WO2019056608A1 - Rapid network distribution method, smart socket and smart hardware - Google Patents

Abstract

A rapid network distribution method, comprising: monitoring whether there is smart hardware access (S101); and, when monitoring that there is smart hardware access, sharing stored network distribution information with the smart hardware by means of strong power, so that the smart hardware connects to the corresponding network on the basis of the received network distribution information (S102); the network distribution information comprises an SSID and a password. Another rapid network distribution method comprises: receiving a strong power change signal conveyed by a smart socket, the smart power change signal comprising a voltage change signal or a current change signal (S301); parsing the strong power change signal to acquire network distribution information comprising an SSID and a password transmitted by the smart socket (S302); and, on the basis of the network distribution information, accessing the corresponding network (S303). In addition, also provided are a smart socket and smart hardware. Sharing network distribution information by means of strong power implements rapid network distribution for smart hardware, and can implement batch network distribution, enabling simultaneous network distribution for multiple devices.

Description

Fast distribution method, smart socket and intelligent hardware Technical field

The present invention relates to the field of network technologies, and in particular, to a fast network distribution method, a smart socket, and intelligent hardware.

Background technique

At present, smart hardware is used more and more widely, and application scenarios are more and more. Most of the intelligent hardware is networked, but due to cost, application scenarios, etc., generally no input means (such as touch screen, keyboard, etc.) are provided. All need some auxiliary means to connect to Wifi. These auxiliary means generally include Smart link, SoftAp or other means, and these auxiliary means are more or less inconvenient to use and unstable.

In addition, for the above means, although it can help the hardware to connect to the Wifi, it is not convenient and fast. If there are a lot of smart hardware at home, the distribution network takes a lot of time. At the same time, if there are many hardwares of the same brand model at home, then Need one to go to the distribution network.

The existing connection technology does not solve the fast requirement when multiple devices need to be connected to the network. Generally, a distribution network is required, for example, by inputting corresponding SSIDs and passwords on different APPs to perform distribution network; the steps are repeated and cumbersome.

Summary of the invention

The invention provides a fast distribution network method, a smart socket and an intelligent hardware, which solves the technical problem that a plurality of distribution networks and a distribution network are inefficient when multiple devices need to be connected in the prior art.

The invention discloses a fast distribution method, which comprises: monitoring whether there is intelligent hardware access; when monitoring intelligent hardware access, storing the stored distribution network information to the intelligent hardware through strong power, so that the The intelligent hardware is connected to the corresponding network according to the received distribution network information; the distribution network information includes an SSID and a password.

Further, sharing the stored distribution network information to the intelligent hardware by using strong power includes: storing The distribution network information is converted into binary data; the binary data is delivered to the intelligent hardware in a manner of strong electrical variation; the strong electrical variation includes a voltage change or a current change.

Further, before the transmitting the binary data to the smart hardware in a manner of using a strong electric change, the method further comprises: transmitting the boot code to the smart hardware by using a strong electric change.

The invention also discloses a fast distribution method, comprising: receiving a strong electric change signal transmitted by a smart socket, wherein the strong electric change signal comprises a voltage change signal or a current change signal; and parsing the strong electric change signal to obtain the The distribution network information including the SSID and the password transmitted by the smart socket; accessing the corresponding network according to the distribution network information.

Further, the analyzing the strong electric power change signal and acquiring the distribution network information transmitted by the smart socket includes: monitoring the received strong electric power change signal; and when the boot code is detected in the strong electric power change signal, the cache Deriving a strong electric change signal transmitted after the boot code until the boot code is detected again; parsing the cached strong electric change signal into binary data, and acquiring a distribution network including the SSID and the password according to the binary data information.

The invention also discloses a smart socket, comprising: a monitoring unit for monitoring whether there is intelligent hardware access; a storage unit for storing distribution network information, the distribution network information including an SSID and a password; and a sharing unit for In the distribution network mode, when the monitoring unit detects that there is intelligent hardware access, the distribution network information stored by the storage unit is shared by the smart power to the intelligent hardware, so that the intelligent hardware is configured according to the distribution network. Information connection network; the distribution network information includes an SSID and a password.

Further, the sharing unit includes: a binary conversion module, configured to convert the distribution network information into binary data; and a strong electric control module, configured to transmit the binary data to the intelligent hardware by using a strong electric variation The strong electrical change includes a voltage change or a current change.

Further, the high-power control module is further configured to: pass the boot code to the smart hardware by means of a strong electric change before transmitting the binary data to the smart hardware in a manner of using a strong electric change.

Finally, the present invention also discloses an intelligent hardware, comprising: a receiving unit, configured to receive a strong electric change signal transmitted by the smart socket; and the strong electric change signal includes a voltage change signal or a current change signal. a distribution network unit, configured to parse the strong electric power change signal, obtain distribution network information including an SSID and a password, and connect the corresponding network according to the distribution network information; and a voltage stabilization unit, configured to provide the intelligent hardware working place The required voltage is stable.

Further, the distribution network unit includes: a monitoring module, configured to monitor a strong electric power change signal received by the receiving module; and a cache module, configured to: when the monitoring module detects the strong electric power change signal, a boot code appears And buffering the strong electrical change signal transmitted after the boot code until the monitoring module monitors the boot code again; the parsing module is configured to parse the strong electrical change signal buffered by the cache module into binary data, and Obtaining distribution network information including the SSID and the password according to the binary data; the networking module is configured to access the corresponding network according to the distribution network information obtained by the parsing module.

Through the invention, the user only needs to configure the smart plug, and the other intelligent hardware can be inserted into the plug to perform the distribution network, which is convenient and quick. At the same time, batch distribution network can be implemented to realize simultaneous distribution of multiple devices.

DRAWINGS

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings used in the description of the embodiments will be briefly described below. It is obvious that the drawings in the following description are only some embodiments of the present invention, Those skilled in the art can also obtain other drawings based on these drawings without paying for inventive labor.

1 is a flow chart of an embodiment of a fast distribution network method according to the present invention;

2 is a flow chart of another embodiment of a fast distribution network method according to the present invention;

3 is a flow chart of another embodiment of a fast distribution network method according to the present invention;

4 is a flow chart of another embodiment of a fast distribution network method according to the present invention;

Figure 5 is a block diagram of an embodiment of a smart socket of the present invention;

6 is a block diagram of another embodiment of a smart socket of the present invention;

7 is a schematic diagram of a format of an infrared NEC transmission protocol;

Figure 8 is a block diagram of an embodiment of an intelligent hardware of the present invention;

Figure 9 is a block diagram of another embodiment of the intelligent hardware of the present invention;

10 is a schematic diagram of an embodiment of a smart socket for distributing hardware to an intelligent hardware according to the present invention;

11 is a flow chart of the work of the smart socket in the distribution network mode of the smart socket according to the present invention;

12 is a flow chart of the distribution network after the smart hardware of the present invention receives the changed voltage transmitted by the smart socket;

FIG. 13 is a schematic diagram of a coding structure of an infrared NEC transmission protocol.

Detailed ways

The present invention will be further described in detail with reference to the accompanying drawings, in which . All other embodiments obtained by a person of ordinary skill in the art based on the embodiments of the present invention without creative efforts are within the scope of the present invention.

The invention discloses a rapid distribution network method, which is implemented as shown in FIG. 1 and includes:

S101 monitors whether there is intelligent hardware access;

S102, when the smart hardware access is detected, the stored distribution network information is shared by the smart power to the intelligent hardware, so that the intelligent hardware is connected to the corresponding network according to the received distribution network information; The distribution network information includes the SSID and password.

The invention is based on the smart socket sharing the distribution network information to the intelligent hardware by means of strong electric power sharing, and is convenient for intelligent hardware networking. Of course, the smart socket needs to be successfully distributed first, so that the smart socket can store the distribution network information, including the SSID and password of the WIFI. The smart outlet can be equipped with other methods such as Smart link, SoftAp, etc. After the network succeeds, the distribution network information is stored, so that after entering the distribution network mode, the stored distribution network information is transmitted to the intelligent hardware connected to the smart socket through strong power, and the intelligent hardware obtains the distribution network information. After the SSID and password, you can access the corresponding network. In this implementation, a plurality of intelligent hardware connected to the smart socket can be quickly connected to the network through the smart socket. For example, if one plug has multiple jacks, the plug-in can cooperate with multiple intelligent hardware at a time in the distribution network mode. As long as the distribution network is successful, you can unplug the smart hardware and plug in other intelligent hardware to distribute the network, which is convenient and quick. After all the intelligent hardware is successfully deployed, the smart socket can be switched from the distribution mode to the normal working mode and used as a normal socket.

In the above embodiment, the smart socket transmits the stored distribution network information to the intelligent hardware connected to the smart socket through the strong electric sharing mode in the distribution network mode, and the method of sharing the strong electric power refers to the change through the strong electric power. The way to distribute the distribution network information, including strong voltage changes or current changes. Specifically, the method includes: transmitting the distribution network information to the smart hardware accessing the smart socket by using a voltage change manner; or transmitting the distribution network information to the smart network accessing the smart socket by using a current change manner. hardware.

Another embodiment of the present invention, as shown in FIG. 2, provides a solution for transmitting distribution network information by voltage change, and specifically includes:

S201 monitors whether there is intelligent hardware access;

S202 converts the stored distribution network information into binary data when the smart hardware access is detected;

The S203 transmits the binary data to the intelligent hardware in a manner of a strong electric change, so that the intelligent hardware is connected to the corresponding network according to the received distribution network information; the distribution network information includes an SSID and a password; The strong electrical changes include voltage changes or current changes.

In the above embodiment, the smart socket converts the stored distribution network information into binary data, and then transmits the binary data through a voltage change or a current change. For example, in the form of voltage: the high voltage is generally 220V. For example, it can be set to be greater than 200V to represent binary 1 and less than or equal to 200V to represent binary 0, so that different information can be represented by binary in the constant voltage change. Similarly, it is possible to set a current value greater than a preset to indicate 1, less than or equal to a preset current value representing 0, and then transmit binary data by controlling the change in current. For example, a reference current x amp is preset, a current higher than x ampere represents 1, and a current lower than or equal to x ampere represents 0. Of course, the intelligent hardware is required to work normally in the varying current, or the changed current is not Will affect the normal operation of smart hardware. The binary data containing the distribution network information is then transmitted to the intelligent hardware through the current change, so that the intelligent hardware can analyze and network according to the received current change information.

Preferably, before the transmitting the binary data to the intelligent hardware in a manner of using a strong electric change, the method further comprises: transmitting the boot code to the intelligent hardware by using a strong electric change. Before each binary network distribution information is transmitted, the boot code is transmitted first, so that the intelligent hardware knows that I want to transmit the distribution network information. If the distribution network information needs to be sent repeatedly, the distribution network information that is repeatedly transmitted is also separated by the boot code, and a complete distribution network information is between each two guide codes.

The present invention can be transmitted using an infrared NEC transmission protocol or a manner similar to the infrared NEC transmission protocol. Specifically, for example, it can be set to be greater than 200V for a high level, less than or equal to 200V for a low level, and then by a high level, a low level for a binary 0 or 1, for example, in a transmission distribution network When the information data is set, set the low level 560us + high level 560us to represent the binary "0"; set the low level 560us + the high level 1690us represents the binary "1"; set at the beginning of the transmission distribution network information data A boot code, after receiving the boot code, the receiving end knows that the portion of the distribution network information data is transmitted after the boot code. For example, setting 9ms low level +4.5ms high level is the boot code, that is to say, when the receiving end detects the low level of 9ms and the high level after 4.5ms, it is known that this is to be used for transmission distribution network. The network information data, so the data behind the boot code can be cached until the boot code appears again. By parsing the cached data, network information such as the network name and password can be obtained, and the network can be quickly accessed.

Correspondingly, another fast distribution method disclosed in the present invention, as shown in FIG. 3, includes:

S301 receives a strong electric power change signal transmitted by the smart socket, where the high electric power change signal includes a voltage change signal or a current change signal;

S302 parses the strong electric power change signal, and acquires distribution network information including the SSID and the password transmitted by the smart socket;

S303 accesses the corresponding network according to the distribution network information.

In this embodiment, the fast distribution method is described from the intelligent hardware end. After receiving the strong electric power change signal transmitted by the smart socket, the strong electric power change signal is parsed, thereby obtaining the SSID and password in the distribution network information, so as to facilitate access. The internet.

Preferably, another embodiment of the present invention, as shown in FIG. 4, includes:

S401 receives a strong electric power change signal transmitted by the smart socket, where the high electric power change signal includes a voltage change signal or a current change signal;

S402 monitors the received strong electric power change signal;

S403, when the boot code is detected in the strong electrical change signal, buffering the strong electrical change signal transmitted after the boot code until the boot code is detected again;

S404 parses the cached strong electric change signal into binary data, and obtains distribution network information including the SSID and the password according to the binary data.

S405 accesses the corresponding network according to the distribution network information.

In this embodiment, on the basis of the foregoing embodiment, the voltage change signal is monitored while receiving the voltage change signal, and when a preset boot code is found, the data is buffered until the preset boot code appears again. The data between the two boot codes is the distribution network information data. Therefore, it is only necessary to parse the data of the cache to obtain the SSID and the password, thereby accessing the corresponding network. During parsing, the buffered voltage change signal is first converted into corresponding binary data according to the agreed transmission protocol, and then the binary data is converted into corresponding distribution network information, thereby obtaining the network name and password.

In another embodiment of the present invention, a smart socket (such as a plug-in) transmits distribution network information to intelligent hardware through a strong electrical method. When the smart plug-in distribution network succeeds, it internally has information to save Wifi, including the Wifi SSID and password. With these two information, you can connect to the Wifi; the better way is by putting the smart hardware ( Including the intelligent plug-in) plugged into the successful plug-in of the distribution network, let the plug-in pass the VDD SSID and password to the intelligent hardware through the strong voltage change, so that there are several jacks in the socket, once It can help several intelligent hardware networking, as long as the distribution network is successful, you can unplug the smart hardware and insert other intelligent hardware, which is convenient and quick.

Based on the same technical concept, the present invention also discloses a smart socket, which can be used for the distribution of the intelligent hardware by the fast distribution method of the present invention. Specifically, the implementation is as shown in FIG. 5, including: monitoring: The unit 110 is configured to monitor whether there is intelligent hardware access, the storage unit 130 is configured to store distribution network information, the distribution network information includes an SSID and a password, and the sharing unit 120 is configured to perform monitoring in the distribution network mode. When the unit 110 detects that there is an intelligent hardware access, the distribution network information stored by the storage unit 130 is shared by the smart power to the intelligent hardware, so that the intelligent hardware can connect to the network according to the distribution network information; The information includes the SSID and password.

Socket, a seat that has one or more circuit connections that can be plugged into, allowing it to be plugged into various wiring. Easy to connect with other circuits, including fixed sockets (such as home wall sockets), mobile sockets (such as plugs). The smart socket in the above embodiment has two modes, and in the normal working mode, like the ordinary socket, the power supply interface can be provided for the household appliance. In the distribution network mode, the distribution network information can be provided for the accessed intelligent hardware, which facilitates the access of the intelligent hardware to the network.

The smart socket in this embodiment needs to be successfully deployed by the network before distributing the network to other intelligent hardware, so that the smart socket stores the SSID and password information of the wifi. As for the distribution mode of the smart socket, the existing distribution network method can be used for the distribution network. The invention is based on the method that the smart socket obtains the distribution network information such as the network name and the password, and then distributes the network to each intelligent hardware. The smart socket of the embodiment transmits the distribution network information by means of strong power sharing, so that the intelligent hardware inserted into the smart socket can acquire the transmitted distribution network information and perform networking.

In another embodiment of the smart socket of the present invention, as shown in FIG. 6, on the basis of the smart socket embodiment, the sharing unit 120 includes: a binary conversion module 121, configured to convert the distribution network information into binary data. The high-power control module 122 is configured to transmit the binary data to the intelligent hardware in a manner of strong electrical variation; the strong electrical change includes a voltage change or a current change.

The shared unit of the smart socket of this embodiment comprises two parts, one is a binary conversion module for converting the distribution network information into corresponding binary data for representation, and the other is a strong electric control module for converting the binary conversion module The binary data is passed through varying voltages or varying currents. Take the voltage change mode transmission as an example: For example, if the transmitted binary data is 11001010, then the control voltage change is: high level (1) - high level (1) - low level (0) - low level (0) - High level (1) - Low level (0) - High level (1) - Low level (0). Among them, it can be preset that the voltage higher than 180V is high level (such as 200V), and the voltage lower than or equal to 180V is low level (such as 180V). In this way, the distribution network information can be continuously transmitted repeatedly.

Preferably, the smart socket transmits the boot code to the smart by means of a strong electric change (voltage change or current change) before the binary data is transmitted to the accessed smart hardware by means of voltage change or current change. hardware. For the convenience of intelligent hardware analysis, you can set the information of each transmission distribution network once, and pass the high level of 220V of 3S as the transmission interval. The high level of this 3S 220V It can be regarded as a boot code. After receiving the 220V high level (boot code) of the 3S, the receiving end knows that the transmission network information data is transmitted later, until the next 3S 220V high level (boot code) is transmitted.

Preferably, the high-power control module uses an infrared NEC transmission protocol to convert binary data including distribution network information into a strong electrical change signal for transmission to the accessed intelligent hardware. A typical NEC transport protocol format is shown in Figure 7. Figure 7 shows a typical NEC protocol transmission format. The start bit (which can also be regarded as a boot code) is 9ms low + 4.5ms high. The valid data is address + address inverse code + command + command inverse code. The purpose of the inverse is to calibrate the previous address and command. If you are not interested in reliability, you can also remove the inverted data or extend the address and command to 16 bits.

Based on the same technical concept, corresponding to the smart socket of the present invention, the present invention also discloses an intelligent hardware, which is implemented as shown in FIG. 8, and includes: a receiving unit 210, configured to receive a strong electric power change signal transmitted by the smart socket. The strong electric power change signal includes a voltage change signal or a current change signal; the distribution network unit 220 is configured to parse the strong electric power change signal, obtain distribution network information including an SSID and a password, and connect corresponding according to the distribution network information. a network; a voltage stabilizing unit 230 for providing a stable voltage required for the intelligent hardware to operate.

Intelligent hardware is a technological concept after the smart phone. It combines the hardware and software to transform the traditional device, so that it has intelligent functions. After the intelligentization, the hardware has the ability to connect, realize the loading of Internet services, form a typical structure of “cloud+end”, and has added value such as big data. Smart hardware has expanded from wearable devices to smart TVs, smart homes, smart cars, healthcare, smart toys, robotics and more. Common products include smart home, smart wear, smart office and so on.

The intelligent hardware of this embodiment can be inserted into the smart socket of the present invention, and the fast distribution network can be performed by adopting the fast distribution network method of the present invention. Since the present invention transmits the distribution network information (i.e., the distribution network information including the SSID and the password) by the strong power, the intelligent hardware of the present invention needs to operate in a variable strong electric environment, so the intelligent hardware of the present invention requires a voltage regulator. The unit 230 is configured to ensure a stable voltage required for the intelligent hardware to work normally.

Another embodiment of the intelligent hardware of the present invention, as shown in FIG. 9, is based on the above intelligent hardware embodiment. The distribution unit 220 includes: a monitoring module 221, configured to monitor a strong electrical change signal received by the receiving module; and a buffering module 222, configured to: when the monitoring module 221 detects the strong electrical change signal, When the boot code occurs, the strong electrical change signal transmitted after the boot code is buffered until the monitoring module 221 detects the boot code again; the parsing module 223 is configured to buffer the strong electrical change signal of the cache module 222. The network data is parsed into the binary data, and the network information including the SSID and the password is obtained according to the binary data. The networking module 224 is configured to access the corresponding network according to the distribution network information obtained by the parsing module 223. The boot code in this embodiment is equivalent to the prompt code that is transmitted first when transmitting the distribution network information data, and informs everyone that data transmission is to be performed later.

Another embodiment of the present invention, the schematic diagram shown in Figure 10, includes:

(1) Smart socket (plug)

This device can share the Wifi information with other smart devices inserted into it through strong power. There is a transformer inside, and the transmission mode of the strong electricity is carried out by means of voltage change (the current can also be changed), the strong current is generally 220V, we specify that greater than 200V represents a high level, and less than or equal to 200V represents a low level, so that in the constant voltage change, different information can be represented by binary; the workflow of the intelligent plug-in in this embodiment is shown in FIG. Shown.

At present, the smart strip has a button. Generally, by pressing this button, you can enter the distribution mode of the strip. In order to distinguish it, we define the button to enter the sharing mode three times. In this mode, the smart strip does not stop. Pass Wifi information through the voltage change to the smart hardware

(2) Intelligent hardware

Here, the intelligent hardware distribution mode can be the same as the configuration of WIFI, that is, in this mode, SmartLink, SoftAP and other auxiliary means can be used, and the strong electric voltage change signal transmitted by the plug can be received. Underneath, the intelligent hardware terminal needs the capability of voltage detection and voltage stabilization, and can work normally even when the voltage is constantly changing. The intelligent hardware detects the information header by detecting the electrical signal transmitted by the socket, and then receives the SSID and password of the WIFI. Then connect directly to the network. Specifically, the workflow of the intelligent hardware terminal is as shown in FIG.

(3) Information exchange protocol between intelligent strip and intelligent hardware

Since the socket is a strong electrical device, the change end is at the end of the live line, that is, the transmission is based on a single line, so we need to use the existing single-line transmission protocol or a custom transmission protocol;

Since our transmission is one-way transmission, that is, the plug-in does not need to receive other information transmitted by the smart device inserted on it, it just keeps repeatedly sending its stored WIFI SSID and password, so the transmission protocol we An existing infrared NEC transmission protocol can be employed. A schematic diagram of the coding structure of the infrared NEC transmission protocol is shown in FIG. The NEC data format includes: a boot code, a user code, a user code (or a user code inverse code), a key code and a key code inverse code, and a last stop bit. The stop position mainly serves as an isolation function and is generally not judged. Specifically, it can be specified as follows:

Boot code: 9ms high level + 4.5ms low level.

Bit value "0": 560us high level + 560us low level.

Bit value "1": 560us high level + 1.68ms low level.

Transfer data: SSID=’XXXX’: PWD=’XXXX’

In this way, the intelligent hardware detects the boot code, and after obtaining the boot code, the following is the specific data transmitted, and then if the boot code is detected again, it means that a loop ends, the data reception ends, and the specific WIFI SSID can be parsed. And the password. Of course, the present invention can also adopt other transmission protocols, and only need to agree on the binary 0 and 1 representation.

While the preferred embodiment of the invention has been described, it will be understood that Therefore, the appended claims are intended to be interpreted as including the preferred embodiments and the modifications and

It is apparent that those skilled in the art can make various modifications and variations to the invention without departing from the spirit and scope of the invention. Thus, it is intended that the present invention cover the modifications and modifications of the invention

Claims (10)

1. A fast distribution network method, comprising:

   Monitor for intelligent hardware access;

   When the smart hardware access is detected, the stored distribution network information is shared by the smart power to the intelligent hardware, so that the intelligent hardware is connected to the corresponding network according to the received distribution network information; The network information includes the SSID and password.
2. The method of claim 1 , wherein the sharing of the stored distribution network information to the intelligent hardware is performed by:

   Converting stored distribution network information into binary data;

   The binary data is communicated to the intelligent hardware in a manner that is highly variable; the strong electrical changes include voltage changes or current changes.
3. The method of claim 2, wherein before the transferring the binary data to the intelligent hardware in a manner of using a strong electric change, the method further comprises: transmitting the boot code by using a strong electric change Give the smart hardware.
4. A fast distribution network method, comprising:

   Receiving a strong electric change signal transmitted by the smart socket, where the strong electric change signal includes a voltage change signal or a current change signal;

   Parsing the strong electric power change signal, and acquiring distribution network information including the SSID and the password transmitted by the smart socket;

   And accessing the corresponding network according to the distribution network information.
5. The method of claim 4, wherein the parsing the strong electrical change signal to obtain the distribution network information transmitted by the smart socket comprises:

   Monitoring the received strong electrical change signal;

   When the boot code is detected in the strong electrical change signal, the strong electrical change signal transmitted after the boot code is buffered until the boot code is detected again;

   And parsing the cached strong electric change signal into binary data, and acquiring distribution network information including the SSID and the password according to the binary data.
6. A smart socket, comprising:

   a monitoring unit for monitoring whether there is intelligent hardware access;

   a storage unit, configured to store distribution network information, where the distribution network information includes an SSID and a password;

   a sharing unit, configured to share the distribution network information stored by the storage unit to the intelligent hardware by using a smart power when the monitoring unit detects that there is intelligent hardware access, in the distribution mode, facilitating the intelligent hardware. And connecting to the network according to the distribution network information; the distribution network information includes an SSID and a password.
7. A smart socket according to claim 6, wherein the sharing unit comprises:

   a binary conversion module, configured to convert the distribution network information into binary data;

   A strong electric control module for transmitting the binary data to the intelligent hardware in a manner of a strong electric change; the strong electric change includes a voltage change or a current change.
8. A smart socket according to claim 7, wherein

   The high-power control module is further configured to: pass the boot code to the smart hardware by means of a strong electric change before transmitting the binary data to the smart hardware in a manner of using a strong electric change.
9. An intelligent hardware, comprising:

   And a receiving unit, configured to receive a strong electric change signal transmitted by the smart socket; the strong electric change signal includes a voltage change signal or a current change signal.

   a distribution network unit, configured to parse the strong electric power change signal, obtain distribution network information including an SSID and a password, and connect to the network according to the distribution network information;

   A voltage stabilizing unit for providing a stable voltage required for the intelligent hardware to operate.
10. The intelligent hardware according to claim 9, wherein the distribution network unit comprises:

    a monitoring module, configured to monitor a strong electric power change signal received by the receiving module;

    a cache module, configured to: when the monitoring module detects that a boot code occurs in the strong electrical change signal, buffer a strong electrical change signal transmitted after the boot code, until the monitoring module monitors the boot code again;

    a parsing module, configured to parse the strong electric change signal buffered by the cache module into binary data, and obtain distribution network information including the SSID and the password according to the binary data;

    The networking module is configured to access the corresponding network according to the distribution network information obtained by the parsing module.

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