliance, only the service request instruction needs to be sent to the cloud server, the cloud server forwards the service request instruction to the WIFI expander, the WIFI expander inquires the pre-execution instruction matched with the service request instruction, an execution action instruction is generated, and the execution action instruction is sent to the household appliance to execute corresponding operation. Therefore, the household appliance can be remotely controlled in real time by the mode, and the energy consumption of the household appliance is greatly reduced.

In order to better explain the above-mentioned remote infrared control method based on the WIFI extender and to better understand the concept of the above-mentioned remote infrared control method based on the WIFI extender, please refer to fig. 1, a remote infrared control method based on the WIFI extender, the WIFI extender is used to perform remote control on the household appliance, the household appliance is built with an infrared emission module, which includes:

step S101, receiving a plurality of learning signal requests sent by an infrared emission module built in the household appliance;

step S102, generating a plurality of pre-execution instructions corresponding to the learning signal requests one by one according to the learning signal requests, and storing the pre-execution instructions;

step S103, establishing a plurality of code values, and binding each code value with each pre-execution instruction in a one-to-one correspondence manner to generate an infrared code table.

Further, in an embodiment, a plurality of management tags are established for each pre-execution instruction, and each management tag is bound with each code value in a one-to-one correspondence manner;

and binding the management labels with the pre-execution instructions in a one-to-one correspondence manner to generate a management information table.

Still further, in one embodiment, the management information table is transmitted.

It should be noted that, the WIFI extender first learns the function of each key of the home appliance, during the learning process, the built-in infrared emission module of the home appliance sends a learning signal request to the WIFI extender, the WIFI extender converts the learning signal request into a plurality of pre-execution instructions according to the correspondence of the learning signal request, and at the same time, the WIFI extender establishes a plurality of management tags according to the learning signal request, binds the management tags with the pre-execution instructions, generates a management information table, and sends the management information table to the built-in module of the home appliance for storage, wherein the learning signal request refers to the function of each key, and then a plurality of code values are established inside the WIFI extender, and each code value is bound with each pre-execution instruction in a one-to-one correspondence, so as to generate an infrared code table, and the process is used for matching the function of each key one by code value, meanwhile, each coding value is also bound with a plurality of management labels in a one-to-one correspondence mode.

Step S104, receiving a plurality of service request instructions from a cloud server;

step S105, matching each service request instruction with each pre-execution instruction in a one-to-one correspondence manner according to the infrared coding table;

step S106, sending each encoded value corresponding to each pre-execution instruction.

It should be noted that, a user is connected with a cloud server through a mobile phone APP, the user controls a household appliance by sending a service request instruction to the cloud server, the cloud server forwards the service request instruction to a WIFI extender, the WIFI extender, after receiving the service request instruction, queries a pre-execution instruction matched with the service request instruction, because each pre-execution instruction corresponds to one encoded value one by one, and each encoded value corresponds to one management tag one by one, when the WIFI extender queries the pre-execution instruction matched with the service request instruction, the encoded value corresponding to the pre-execution instruction is sent to the household appliance, because a management information table is stored in the household appliance, and the management tag is bound to the encoded value, the household appliance searches for the corresponding management tag according to the encoded value, and executes the pre-execution instruction corresponding to the management tag, thereby completing an action.

Further, in an embodiment, before the step of receiving the plurality of service request instructions from the cloud server, the method further includes the following steps:

and accessing the Internet network, connecting the Internet network with the cloud server, and broadcasting the hot spot.

It should be noted that, in the receiving cloud server, the wireless Station connection main router in the WIFI extender accesses the Internet network, and broadcasts the AP hotspot, and a TCP client is established in the WIFI extender system to connect the cloud server.

According to the remote infrared control method based on the WIFI expander, firstly, the WIFI expander receives a learning signal request of a household appliance with an infrared function, converts the learning signal request into a pre-execution instruction to be stored, when a user uses a mobile device to control the household appliance, the user only needs to send a service request instruction to a cloud server, the service request instruction is forwarded to the WIFI expander by the cloud server, the WIFI expander inquires the pre-execution instruction matched with the service request instruction, an execution action instruction is generated, and the execution action instruction is sent to the household appliance to execute corresponding operation. Therefore, the household appliance can be remotely controlled in real time by the mode, and the energy consumption of the household appliance is greatly reduced.

Referring to fig. 2, a remote infrared control system 10 based on a WIFI extender includes: the device comprises an infrared receiving module 1000, an instruction receiving module 1002, a storage module 1003, a binding module 1004, a generating module 1005 and a transmitting module 1006. The infrared receiving module 1000 is used for receiving a plurality of learning signals sent by the built-in infrared transmitting module of the household appliance to request the infrared receiving module 1000; the instruction receiving module 1002 is configured to receive a plurality of service request instructions from a cloud server; the storage module 1003 is used for storing each pre-execution instruction; the binding module 1004 is configured to establish a plurality of code values, and bind each code value with each pre-execution instruction in a one-to-one correspondence manner, so as to generate an infrared code table; the generating module 1005 is configured to generate a plurality of pre-execution instructions corresponding to the learning signal requests one to one according to the learning signal requests, and the generating module 1005 is further configured to match the service request instructions with the pre-execution instructions one to one according to the infrared coding table; the transmitting module 1006 is configured to transmit each encoded value corresponding to each pre-executed instruction.

Referring to fig. 2, in an embodiment, the WIFI extender-based remote infrared control system 10 further includes a network connection module, where the network connection module is configured to access an Internet network, broadcast a hotspot, and connect to a cloud server.

Referring to fig. 2, in an embodiment, the generating module 1005 is further configured to establish a plurality of management tags for each learning signal request, and the generating module 1005 is further configured to generate a management information table.

Referring to fig. 2, in an embodiment, the binding module 1004 is further configured to bind each management tag with each code value in a one-to-one correspondence.

Referring to fig. 2, in an embodiment, the binding module 1004 is further configured to bind each management tag with each pre-execution instruction in a one-to-one correspondence.

In the above-mentioned remote infrared control system 10 based on the WIFI extender, first, the WIFI extender receives a learning signal request of a household appliance with an infrared function through the infrared receiving module 1000, and converts the learning signal request into a pre-execution instruction for storage, when a user uses a mobile device to control the household appliance, the transmitting module 1006 only needs to send a service request instruction to the cloud server, the cloud server forwards the service request instruction to the WIFI extender, the WIFI extender queries the pre-execution instruction matched with the service request instruction, generates an execution action instruction, and sends the execution action instruction to the household appliance to execute a corresponding operation. Therefore, the household appliance can be remotely controlled in real time by the mode, and the energy consumption of the household appliance is greatly reduced.

A storage medium, where a plurality of medium instructions are stored, where the instructions are suitable for being loaded by a processor to perform the steps in any one of the WIFI extender-based remote infrared control methods provided by the embodiments of the present invention.

It can be understood, in order to make the user more intelligent at control household electrical appliances, control is more simple and convenient, for example, this application still includes speech recognition module 1006, speech recognition module 1006 is connected with infrared receiving module 1000 electricity, and simultaneously, a plurality of voice command have been prestored in speech recognition module 1006, and each voice command binds each other with each coded value and management label, through setting up speech recognition module 1006, APP sends voice execution instruction to cloud ware on the user's accessible cell-phone, by cloud ware with voice execution instruction forward to the inside speech recognition module 1006 of WIFI extender, in order to realize the remote control of pronunciation to household electrical appliances. Thus, the voice recognition module 1006 is arranged on the WIFI expander, so that the control mode can be diversified, and the mode of remotely controlling the household appliance is simpler, more convenient and faster.

Referring to fig. 2, in another embodiment, in order to ensure that the infrared device such as a home appliance can completely execute an action when receiving the code value sent by the WIFI extender; for example, the mobile phone remote control system further comprises an information feedback module 1007, the information feedback module 1007 is connected with the infrared receiving module 1000, when the transmitting module 1006 of the WIFI extender sends a coding value to the home appliance, the home appliance can generate a feedback instruction after executing an action, and sends the feedback instruction to the instruction receiving module 1002 through the built-in infrared transmitting module of the home appliance, the instruction receiving module 1002 sends the feedback instruction to the information feedback module 1007 to be received, the feedback instruction is converted into a text message form and is forwarded to the cloud server, and the cloud server forwards the text message to the mobile phone APP to prompt a user that the remote control operation is successful. In this way, by setting the information feedback module 1007, the user can timely obtain information about whether the remote control operation is successful, where the feedback instruction includes an execution success instruction and a plurality of execution failure instructions.

Referring to fig. 2, in another embodiment, when an infrared device such as a home appliance cannot be started or completely damaged due to a fault, the infrared device cannot be known by a user in time. For example, the application further includes a fault processing module 1008, the fault processing module 1008 is connected to the information feedback module 1007, and a plurality of error repair instructions are prestored in the fault processing module 1008, when the information feedback module 1007 receives an execution failure instruction, the fault processing module 1008 searches and matches the currently received execution failure instruction, if the matching is successful, a corresponding error repair instruction is sent to infrared devices such as home appliances, if the matching is failed, a forced shutdown instruction is generated and sent to the infrared devices such as home appliances, so as to forcibly shut down the infrared devices such as home appliances, and meanwhile, the information feedback module 1007 sends the execution failure instruction to a cloud server, and the cloud server forwards the execution failure instruction to a mobile phone APP to inform a user. Thus, by arranging the fault processing module 1008, a user can know whether the household appliance has a fault in time and carry out maintenance or replacement and other work in time, so that influence on normal life is avoided; meanwhile, by arranging the fault processing module 1008, simple errors of the household appliance can be effectively solved, and the unsolved errors are forcibly shut down so as to reduce energy loss of the household appliance.

Referring to fig. 2, in another embodiment, when the WIFI extender generates a coding value to the infrared device such as a home appliance, the number of the coding values is large, but when the network is suddenly interrupted, the coding value may not be completely transmitted, so that the infrared device such as the home appliance cannot completely receive the complete coding value. For example, the application further includes a data backup module 1009, the data backup module 1009 is connected to the information feedback module 1007, when an infrared device such as a home appliance fails to execute an action corresponding to a code value, the home appliance generates an execution failure instruction and sends the execution failure instruction to the information feedback module 1007 through the infrared transmitting module 100, the information feedback module 1007 sends the execution failure instruction to the cloud server and the data backup module 1009 respectively, the data backup module 1009 binds the sent code value into a data packet and sends the data packet to the infrared device such as a home appliance again, if the infrared device such as a home appliance still fails to execute the action smoothly, the data backup module 1009 communicates with the fault feedback module 800, and the fault feedback module 800 generates a forced shutdown instruction and sends the forced shutdown instruction to the infrared device such as a home appliance through the transmitting module 1006. Thus, by setting the data backup module 1009, it can be ensured that the backup retention function is performed under the condition of data loss, and meanwhile, the coding value can be sent again, so as to ensure that the infrared devices such as the household electrical appliance are started in time.

Compared with the prior art, the invention has the following advantages:

according to the remote infrared control method, the system and the storage medium based on the WIFI expander, firstly, the WIFI expander receives a learning signal request of a household appliance with an infrared function, converts the learning signal request into a pre-execution instruction to be stored, when a user uses a mobile device to control the household appliance, the user only needs to send a service request instruction to a cloud server, the service request instruction is forwarded to the WIFI expander by the cloud server, the pre-execution instruction matched with the service request instruction is inquired by the WIFI expander to generate an execution action instruction, and the execution action instruction is sent to the household appliance to execute corresponding operation. Therefore, the household appliance can be remotely controlled in real time by the mode, and the energy consumption of the household appliance is greatly reduced.

The above embodiments only express several embodiments of the present invention, and the description thereof is more specific and detailed, but not construed as limiting the scope of the present invention. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the inventive concept, which falls within the scope of the present invention. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims (10)

1. The remote infrared control method based on the WIFI expander is characterized by comprising the following steps of:

receiving a plurality of learning signal requests sent by the infrared emission module;

generating a plurality of pre-execution instructions corresponding to the learning signal requests one to one according to the learning signal requests, and storing the pre-execution instructions;

establishing a plurality of coding values, and binding each coding value with each pre-execution instruction in a one-to-one correspondence manner to generate an infrared coding table;

receiving a plurality of service request instructions from a cloud server;

according to the infrared coding table, matching each service request instruction with each pre-execution instruction in a one-to-one correspondence manner;

and transmitting each coded value corresponding to each pre-execution instruction.

2. The WIFI extender-based remote infrared control method according to claim 1, further comprising, before the step of receiving a plurality of service request instructions from the cloud server, the steps of:

and accessing an Internet network, connecting with the cloud server, and broadcasting the hot spot.

3. The WIFI extender-based remote infrared control method according to claim 1, wherein in the step, according to each learning signal request, a plurality of pre-execution instructions corresponding to each learning signal request one to one are generated, and each pre-execution instruction is stored, specifically including:

establishing a plurality of management labels aiming at the pre-execution instructions, and respectively binding the management labels with the coding values in a one-to-one correspondence manner;

and binding the management labels with the pre-execution instructions in a one-to-one correspondence manner to generate a management information table.

4. The WIFI extender-based remote infrared control method according to claim 3, wherein after the step of binding each management tag with each code value in a one-to-one correspondence, the method further comprises the following steps:

and sending the management information table.

5. The utility model provides a long-range infrared control system based on WIFI expander which characterized in that includes:

the infrared receiving module is used for receiving a plurality of learning signal requests sent by the built-in infrared transmitting module of the household appliance;

an instruction receiving module for receiving a plurality of service request instructions from a cloud server;

the storage module is used for storing each pre-execution instruction;

the binding module is used for establishing a plurality of code values, and binding each code value with each pre-execution instruction in a one-to-one correspondence manner to generate an infrared code table;

the generating module is used for generating a plurality of pre-execution instructions which are in one-to-one correspondence with the learning signal requests according to the learning signal requests, and is also used for matching the service request instructions with the pre-execution instructions in one-to-one correspondence respectively according to the infrared coding table;

and the transmitting module is used for transmitting each coded value corresponding to each pre-execution instruction.

6. The WIFI extender-based remote infrared control system according to claim 5, further comprising a network connection module, wherein the network connection module is used for accessing an Internet network, connecting with the cloud server and broadcasting a hotspot.

7. A WIFI extender-based remote infrared control system as claimed in claim 5, wherein said generation module is further configured to create a plurality of management tags for each learning signal request, and said generation module is further configured to generate a management information table.

8. The WIFI extender-based remote infrared control system of claim 5, wherein the binding module is further configured to bind each management tag with each code value in a one-to-one correspondence.

9. The WIFI extender-based remote infrared control system of claim 5, wherein the binding module is further configured to bind each of the management tags to each of the pre-execution instructions in a one-to-one correspondence.

10. A storage medium storing a plurality of medium instructions, wherein the instructions are suitable for being loaded by a processor to execute the steps of the WIFI extender-based remote infrared control method according to any one of claims 1 to 4.

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