CN118282795A - Method, system and router for realizing remote control of intelligent household appliances - Google Patents

Abstract

The application provides a method, a system and a router for realizing remote control of intelligent household appliances, wherein an intelligent terminal sends an operation instruction and performs communication judgment; when the intelligent terminal is connected with the Internet, the intelligent terminal is in a communication state, the intelligent terminal recognizes and analyzes the operation instruction, generates identification information of floor information corresponding to the operation instruction, sends the identification information to a router through the intelligent terminal in the cloud, starts communication with a signal expander of a corresponding floor in the identification information through the router, and sends the operation instruction to a corresponding intelligent household appliance; and if the intelligent household appliance is in a local state when the Internet is disconnected, the operation instruction is directly sent to the intelligent household appliance by storing the record information. Through the implementation, the remote control of the intelligent household appliance can be stably realized no matter the condition of connecting and disconnecting the Internet.

Description

Method, system and router for realizing remote control of intelligent household appliances

Technical Field

The application relates to the technical field of networks, in particular to a method, a system and a router for realizing remote control of intelligent household appliances.

Background

Remote control of intelligent appliances has become a mainstream trend in the field of intelligent home. Through the development of internet technology, a user can utilize a smart phone, a tablet computer or other intelligent terminal equipment to remotely control various intelligent equipment in home anytime and anywhere. This current situation benefits from home appliance manufacturers using various communication protocols, such as Wi-Fi, bluetooth, Z i gbee, etc., to enable devices to connect to cloud services for remote monitoring and control.

However, in a multi-floor environment where the intelligent home appliances are respectively located in a multi-floor environment, the remote intelligent home appliance remote control system depends on the router control, and may cause signal interruption due to the fact that signal transmission is blocked by floors, so that remote control cannot be achieved. Therefore, there is a need for a method, a system and a router for implementing remote control of intelligent home appliances, which can stably implement remote control of multiple floors regardless of the internet connection state.

Disclosure of Invention

In view of the foregoing, it is necessary to provide a router-based remote control method for intelligent home appliances that can stably realize remote control of multiple floors regardless of the internet connection state, so as to solve the above-mentioned problems.

The embodiment of the application provides a method, a system and a router for realizing remote control of intelligent household appliances, wherein an intelligent terminal sends an operation instruction and performs communication judgment; when the intelligent terminal is connected with the Internet, the intelligent terminal is in a communication state, the intelligent terminal recognizes and analyzes the operation instruction, generates identification information of floor information corresponding to the operation instruction, sends the identification information to a router through the intelligent terminal in the cloud, starts communication with a signal expander of a corresponding floor in the identification information through the router, and sends the operation instruction to a corresponding intelligent household appliance; and if the intelligent household appliance is in a local state when the Internet is disconnected, the operation instruction is directly sent to the intelligent household appliance by storing the record information.

In at least one embodiment of the present application, the communication state after the communication determination is a communication state generated by a WiFi module, where the WiFi module communicates with the router; the local module is connected with the intelligent terminal through the local module to generate a local state.

In at least one embodiment of the present application, the communication judgment is performed by a judgment unit respectively connected to the WiFi module and the local module, so as to judge whether to connect to the internet, where if the internet is connected, the intelligent home appliance remote control system enters a communication state; if the Internet is disconnected, the intelligent household appliance remote control system enters a local state.

In at least one embodiment of the present application, the intelligent terminal sends an operation instruction through an operation module, and the operation module is connected with the binding module to send the operation instruction; and the floor information is bound with the intelligent household appliance corresponding signal expander of each floor through a binding module, and corresponding floor information is generated.

In at least one embodiment of the present application, the intelligent terminal identifies and analyzes the operation instruction, and generates identification information corresponding to the floor information for identifying and receiving the operation instruction through an identification module connected to the binding module and the operation module, respectively.

In at least one embodiment of the present application, the WiFi module is connected to the identification module through a communication module, receives identification information, and communicates with the router through the communication module, where the router performs communication connection with the signal expander of the corresponding floor, and transmits the identification information; the WiFi module is connected with the communication module through the sending module, further transmits the operation instruction, and is connected with the intelligent household appliance through the sending module, and the intelligent household appliance receives the operation instruction.

In at least one embodiment of the present application, the recording information is passed through a recording module connected to the binding module and the operation module, respectively, where an operation instruction sent by the user for multiple times is generated and the floor information corresponding to the operation instruction and the intelligent home appliance are recorded information.

In at least one embodiment of the present application, storing the record information is implemented by connecting a memory module to the record module; the recorded information containing the operation instruction is transmitted to the intelligent household appliance through an execution module respectively connected with the recording module and the intelligent household appliance.

In at least one embodiment of the present application, a smart home remote control system includes: the intelligent terminal establishes communication with intelligent household appliances on different floors through the router; the intelligent terminal sends an operation instruction and identifies the intelligent household appliances corresponding to the floors, and the intelligent terminal communicates with the signal expander corresponding to the floors through the router and sends the operation instruction to the intelligent household appliances corresponding to the floors.

In at least one embodiment of the application, a router is used in any of the methods described above.

According to the method, the system and the router for realizing remote control of the intelligent household appliance, when the intelligent terminal sends a command, the system can judge whether the intelligent terminal is connected with the Internet or disconnected. If the system is connected with the Internet, the system can recognize your command and find the intelligent household appliances of the corresponding floors, then the signal expander communication of the corresponding floors is started through the cloud and the router, and the command is transmitted to the intelligent household appliances of the corresponding floors. If the internet is not connected, the system will find your instruction directly from the record and then send it to the intelligent home appliance on the floor. Therefore, the intelligent household appliances on multiple floors can be conveniently remotely controlled no matter what the network conditions are. The remote control of multiple floors can be stably realized no matter how the internet is connected.

Drawings

FIG. 1 is a schematic flow chart of a remote control method for intelligent household appliances according to the present application;

FIG. 2 is a schematic flow chart of the intelligent terminal sending operation instruction according to the present application;

FIG. 3 is a schematic diagram of a communication judgment process performed by the intelligent terminal according to the present application;

FIG. 4 is a schematic diagram of a remote control system according to the present application;

FIG. 5 is a further schematic diagram of the WiFi module of FIG. 4 according to the present application;

fig. 6 is a further schematic diagram of the local module of fig. 4 according to the present application.

Description of the main reference signs

100. A remote control system; 10. an intelligent terminal; 12. judging communication; 20. a judging unit; 21. a WiFi module; 211. a communication state; 23. an operation module; 231. an operation instruction; 24. a binding module; 241. floor information; 25. an identification module; 251. identification information; 26. a communication module; 261. a communication connection; 27. a transmitting module; 22. a local module; 221. a local state; 222. a recording module; 2221. recording information; 223. a memory module; 224. an execution module; 30. an intelligent household appliance; 40. a signal expander; 50. a router; 60. and (3) cloud end. 200. A remote control method.

Detailed Description

Embodiments of the present application will now be described with reference to the accompanying drawings, in which it is evident that the embodiments described are only some, but not all embodiments of the application.

It is noted that when one component is considered to be "connected" to another component, it may be directly connected to the other component or intervening components may also be present. When an element is referred to as being "disposed" on another element, it can be directly on the other element or intervening elements may also be present. The terms "top," "bottom," "upper," "lower," "left," "right," "front," "rear," and the like are used herein for illustrative purposes only.

The embodiment of the application provides a method for realizing remote control of intelligent household appliances, which is applied to communication among multiple floors, and comprises the following steps:

The intelligent terminal sends an operation instruction and carries out communication judgment;

When the intelligent terminal is connected with the Internet, the intelligent terminal is in a communication state, the intelligent terminal recognizes and analyzes the operation instruction, generates identification information of floor information corresponding to the operation instruction, sends the identification information to a router through the intelligent terminal in the cloud, starts communication with a signal expander of a corresponding floor in the identification information through the router, and sends the operation instruction to a corresponding intelligent household appliance;

And when the Internet is disconnected, the intelligent household appliance is in a local state, and the operation instruction is directly sent to the intelligent household appliance by storing the record information.

According to the method, the system and the router for realizing remote control of the intelligent household appliance, when the intelligent terminal sends a command, the system can judge whether the intelligent terminal is connected with the Internet or disconnected. If the system is connected with the Internet, the system can recognize your command and find the intelligent household appliances of the corresponding floors, then the signal expander communication of the corresponding floors is started through the cloud and the router, and the command is transmitted to the intelligent household appliances of the corresponding floors. If the internet is not connected, the system will find your instruction directly from the record and then send it to the intelligent home appliance on the floor. Therefore, the intelligent household appliances on multiple floors can be conveniently remotely controlled no matter what the network conditions are. The remote control of multiple floors can be stably realized no matter how the internet is connected.

Some embodiments of the application are described in detail below with reference to the accompanying drawings. The following embodiments and features of the embodiments may be combined with each other without conflict.

Referring to fig. 1-6, an embodiment of the present application provides a method 200 for implementing remote control of an intelligent home appliance 30 based on a router 50, applied to communication between multiple floors, the method comprising the steps of:

s1, the intelligent terminal 10 sends an operation instruction 231 and performs communication judgment 12.

S2, when the Internet is connected, the communication state 211 is entered.

And S3, when the Internet is disconnected, entering a local state 221.

In step S1, based on the binding module 24 of the remote control system 100 of the intelligent home appliance 30, the intelligent home appliance 30 and the floor information 241 corresponding to the connection signal expander 40 are bound, when the user sends the operation instruction 231 at the operation module 23, the operation module 23 is connected with the binding module 24 to obtain the floor information 241 corresponding to the operation instruction 231, and the floor information 241 is the corresponding relation between the intelligent home appliance 30 and the floor so as to accurately identify the floor related to the operation instruction 231. Meanwhile, the judging unit 20 monitors information such as connection status with the router 50, IP address assignment, and the like to perform communication judgment 12.

Further, the intelligent home appliance 30 remotely controls the system 100 in a first step by sending an operation command 231 from the intelligent terminal 10, and in the process, making a communication judgment 12. This determination is made by binding module 24 in the system. The binding module 24 is responsible for binding the intelligent home appliance 30 with the floor information 241 of the corresponding connection signal expander 40. When the user sends an operation instruction 231 at the operation module 23, the operation module 23 is connected to the binding module 24, and obtains the corresponding floor information 241 in the operation instruction 231. This floor information 241 is an accurate correspondence between the intelligent home appliance 30 and the floor, and ensures that the system can accurately identify the floor to which the operation command 231 relates.

Still further, once the operation instructions 231 are sent, the system determines whether it is currently connected to the internet. This judgment process is performed by the judgment unit 20 monitoring information such as the connection state of the router 50, IP address assignment, and the like. If the system is connected to the internet, it will enter a communication state 211, which means that the smart home 30 remote control system 100 is ready to communicate with the cloud 60 or other device for remote control.

If the judging unit 20 finds that the system is disconnected from the internet, the system will enter the local state 221. In the local state 221, the system processes the operational instructions 231 through the storage module or local module 22 without relying on an internet connection. This ensures that the user is still able to control the intelligent home appliance 30 over the local network even in case an internet connection is not available.

Specifically, in step S2, the router 50 is normally connected to the internet, the system is determined to be connected, the smart home appliance 30 remote control system is connected to the WiFi module 21, a communication state 211 is generated, and entering the communication state 211 includes establishing a connection with the cloud 60 service, so as to send the operation instruction 231 or receive the remote control instruction.

Further, in step S2, the communication state 211 of the system is critically dependent on whether the router 50 is normally connected to the internet. This determination is made by the determination unit 20 on the information of the connection state, IP address assignment, and the like of the router 50. If it is determined that the router 50 is normally connected to the Internet, the system is deemed to be in a networking state. In this networking state, the smart home 30 remote control system is connected to the WiFi module 21, resulting in a communication state 211.

Still further, the establishment of the communication state 211 means not only that the remote control system of the smart home appliance 30 can establish a connection with the cloud 60 service, but also that the system is in a state ready to receive the operation instruction 231 or transmit the remote control instruction. This connection is made through the WiFi module 21, ensuring that the system is able to communicate stably over the internet.

Further, in this communication state 211, the user can send operation instructions 231 to the system through the smart terminal 10, and the system can transfer these instructions to the corresponding smart home appliances 30. Meanwhile, the system can also receive a remote control instruction from the cloud 60 service, so that the intelligent home appliance 30 can respond to the remote instruction to realize various intelligent functions. The flexible communication state 211 ensures that a user can remotely control intelligent equipment in home at any time and any place through the Internet, and the convenience and practicality of home intelligence are improved.

In summary, the communication state 211 in step S2 is not only a simple networking state, but also a state of stable connection between the remote control system of the intelligent home appliance 30 and the cloud 60 service as well as between the remote control system and the user intelligent terminal 10, so as to provide a more convenient and efficient remote control function for intelligent home experience.

Specifically, step S3 is that the router 50 disconnects the internet, the system is determined to be disconnected, the smart home 30 remote control system is connected to the local module 22, a local state 221 is generated, and the system is switched to operate only within the local network, and the system is not dependent on the internet connection.

The local state 221 of the system is caused by the router 50 disconnecting the internet connection. When the judging unit 20 monitors that the router 50 disconnects the internet, the system is judged to be in a disconnected network state. In this case, the smart home 30 remote control system would connect to the local module 22, creating a local state 221.

The establishment of the local state 221 marks that the system is no longer dependent on an internet connection but is focused on operating within the local network. The design of this switch to local state 221 allows for possible instability or disruption of the internet to ensure that the system operates properly under a variety of network conditions.

In the local state 221, the user can still send an operation instruction 231 to the system through the intelligent terminal 10, and the system is directly connected with the local module 22, so as to realize control over the local intelligent home appliance 30. This way of local operation provides a reliable backup solution when the network is not available, ensuring that the user can still conveniently manage and control the intelligent devices in the home in a disconnected network state.

In general, the local state 221 of step S3 is designed to provide elasticity and robustness for the remote control system of the smart home appliance 30, so that the system can still provide basic local operation functions in case of network disconnection, and the stability and reliability of the smart home system are ensured.

Specifically, if the remote control system of the intelligent home appliance 30 is connected to the WiFi module 21, it is ensured that communication can be performed through WiFi. The operation instruction 231 is transmitted to the Wi F i module 21 in the system through the established Wi F i connection. The identifying module 25 retrieves the floor information 241 generated by the binding module 24, and identifies and analyzes the operation instruction 231 to the corresponding floor information 241, and determines the specific operation related to the instruction and the corresponding floor information 241. And generates corresponding floor information 241 as identification information 251. The identification information 251 includes a floor identification and a flag of the signal expander 40 of the corresponding floor so that the system knows which intelligent appliance 30 of which floor the user wishes to operate.

Once the intelligent terminal 10 sends the operation instructions 231, these instructions are transmitted to the Wi F i module 21 within the system via the established WiFi connection. This design ensures that the user can easily interact with the smart home 30 via the wireless network.

The identification module 25 then plays a key role. It invokes the floor information 241 stored in the binding module 24, which has established an association of the smart home appliance 30 with the corresponding signal extender 40. Through the identification and analysis of the operation instructions 231, the identification module 25 is able to determine the specific operation to which the instructions relate and the corresponding floor information 241. These floor information 241 are further integrated into identification information 251, which includes the floor identification and the identity of the signal expander 40 of the corresponding floor.

In this way, the system can accurately know which smart home device 30 on which floor the user wishes to operate. Through the floor identification in the identification information 251 and the signal expander 40 mark, the system can accurately position and execute the operation instruction 231 of the user, and the accurate remote control of the multi-floor intelligent household appliance 30 is realized. The design not only improves the intelligent level of the system, but also enhances the user experience, so that the operation becomes more visual and convenient.

Specifically, the identification information 251 enters the communication module 26, and the signal expander 40 of the corresponding floor in the identification information 251 is directly communicated with the router 50, and the identification information 251 with the operation instruction 231 is directly transmitted to the signal expander of the corresponding floor through the router 50. This enables the communication module 26 to communicate directly with the signal extender 40 of a particular floor. This is to communicate the identification information 251 and ensure that contact is made with the smart home 30 on that floor.

The identification information 251 enters the communication module 26 after being processed by the identification module 25, which acts as a key bridge. The communication module 26 not only receives the identification information 251, but also directly communicates the signal expander 40 of the corresponding floor contained therein with the router 50. This direct communication mechanism ensures that the identification information 251 can be quickly and accurately transferred to the signal expander 40 of a particular floor, which lays a solid foundation for subsequent remote control.

The router 50 directly transmits the identification information 251 with the operation instruction 231 to the corresponding floor signal expander 40, so that the system realizes efficient instruction transmission, and the signal expander 40 of the specific floor can quickly receive and understand the operation requirement of the user. Such a design ensures the accuracy and timeliness of the operational instructions 231, providing a reliable remote control experience for the user.

The transmission module 27 is connected to the communication module 26 and is responsible for further transferring the operation instructions 231 extracted from the identification information 251. This link ensures that the operation command 231 can be smoothly transmitted to the intelligent home appliance 30 of the corresponding floor, and remote control of the user-specified floor equipment is realized. After receiving the operation instruction 231, the intelligent home appliance 30 can quickly respond to the requirement of the user, and seamless connection of remote control is realized.

The communication flow is efficient and visual, provides a convenient remote control experience for the user, and further improves the intelligent level of the intelligent household appliance 30 system.

If the remote control system of the intelligent home appliance 30 is connected to the local module 22, by calling the recording module 222 in the local module 22, the recording module 222 mainly functions to generate and store the recording information 2221, including the operation command 231 sent by the user for multiple times. Meanwhile, the record information 2221 also includes floor information 241 and the smart home 30, which generate the corresponding operation instruction 231 with the binding module 24.

When the remote control system of the intelligent home appliance 30 is successfully connected with the local module 22, the system realizes a powerful operation history recording function through the calling recording module 222. The core task of the logging module 222 is to generate and store detailed logging information 2221, including the operational instructions 231 that the user sends multiple times. This provides a convenient way for the user to review past operations and understand the usage of the smart home 30.

In the record information 2221, important components are floor information 241 and smart home 30 information related to the binding module 24. By means of the binding module 24, the system is able to generate for each operation instruction 231 a corresponding floor information 241, so that the user can clearly know on which floor each operation takes place. At the same time, information from the smart home device 30 is also included in the record to enable the user to track the usage of a particular device.

The benefit of this functionality is that the user can not only trace his own history of operation, but also learn about the specific actions to be taken on different floors and with different smart appliances 30. This provides users with more insight that helps them better manage and control smart home devices.

Specifically, the memory module 223 is connected to the recording module 222, and stores the recording information 2221. This storage mechanism is a key component of the smart home 30 remote control system to maintain and manage user operation history.

By the presence of the memory module 223, the system can efficiently save the user's multiple operation instructions 231, floor information 241, and detailed records of the smart home 30. The information is stored in the memory, and has the characteristic of quick reading and writing, so that the system can quickly respond to the instruction of the user in a scene with higher real-time requirement, and smoother intelligent home control experience is provided.

Specifically, the user directly transmits the operation instruction 231 to the intelligent home appliance 30 by retrieving the record information 2221 with the operation instruction 231 in the memory module 223 and connecting with the intelligent home appliance 30 through the execution module 224.

Further, the user retrieves the record information 2221 stored in the memory module 223, which includes the operation instruction 231 sent multiple times before, the related floor information 241 and the intelligent home appliance 30 identifier. Through the connection of the memory module 223, the user can conveniently retrieve and acquire the previous operation history.

Subsequently, the user connects to the smart home device 30 through the execution module 224, and directly transmits the retrieved operation instruction 231 to the smart home device 30. This step is implemented so that the user can rapidly control the smart home 30 through a simple operation without re-inputting an instruction. The execution module 224 plays a key role in this process of delivering and executing the operation instructions 231, and achieves a quick response of the intelligent home appliance 30.

The design enhances the user experience and improves the convenience of the system. The user can quickly control the intelligent home appliance 30 through the execution module 224 by calling the record information 2221 in the memory module 223 at any time and any place, so that the personalized requirement can be met more flexibly. The whole process enables the intelligent household appliance 30 remote control system to be more intelligent and convenient, and improves the use experience of users.

In a specific embodiment, the system includes: a smart terminal 10 and a signal extender 40. The intelligent terminal 10, the intelligent terminal 10 establishes communication with the intelligent home appliances 30 of different floors through the router 50; the signal expander 40 is configured on different floors, receives the signal sent by the router 50 in the communication state 211, forms a signal coverage of a corresponding floor, and retransmits the signal, wherein the intelligent terminal 10 sends the operation instruction 231 and identifies the intelligent home appliance 30 of the corresponding floor, and communicates with the signal expander 40 of the corresponding floor through the router 50, and sends the operation instruction 231 to the corresponding intelligent home appliance 30.

First, the smart terminal 10 is an interface between a user and a remote control system of the smart home 30, and establishes communication with the smart home 30 of a different floor through the router 50. The user can send an operation command 231 through the smart terminal 10, which is transferred to the smart home 30 of a specific floor after being processed and recognized inside the system.

Second, the signal expander 40 is located in a different floor, functioning as a signal overlay and transmission. In the communication state 211, the signal expander 40 receives the signal from the router 50 and resends the signal to form a signal coverage of the corresponding floor. This ensures that the system can cover a range of multiple floors so that the intelligent terminal 10 can remotely control the intelligent home appliances 30 of each floor.

The working flow of the whole system is as follows: the user sends an operation command 231 through the intelligent terminal 10, and the system transmits the command to the signal expander 40 of the corresponding floor through the router 50. The signal expander 40 transmits the instruction to the intelligent home appliances 30 on the corresponding floors, so that the remote control of the user on the intelligent home appliances 30 on the multiple floors is realized. Such a design makes the system more flexible and the user can conveniently control the devices on different floors through the intelligent terminal 10.

In a specific embodiment, a router 50 is applied in the method described in the communication state 211.

Thus, the router 50-based remote control method 200 for the intelligent home appliance 30 can determine whether the intelligent terminal 10 is connected to the internet or disconnected when you send a command with the intelligent terminal 10. If the internet is connected, the system will recognize your command and find the intelligent home appliances 30 on the corresponding floor, then turn on the signal expander 40 on the corresponding floor to communicate with the router 50 through the cloud 60, and send the command to them. If the internet is not connected, the system will find your instruction directly from the record and then send it to the intelligent home 30 on the floor. This allows convenient remote control of the multi-floor intelligent appliance 30 regardless of network conditions. The remote control of multiple floors can be stably realized no matter how the internet is connected.

In a specific embodiment, an embodiment of the invention provides a non-volatile computer storage medium storing computer executable instructions that perform the method steps described in the above embodiments.

It should be noted that the computer readable medium described in the present disclosure may be a computer readable signal medium or a computer readable storage medium, or any combination of the two. The computer readable storage medium can be, for example, but is not limited to, an electronic, magnetic, optical, electromagnetic, infrared, or semiconductor system, apparatus, or device, or a combination of any of the foregoing. More specific examples of the computer-readable storage medium may include, but are not limited to: an electrical connection having one or more wires, a portable computer diskette, a hard disk, a Random Access Memory (RAM), a read-only memory (ROM), an erasable programmable read-only memory (EPROM or flash memory), an optical fiber, a portable compact disc read-only memory (CD-ROM), an optical storage device, a magnetic storage device, or any suitable combination of the foregoing. In the context of this disclosure, a computer-readable storage medium may be any tangible medium that can contain, or store a program for use by or in connection with an instruction execution system, apparatus, or device. In the present disclosure, however, the computer-readable signal medium may include a data signal propagated in baseband or as part of a carrier wave, with the computer-readable program code embodied therein. Such a propagated data signal may take any of a variety of forms, including, but not limited to, electro-magnetic, optical, or any suitable combination of the foregoing. A computer readable signal medium may also be any computer readable medium that is not a computer readable storage medium and that can communicate, propagate, or transport a program for use by or in connection with an instruction execution system, apparatus, or device. Program code embodied on a computer readable medium may be transmitted using any appropriate medium, including but not limited to: electrical wires, fiber optic cables, RF (radio frequency), and the like, or any suitable combination of the foregoing.

The computer readable medium may be contained in the electronic device; or may exist alone without being incorporated into the electronic device.

Computer program code for carrying out operations of the present disclosure may be written in one or more programming languages, including an object oriented programming language such as Java, SMA L L TA L K, C++, and conventional procedural programming languages, such as the "C" programming language or similar programming languages. The program code may execute entirely on the user's computer, partly on the user's computer, as a stand-alone software package, partly on the user's computer and partly on a remote computer or entirely on the remote computer or server. In the case of remote computers, the remote computer may be connected to the user's computer through any kind of network, including a local Area Network (AN) or a Wide Area Network (WAN), or may be connected to AN external computer (e.g., connected through the internet using AN internet service provider).

The flowcharts and block diagrams in the figures illustrate the architecture, functionality, and operation of possible implementations of systems, methods and computer program products according to various embodiments of the present disclosure. In this regard, each block in the flowchart or block diagrams may represent a module, segment, or portion of code, which comprises one or more executable instructions for implementing the specified logical function(s). It should also be noted that, in some alternative implementations, the functions noted in the block may occur out of the order noted in the figures. For example, two blocks shown in succession may, in fact, be executed substantially concurrently, or the blocks may sometimes be executed in the reverse order, depending upon the functionality involved. It will also be noted that each block of the block diagrams and/or flowchart illustration, and combinations of blocks in the block diagrams and/or flowchart illustration, can be implemented by special purpose hardware-based systems which perform the specified functions or acts, or combinations of special purpose hardware and computer instructions.

The units involved in the embodiments of the present invention may be implemented in software or in hardware. Wherein the names of the units do not constitute a limitation of the units themselves in some cases.

While the application has been described with respect to the above embodiments, it should be noted that modifications can be made by those skilled in the art without departing from the inventive concept, and these are all within the scope of the application.

Claims (10)

1. The intelligent household appliance remote control method is applied to communication among multiple floors and is characterized by comprising the following steps:

The intelligent terminal sends an operation instruction and carries out communication judgment;

When the intelligent terminal is connected with the Internet, the intelligent terminal is in a communication state, the intelligent terminal recognizes and analyzes the operation instruction, generates identification information of floor information corresponding to the operation instruction, sends the identification information to a router through the intelligent terminal in the cloud, starts communication with a signal expander of a corresponding floor in the identification information through the router, and sends the operation instruction to a corresponding intelligent household appliance;

and when the Internet is disconnected, the intelligent household appliance is in a local state, and the operation instruction is directly sent to the intelligent household appliance by storing the record information.

2. The router-based remote control method for implementing intelligent home appliances according to claim 1, characterized in that the generation of the state of connecting and disconnecting the internet is performed through a WiFi module, the WiFi module communicates with the router, and a communication state is generated; and the local module is connected with the intelligent terminal through the local module to generate a local state.

3. The router-based remote control method for intelligent home appliances according to claim 2, wherein when performing communication judgment, the judgment unit is connected with the WiFi module and the local module respectively to perform communication judgment as to whether to connect to the internet, wherein,

If the intelligent household appliance remote control system is connected with the Internet, the intelligent household appliance remote control system enters a communication state;

if the Internet is disconnected, the intelligent household appliance remote control system enters a local state.

4. The router-based remote control method for realizing intelligent household appliances according to claim 2, wherein the floor information is bound with the intelligent household appliance corresponding signal expander of each floor through a binding module to generate corresponding floor information;

The intelligent terminal sends the operation instruction through an operation module, and the operation module is connected with the binding module to send the operation instruction.

5. The router-based remote control method of intelligent home appliances according to claim 4, wherein the identification information is through an identification module, and the identification module generates identification information for identifying the floor information corresponding to the received operation instruction.

6. The router-based remote control method for intelligent home appliances according to claim 5, wherein the intelligent terminal sends identification information to the router through a communication module, the communication module is connected with the identification module, receives the identification information, is connected with the router through the communication module, and the router performs communication connection with the signal expander of the corresponding floor to transmit the identification information;

The operation instruction is sent to the corresponding intelligent household appliance through the sending module, the sending module is connected with the communication module, the operation instruction is further transferred, the intelligent household appliance is connected with the intelligent household appliance through the sending module, and the intelligent household appliance receives the operation instruction.

7. The router-based remote control method for realizing intelligent household appliances according to claim 1, wherein the generation of the record information is performed by a record module, the record information is respectively connected with the binding module and the operation module, the operation instruction sent by the user for many times is generated, and the floor information corresponding to the operation instruction and the intelligent household appliances are record information.

8. The router-based remote control method for intelligent household appliances according to claim 1, wherein the stored record information is stored by a memory module, and the memory module is connected with the record module;

The operation instruction is directly sent to the intelligent household appliance through an execution module, and the execution module is respectively connected with a recording module and the intelligent household appliance and transmits the recording information containing the operation instruction to the intelligent household appliance.

9. An intelligent home appliance remote control system, the system comprising:

The intelligent terminal establishes communication with intelligent household appliances on different floors through the router;

the intelligent terminal sends an operation instruction and identifies the intelligent household appliances corresponding to the floors, and the intelligent terminal communicates with the signal expander corresponding to the floors through the router and sends the operation instruction to the intelligent household appliances corresponding to the floors.

10. A router for use in a method as claimed in any one of claims 1to 8.