CN112332997B

CN112332997B - Distribution network method of terminal equipment, terminal equipment and computer readable storage medium

Info

Publication number: CN112332997B
Application number: CN202010371339.8A
Authority: CN
Inventors: 王云华
Original assignee: Shenzhen TCL New Technology Co Ltd
Current assignee: Shenzhen TCL New Technology Co Ltd
Priority date: 2020-04-30
Filing date: 2020-04-30
Publication date: 2023-05-12
Anticipated expiration: 2040-04-30
Also published as: CN112332997A

Abstract

The invention discloses a network distribution method of terminal equipment, which comprises the steps of obtaining equipment parameters of each terminal equipment capable of executing network distribution operation; determining terminal equipment to be distributed in each terminal equipment according to the equipment parameters, and distributing distribution network priority to the terminal equipment to be distributed; and executing network distribution operation on the network terminal equipment to be distributed according to the network distribution priority. In addition, the invention also discloses a terminal device and a computer readable storage medium, the invention automatically executes the network distribution operation of the terminal device to be distributed, compared with the traditional mode of distributing the network one by a user, the network distribution speed of the terminal device is greatly improved, the user can not wait for the lengthy network distribution process of the terminal device any more, based on the automatic execution of the network distribution operation, the user is not required to repeatedly execute the network distribution operation one by one, the situation of error caused by repeatedly executing the network distribution operation by the user is avoided, and the network distribution efficiency of the terminal device is improved.

Description

Distribution network method of terminal equipment, terminal equipment and computer readable storage medium

Technical Field

The invention belongs to the technical field of intelligent equipment, and particularly relates to a network distribution method of terminal equipment, the terminal equipment and a computer readable storage medium.

Background

At present, intelligent home is developed well, and the Internet of things is rapidly developed so that the life of people has entered the era of all-in-one. With the increasing abundance of intelligent terminal equipment in the market, the distribution network connection of each terminal equipment enables families of users to be more full of technological senses.

However, there are a lot of intelligent terminal devices in the existing user home, and the user is required to configure the intelligent terminal devices to the internet connection system of the corresponding product provider one by one, that is, assuming that the network allocation time of each device is m minutes, the network allocation process of n terminal devices takes m×n minutes. Therefore, the user is required to wait for longer equipment network distribution time, and the network distribution is easy to be in error based on manual repeated operation of the user, so that the network distribution efficiency of the whole equipment is quite low.

The foregoing is provided merely for the purpose of facilitating understanding of the technical solutions of the present invention and is not intended to represent an admission that the foregoing is prior art.

Disclosure of Invention

The invention mainly aims to provide a network distribution method of terminal equipment, which aims to solve the technical problems that the prior intelligent terminal equipment needs a long waiting time for network distribution operation by a user, and errors occur when the user operates the network distribution easily to cause low overall network distribution efficiency.

In order to achieve the above object, the present invention provides a network distribution method for a terminal device, the network distribution method for a terminal device includes the following steps:

acquiring equipment parameters of each terminal equipment capable of executing network allocation operation;

determining terminal equipment to be distributed in each terminal equipment according to the equipment parameters, and distributing distribution network priority to the terminal equipment to be distributed;

and executing network distribution operation on the network terminal equipment to be distributed according to the network distribution priority.

Optionally, the step of performing the network allocation operation on the network to be allocated terminal device according to the network allocation priority includes:

sequentially acquiring terminal equipment to be distributed with the same distribution network priority according to the order of the distribution network priority from high to low;

and executing the network distribution operation in batches on the network to be distributed terminal equipment with the same network distribution priority.

Optionally, the device parameters include a manufacturer of the terminal device,

the step of distributing the distribution network priority to the terminal equipment to be distributed comprises the following steps:

detecting the number of the equipment of the network terminal equipment to be distributed, wherein the equipment number of the network terminal equipment to be distributed is the same as that of manufacturers;

and correspondingly distributing the network distribution priorities from high to low to the network terminal equipment to be distributed according to the sequence of the equipment quantity from high to low.

Optionally, the step of allocating network priorities from high to low to the network terminal equipment to be allocated sequentially according to the order of the number of the devices from high to low includes:

sequentially detecting the connection signal intensity of each to-be-distributed network terminal equipment which is the same as the manufacturer according to the sequence of the equipment quantity from large to small;

and in the terminal equipment of the network to be distributed of the same manufacturer, correspondingly distributing network distribution priorities from high to low to the terminal equipment of the network to be distributed according to the sequence from strong to weak of the connection signal intensity.

Optionally, the device parameters further comprise a connection signal strength of the terminal device,

the step of distributing the distribution network priority to the terminal equipment to be distributed further comprises:

detecting the connection signal intensity of the network terminal equipment to be distributed;

and correspondingly distributing network distribution priorities from high to low to the network terminal equipment to be distributed according to the sequence from strong to weak of the connection signal intensity.

Optionally, the step of allocating network priorities from high to low to the network terminal equipment to be allocated sequentially according to the order of the connection signal strength from high to low includes:

Sequentially detecting the equipment number of the network terminal equipment to be distributed, which is the same in the manufacturer, in each network terminal equipment to be distributed with the same connection signal strength according to the sequence from strong to weak of the connection signal strength;

and in the terminal equipment of the network to be distributed with the same connection signal strength, correspondingly distributing network distribution priorities from high to low to the terminal equipment of the network to be distributed according to the sequence of the equipment quantity from high to low.

Optionally, the device parameters further include a distribution network status of the terminal device,

the step of determining the terminal equipment to be distributed in the terminal equipment according to the equipment parameters comprises the following steps:

detecting the distribution network state of each terminal device;

and determining the terminal equipment to be distributed in the terminal equipment according to the distribution network state.

Optionally, after the step of performing the network allocation operation on the network to be allocated terminal device according to the network allocation priority, the method further includes:

and updating the equipment parameters to obtain new equipment parameters of each terminal equipment, and outputting the new equipment parameters.

Optionally, the device parameter further comprises a device name of the terminal device,

the step of updating the device parameters to obtain new device parameters of each terminal device and outputting the new device parameters comprises the following steps:

Detecting the equipment name of the terminal equipment to be distributed after the network distribution operation is executed;

updating the distribution network state associated with the equipment name in the equipment parameters to obtain new equipment parameters of each terminal equipment;

packaging the new equipment parameters to preset prompt information;

and sending the preset prompt information to a preset display terminal so that the preset display terminal can output the preset prompt information.

Optionally, after the step of encapsulating the new device parameter to a preset hint information, the method further includes:

and sending the preset prompt information to the network to be distributed terminal equipment after the network distribution operation is executed, and controlling the network to be distributed terminal equipment after the network distribution operation is executed to output the preset prompt information.

In addition, to achieve the above object, the present invention also provides a terminal device including: the network distribution method comprises the steps of a memory, a processor and a network distribution program of the terminal equipment, wherein the network distribution program of the terminal equipment is stored in the memory and can run on the processor, and the network distribution program of the terminal equipment is executed by the processor to realize the network distribution method of the terminal equipment.

In addition, to achieve the above object, the present invention further provides a computer readable storage medium, wherein the computer readable storage medium stores a network distribution program of a terminal device, and the network distribution program of the terminal device, when executed by a processor, implements the steps of the network distribution method of the terminal device as described above.

The embodiment of the invention provides a network distribution method of terminal equipment, the terminal equipment and a computer readable storage medium, wherein equipment parameters of each terminal equipment capable of executing network distribution operation are obtained; determining terminal equipment to be distributed in each terminal equipment according to the equipment parameters, and distributing distribution network priority to the terminal equipment to be distributed; and executing network distribution operation on the network terminal equipment to be distributed according to the network distribution priority.

The invention obtains the equipment parameters of all the terminal equipment capable of executing the network distribution operation, then determines the network distribution terminal equipment to be distributed which does not execute the network distribution from all the terminal equipment according to the equipment parameters of the terminal equipment, distributes the network distribution priority for executing the network distribution for the network distribution terminal equipment to be distributed, and finally automatically executes the network distribution operation for the network distribution terminal equipment according to the order of the network distribution priority.

The invention realizes that the network distribution operation is automatically executed on the network terminal equipment to be distributed according to the priority of the network terminal equipment to be distributed, compared with the traditional mode of distributing the network by the user operating one by one, the network distribution speed of the terminal equipment is greatly improved, the user can not wait for the lengthy network distribution process of the terminal equipment any more, the network distribution operation is automatically executed, the user is not required to repeatedly execute the network distribution operation one by one, the situation that the user repeatedly executes the network distribution operation is avoided, and the network distribution efficiency of the terminal equipment is improved.

Drawings

FIG. 1 is a schematic diagram of a terminal device in a hardware operating environment according to an embodiment of the present invention;

fig. 2 is a schematic flow chart of a first embodiment of a network allocation method of the terminal device of the present invention;

fig. 3 is a schematic diagram of a refinement flow of step S30 in the first embodiment of the network allocation method of the terminal device of the present invention;

fig. 4 is a flow chart of another embodiment of a network allocation method of the terminal device according to the present invention;

fig. 5 is a schematic block diagram of a routing system according to an embodiment of a network allocation method of a terminal device of the present invention.

The achievement of the objects, functional features and advantages of the present invention will be further described with reference to the accompanying drawings, in conjunction with the embodiments.

Detailed Description

It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the invention.

The main solutions of the embodiments of the present invention are: acquiring equipment parameters of each terminal equipment capable of executing network allocation operation; determining terminal equipment to be distributed in each terminal equipment according to the equipment parameters, and distributing distribution network priority to the terminal equipment to be distributed; and executing network distribution operation on the network terminal equipment to be distributed according to the network distribution priority.

Since there are a lot of intelligent terminal devices in the existing user home, and the user is required to configure the intelligent terminal devices to the internet connection system of the corresponding product provider one by one, that is, assuming that the network configuration time of each device is m minutes, the network configuration process of n terminal devices needs to take m×n minutes. Therefore, the user is required to wait for longer equipment network distribution time, and the network distribution is easy to be in error based on manual repeated operation of the user, so that the network distribution efficiency of the whole equipment is quite low.

The invention provides a solution to solve the technical problems that the prior intelligent terminal equipment needs a user to wait for a long time for network distribution operation, and errors occur when the user operates the network distribution, so that the overall network distribution efficiency is low; the network distribution method and the network distribution system realize that the network distribution operation is automatically executed on the network distribution terminal equipment to be distributed according to the priority of the network distribution terminal equipment to be distributed, compared with the traditional network distribution mode of operating the network distribution terminal equipment one by a user, the network distribution speed of the terminal equipment is greatly improved, the user can not wait for the long network distribution process of the terminal equipment any more, the network distribution operation is automatically executed, the user does not need to repeatedly execute the network distribution operation process one by one, the situation that the user repeatedly executes the network distribution operation is avoided, and the network distribution efficiency of the terminal equipment is improved.

As shown in fig. 1, fig. 1 is a schematic diagram of a terminal device structure of a hardware running environment according to an embodiment of the present invention.

The terminal device of the embodiment of the invention can also be display terminal devices with display functions, such as a PC, a smart phone, a tablet personal computer, an electronic book reader, an MP3 (Moving Picture Experts Group Audio Layer III, dynamic image expert compression standard audio layer 3) player, an MP4 (Moving Picture Experts Group Audio Layer IV, dynamic image expert compression standard audio layer 3) player, a portable computer and the like.

As shown in fig. 1, the terminal device may include: a processor 1001, such as a CPU, a network interface 1004, a user interface 1003, a memory 1005, a communication bus 1002. Wherein the communication bus 1002 is used to enable connected communication between these components. The user interface 1003 may include an input unit such as a Keyboard (Keyboard), and the optional user interface 1003 may also include a standard wired interface, a wireless interface. The network interface 1004 may optionally include a standard wired interface, a wireless interface (e.g., WI-FI interface). The memory 1005 may be a high-speed RAM memory or a stable memory (non-volatile memory), such as a disk memory. The memory 1005 may also optionally be a storage device separate from the processor 1001 described above.

It will be appreciated by those skilled in the art that the terminal device structure shown in fig. 1 is not limiting of the terminal device and may include more or fewer components than shown, or may combine certain components, or a different arrangement of components.

As shown in fig. 1, an operating system, a network communication module, a user interface module, and a network distribution program of a terminal device may be included in a memory 1005 as a computer storage medium.

In the terminal device shown in fig. 1, the network interface 1004 is mainly used for connecting to a background server, and performing data communication with the background server; the user interface 1003 is mainly used for connecting a client (user side) and performing data communication with the client; and the processor 1001 may be configured to call a network configuration program of the terminal device stored in the memory 1005, and perform the following operations:

Further, the step of performing the network allocation operation on the network to be allocated terminal device according to the network allocation priority includes:

Further, the device parameters include a manufacturer of the terminal device,

Further, the step of allocating network priorities from high to low to the network terminal equipment to be allocated sequentially according to the order of the number of the equipment from high to low includes:

Further, the device parameters also include connection signal strength of the terminal device,

Further, the step of allocating network priorities from high to low to the network terminal equipment to be allocated sequentially according to the order of the connection signal strength from high to low includes:

Further, the device parameters also include the network allocation status of the terminal device,

detecting the distribution network state of each terminal device;

Further, after the step of performing the network allocation operation on the network to be allocated terminal device according to the network allocation priority, the method further includes:

Further, the device parameters also include a device name of the terminal device,

packaging the new equipment parameters to preset prompt information;

Further, after the step of encapsulating the new device parameter to a preset prompting message, the method further includes:

Based on the above hardware structure, the method embodiment of the present invention is presented.

Referring to fig. 2, in a first embodiment of a network allocation method of a terminal device according to the present invention, the network allocation method of the terminal device includes:

Step S10, obtaining equipment parameters of each terminal equipment capable of executing the network distribution operation.

Based on a preset routing system, all terminal devices capable of executing network allocation operation in the environment where the user is located are detected, and device parameters of all the terminal devices are obtained.

It should be noted that, in this embodiment, the preset routing system includes a CPU (central processing unit) processing module, a 1-search pairing device module, a 2-automatic priority network allocation module, and a 3-device access display module as shown in fig. 5, and it should be understood that, based on actual application requirements of different application systems, other routing systems different from those having the same hardware modules as shown in this embodiment may be adopted, and the network allocation method of the terminal device of the present invention is not limited to the specific type of the system used and the specific hardware modules included in the system.

It should be noted that, in this embodiment, the device parameters of each terminal device acquired based on the preset routing system include, but are not limited to: manufacturer, connection signal strength, distribution network status, and device name.

Specifically, for example, a user, by holding a mobile terminal installed with the preset routing system (or capable of interacting with the routing system), detects all terminal devices with an "internet of things" capable of performing network configuration operation in an indoor environment where the user is currently located by using a 1-search pairing device module of the preset routing system, and detects terminal devices such as a "TCL door lock", a "TCL air purifier", a "xiaomi lamp 1" and a "xiaomi lamp 2", and then the mobile terminal continues to control each detected terminal device to send respective newly added key data based on the 1-search pairing device module of the preset routing system, and then each terminal device sequentially sends respective newly added key data to the current mobile terminal, where the current mobile terminal forms the following data languages through parsing and compiling:

Factory Device number Connect (x 1) = {

{ "TCL": "door lock": "K5": off' the water supply: "1" }// TCL door lock, model K5, unassigned network, 1, strong wireless signal }

{ "TCL": "empty clean": "J5": off' the water supply: "0" }// TCL null, J5 model, unassigned, 0, weak radio }

{ "XiaoMi": "love lamp": "I1": "on": off' the water supply: "1" }// TC door lock, model K5, configured network, 1, strong wireless signal }

{ "XiaoMi": "love lamp": "I2": "on": off' the water supply: "0" }// TC door lock, model K5, unassigned network, 0, weak radio }

......

}

And finally, the current mobile terminal identifies and acquires equipment parameters such as manufacturers, connection signal strength, distribution network state, equipment names and the like of all terminal equipment from the data language, and correspondingly stores the parameters.

And step S20, determining the terminal equipment to be distributed in the terminal equipment according to the equipment parameters, and distributing network distribution priority to the terminal equipment to be distributed.

After acquiring equipment parameters of all terminal equipment capable of executing network distribution operation in an environment where a user is located, determining network distribution terminal equipment to be subjected to network distribution operation in all the terminal equipment by detecting network distribution states in the equipment parameters of all the terminal equipment, and then distributing network distribution priority for executing the network distribution operation for the network distribution terminal equipment to be subjected to network distribution according to the equipment number or the connection signal strength of the network distribution terminal equipment to be subjected to network distribution.

Further, as an embodiment, in step S20, the step of determining the terminal device to be configured in each terminal device according to the device parameter includes:

step 201, detecting a distribution network state of each terminal device;

step S202, determining terminal equipment to be distributed in each terminal equipment according to the distribution network state.

It should be noted that, in this embodiment, the distribution network states of each terminal device capable of executing the distribution network operation in the environment where the user is located include: a distributed network and a non-distributed network.

Specifically, for example, a mobile terminal currently installed with a preset routing system detects all terminal devices capable of performing network allocation operation in an environment where a user is located by using a 1-searching paired device module of the preset routing system, and correspondingly obtains equipment parameters such as manufacturers, connection signal strength, network allocation states, equipment names and the like of each terminal device, and then determines network allocation terminal devices to be allocated, which need to perform network allocation operation, such as network allocation operation or network allocation disconnection, from all the terminal devices based on detecting the network allocation states of each terminal device one by one.

Further, in another embodiment, the current mobile terminal may further determine a network to be configured terminal device that needs to perform a network configuration operation among the terminal devices by identifying a data language formed by parsing and compiling the new key data sent by each terminal, where the current mobile terminal identifies, by identifying the stored data language, that the network configuration state is "unassigned" as follows,

Therefore, the terminal equipment 'TCL door lock', 'TCL air purifier' and 'xiaomi lamp 2' corresponding to the three data languages are determined to be the network to be distributed terminal equipment which needs to execute the network distribution operation subsequently.

And step S30, performing network distribution operation on the terminal equipment to be network distributed according to the network distribution priority.

After distributing the distribution network priority for executing the distribution network operation to the determined terminal equipment to be distributed, automatically executing the distribution network operation in batches on all the terminal equipment to be distributed with the same distribution network priority in sequence according to the sequence of the distribution network priority from high to low.

It should be noted that, in this embodiment, only when determining that a plurality of network to be configured terminal devices are included in all terminal devices by detecting the network configuration state in the respective device parameters of all terminal devices, network configuration priorities for executing network configuration operations are allocated to the plurality of network to be configured terminal devices according to the number of devices or connection signal strengths of the plurality of network to be configured terminal devices; if the detected all terminal equipment only contains one terminal equipment to be distributed, the network distribution operation can be directly and automatically executed on the one terminal equipment to be distributed. For example, the current mobile terminal recognizes that only one of the identified network allocation states is "no network allocation" in the stored data language, that is:

The method comprises the steps that a TCL door lock of terminal equipment corresponding to a data language is determined, and the TCL door lock is the only terminal equipment to be matched, which needs to execute network matching operation subsequently, in all the currently detected terminal equipment such as the TCL door lock, the TCL air purifier, the xiaomi lamp 1, the xiaomi lamp 2 and the like, so that a current mobile terminal immediately controls a preset routing system, a 2-automatic priority network matching module in the preset routing system directly packages a device name of the terminal equipment to be matched, namely the TCL door lock, into a network matching triggering command to execute automatic network matching operation on the current TCL door lock, and after network matching is completed, a network matching state corresponding to the device name of the current TCL door lock is updated into a network matched according to 'non-network matching' in the data language compiled and saved according to newly added key data sent by each terminal equipment.

Further, referring to fig. 3, as an embodiment, step S30 includes:

step S301, sequentially obtaining terminal equipment to be distributed with the same distribution network priority according to the order of the distribution network priority from high to low;

And after the distribution network priority for executing the distribution network operation is distributed to the plurality of terminal equipment to be distributed according to the equipment number or the connection signal strength and the like of the terminal equipment to be distributed, the terminal equipment to be distributed with the same distribution network priority is sequentially obtained from the plurality of terminal equipment to be distributed according to the distributed priority from high to low.

Specifically, for example, the current mobile terminal determines that, by identifying the stored data language, among all the detected terminal devices such as the TCL door lock, the TCL air cleaner, the xiaomi lamp 1, the xiaomi lamp 2, the three terminal devices such as the TCL door lock, the TCL air cleaner, and the xiaomi lamp 2 are network terminal devices to be distributed, which need to perform network distribution operation subsequently, and further sequentially allocates the high distribution network priority to the xiaomi lamp 2 according to the number of devices of the network terminal devices to be distributed, which are the same as the manufacturer, of the TCL door lock and the TCL air cleaner, so that the current mobile terminal controls the preset routing system to acquire all the network terminal devices to be distributed of the high distribution network priority, namely the TCL door lock and the TCL air cleaner, and then acquire all the network terminal devices to be distributed of the low distribution network priority, namely the xiaomi lamp 2.

Step S302, performing network distribution operation on the network to be distributed terminal equipment with the same network distribution priority.

And in the process of acquiring the network terminal equipment to be distributed with the same distribution network priority from among the plurality of network terminal equipment to be distributed according to the sequence of the distribution network priority from high to low, executing the network distribution operation on the acquired network terminal equipment to be distributed in batches until the network distribution of all the network terminal equipment to be distributed corresponding to the distribution network priority is completed.

Specifically, for example, after the current mobile terminal controls the preset routing system to obtain all network terminal devices to be configured with a "high network priority" (i.e. "TCL door lock" and "TCL air purifier"), the current mobile terminal continues to control the preset routing system to call the 2-automatic priority network configuration module, encapsulates the obtained device names of all network terminal devices to be configured, namely "TCL door lock" and "TCL air purifier", to a network trigger command, so as to perform automatic network configuration operation on all network terminal devices to be configured at the same time, and after network configuration is completed, continues to obtain all network terminal devices to be configured with a "low network priority" (i.e. "xiaomi lamp 2") by the preset routing system, and repeats automatic network configuration operation on the obtained network terminal devices to be configured until the 2-automatic priority network configuration module of the preset routing system performs automatic network configuration operation on all network terminal devices to be configured.

In this embodiment, based on a preset routing system, all terminal devices capable of executing a network allocation operation in an environment where a user is located are detected, device parameters of all terminal devices are obtained, after the device parameters of all terminal devices capable of executing the network allocation operation in the environment where the user is located are obtained, network allocation states in the respective device parameters of all terminal devices are detected, network terminal devices to be allocated for executing the network allocation operation in all terminal devices are determined, then a subsequent network allocation priority for executing the network allocation operation is allocated to the network allocation terminal devices to be allocated according to the number of devices or connection signal intensity of the network allocation terminal devices to be allocated, and the network allocation operation is automatically executed in batches for all network allocation terminal devices to be allocated with the same priority in sequence according to the sequence of the network allocation priority from high to low.

The network distribution method and the network distribution system realize that the network distribution operation is automatically executed on the network distribution terminal equipment to be distributed in batches according to the priority of the assigned network distribution terminal equipment to be distributed, compared with the traditional network distribution mode, the network distribution speed of the terminal equipment is greatly improved, users can not wait for the lengthy network distribution process of the terminal equipment any more, based on the automatic network distribution operation execution, the user is not required to repeatedly execute the network distribution operation process one by one, the situation that the user repeatedly executes the network distribution operation is avoided, and the network distribution efficiency of the terminal equipment is improved.

Based on the first embodiment of the network allocation method of the terminal device of the present invention, a second embodiment of the network allocation method of the terminal device of the present invention is provided, in this embodiment, the obtained device parameters of each terminal device capable of performing network allocation operation include manufacturers of each terminal device, and in the step S20, the step of allocating network allocation priority to the terminal device to be network-allocated includes:

step 203, detecting the number of devices of the network terminal equipment to be distributed, which are the same as each other by the manufacturer, in the network terminal equipment to be distributed;

after the distribution network state in the respective equipment parameters of all the terminal equipment is detected, a plurality of network terminal equipment to be distributed, which need to execute distribution network operation, in all the terminal equipment is determined, the equipment number of the network terminal equipment to be distributed, which is the same as the manufacturer, in the plurality of network terminal equipment to be distributed is further detected.

Specifically, for example, the current mobile terminal determines that, by identifying the stored data languages, among all the detected terminal devices such as the TCL door lock, the TCL air cleaner, the XiaoMi lamp 1, and the XiaoMi lamp 2, the three terminal devices including the TCL door lock, the TCL air cleaner, and the XiaoMi lamp 2 are network to be distributed terminal devices that need to perform network distribution operation subsequently, then the current mobile terminal further identifies the "manufacturer" device parameters recorded in the data languages of the three network to be distributed terminal devices such as the TCL door lock, the TCL air cleaner, and the XiaoMi lamp 2, and identifies that, among the data languages of the network to be distributed terminal devices, the TCL door lock, the manufacturer corresponding to the TCL door lock is the TCL, the manufacturer corresponding to the network to be distributed terminal devices, the TCL air cleaner, the manufacturer corresponding to the TCL air cleaner, the network to be distributed terminal devices, the data languages of the XiaoMi lamp 2, the manufacturer corresponding to the XiaoMi lamp 2, and the number of the manufacturer corresponding to the network to be distributed terminal devices, the miaomi lamp 2, are determined as the manufacturer' terminal devices, and the number of the manufacturer corresponding to the network to be distributed terminal devices, the manufacturer 1.

Step S204, according to the order of the number of the devices from large to small, correspondingly distributing network priorities from high to low to the network terminal devices to be distributed.

And distributing network priorities with the same priority level to the network terminal equipment to be distributed with the same manufacturer according to the sequence of the same equipment number of the network terminal equipment to be distributed from large to small of the detected manufacturer, and distributing the network priorities with the same priority level to the network terminal equipment to be distributed with the same manufacturer.

Specifically, for example, after the current terminal device obtains that the number of devices of the terminal device to be distributed is "2" in the determined plurality of terminal devices to be distributed, which are "TCL" by the manufacturer, and the number of devices of the terminal device to be distributed is "1" by the manufacturer, which is "XiaoMi", the same "high distribution network priority" is allocated to the terminal device to be distributed, which is "TCL door lock" and "TCL air purifier", which are "TCL" by the manufacturer, and the "low distribution network priority" is allocated to the terminal device to be distributed, which is "XiaoMi" by the manufacturer.

Further, as an embodiment, the step S204 may include:

Step S2041, sequentially detecting the connection signal intensity of each to-be-configured network terminal equipment which is the same as the manufacturer according to the sequence of the number of the equipment from large to small;

and further sequentially detecting the connection signal strength between each network terminal equipment to be distributed and a preset routing system in each network terminal equipment to be distributed of the same manufacturer according to the sequence of the number of the network terminal equipment to be distributed, which is the same as the manufacturer, from large to small.

It should be noted that, in this embodiment, in a data language compiled and saved by the current mobile terminal according to newly added key data sent by each terminal device, device parameters for identifying "connection signal strength" between each terminal device and a preset routing system are recorded, for example: data language { "TCL": "door lock": "K5": off' the water supply: the "1" }// TCL door lock, model K5, unassigned, 1, strong wireless signal }, i.e. the connection signal strength between the current terminal device "TCL door lock" and the preset routing system is "strong wireless signal", furthermore, it should be understood that in other embodiments, the "connection signal strength" may of course also represent the connection signal strength between each terminal device and the mobile terminal of the user installing or establishing a connection with the preset routing system, based on the actual application requirements.

Specifically, for example, the current terminal device counts to obtain, from the determined plurality of network terminal devices to be distributed, that the number of devices of the network terminal device to be distributed, which is "TCL", is "2", that the number of devices of the network terminal device to be distributed, which is "XiaoMi", is "1", then, further, according to the order that the number of devices, that is "2", is greater than the number of devices, that is "1", the device parameters, recorded in the respective data languages, that is, "TCL door lock", of the network terminal device to be distributed, which is "TCL", of the manufacturer, and "TCL air purifier", are preferentially identified, that the connection signal strength, which corresponds to "TCL door lock", is "strong wireless signal", and that corresponds to "TCL air purifier", is "weak wireless signal", then, that the device parameters, which are recorded in the data language, which is "XiaoMi" network terminal device to be distributed, "XiaoMi", of the network terminal device to be distributed, that corresponds to "XiaoMi" 2", are identified, and that the connection signal strength, which corresponds to" weak wireless signal "XiaoMi light fixture 2".

Step S2042, in each network to be distributed terminal device of the same manufacturer, correspondingly distributing network priority from high to low to each network to be distributed terminal device according to the sequence from strong to weak of the connection signal intensity.

And after detecting the connection signal strength between each network terminal equipment to be distributed and a preset routing system in the network terminal equipment to be distributed of the same manufacturer, sequentially and correspondingly distributing network priorities of which the priority levels are from high to low to the network terminal equipment to be distributed of the same manufacturer according to the sequence of the connection signal strength from high to low.

Specifically, for example, after identifying that the connection signal strength corresponding to the "TCL door lock" is a "strong wireless signal", and the connection signal strength corresponding to the "TCL air purifier" is a "weak wireless signal", among the to-be-allocated network terminal devices- "TCL door lock" and "TCL air purifier" of the manufacturer "TCL", a "first high allocation network priority" of the "high allocation network priority" is preferentially allocated to the to-be-allocated network terminal device- "TCL door lock" of the connection signal strength "strong wireless signal", then a "second high allocation network priority" of the "high allocation network priority" is allocated to the to-be-allocated network terminal device- "TCL air purifier" of the connection signal strength "weak wireless signal", and after the "first high allocation network priority" and the "second high allocation network priority" of the "high allocation network priority" are correspondingly allocated to the to-be-allocated network terminal device- "TCL" to be-allocated network terminal device "TCL" to be-allocated by the manufacturer "xo" is allocated to the low allocation network priority "die 2".

In this embodiment, when the current mobile terminal performs the network allocation operation according to the priority, the first high network allocation priority is higher than the second high network allocation priority, the network allocation operation of the network to be allocated terminal device with the priority of "first high network allocation priority" is performed first, then the network allocation operation of the network to be allocated terminal device with the priority of "second high network allocation priority" is performed, after the network allocation operation of all the network to be allocated terminal devices with the priority of "high network allocation priority" is performed, the network allocation operation of all the network to be allocated terminal devices with the priority of "low network allocation priority" is performed again, and if the "low network allocation priority" also contains the network allocation operation of "first low network allocation priority" and the network allocation operation of "second low network allocation priority", the network allocation operation of the network to be allocated terminal device with the priority of "first low network allocation priority" is performed first, and then the network allocation operation of all the network allocation terminal devices to be allocated is performed until the network allocation operation of all the network to be allocated terminal devices is performed.

Further, as another embodiment, the obtained device parameters of each terminal device capable of performing the network allocation operation further include connection signal strength of each terminal device, and in step S20, the step of allocating a network allocation priority to the terminal device to be allocated further includes:

Step S205, detecting the connection signal intensity of the network terminal equipment to be distributed;

after determining a plurality of network terminal devices to be distributed, which need to execute network distribution operation, in all terminal devices by detecting the distribution network state in the respective device parameters of all terminal devices, further detecting the connection signal strength between each of the plurality of network terminal devices to be distributed and a preset routing system.

Specifically, for example, the current mobile terminal further identifies the "connection signal strength" device parameters recorded in the data languages of the three network terminal devices to be distributed, namely, the "TCL door lock", "TCL air purifier", and "xiaomi lamp 2", by identifying the stored data languages, and identifies that the connection signal strength corresponding to the "TCL door lock" is a "strong wireless signal", the connection signal strength corresponding to the "TCL air purifier" in the data language of the network terminal device to be distributed, namely, the "TCL air purifier", is a "weak wireless signal", and the connection signal strength corresponding to the "xiaomi lamp 2" in the data language of the network terminal device to be distributed, namely, the "xiaomi lamp 2", is also a "weak wireless signal".

Step S206, according to the order from strong to weak of the connection signal intensity, correspondingly distributing network priorities from high to low to the network terminal equipment to be distributed.

And distributing network priorities with priority levels from high to low to each network terminal equipment to be distributed according to the sequence from strong to weak of the detected connection signal intensity of the network terminal equipment to be distributed, and distributing network priorities with the same priority levels to each network terminal equipment to be distributed with the same connection signal intensity.

Specifically, for example, in the data language of the to-be-configured network terminal device- "TCL door lock", the connection signal strength corresponding to the "TCL door lock" is a "strong wireless signal", the connection signal strength corresponding to the "TCL air purifier" in the data language of the to-be-configured network terminal device- "TCL air purifier" is a "weak wireless signal", the connection signal strength corresponding to the "xiaomi lamp 2" in the data language of the to-be-configured network terminal device- "xiaomi lamp 2" is also a "weak wireless signal", after the current terminal device identifies that the connection signal strength corresponding to the "TCL door lock" is a "strong wireless signal", the to-be-configured network terminal device- "TCL air purifier" and the "xiaomi lamp 2" with the connection signal strength being a "weak wireless signal" are preferentially assigned, "and the same" low network priority "is assigned.

Further, as an embodiment, the step S206 may include:

step S2061, sequentially detecting the equipment number of the network terminal equipment to be distributed, which is the same as the manufacturer, in each network terminal equipment to be distributed with the same connection signal strength according to the sequence from strong to weak of the connection signal strength;

and sequentially detecting the equipment number of the network terminal equipment to be distributed, which is the same as the manufacturer, in each network terminal equipment to be distributed with the same connection signal strength according to the sequence from strong to weak of the detected network terminal equipment to be distributed.

Specifically, for example, in the data language of the to-be-configured network terminal device- "TCL door lock", the connection signal strength corresponding to the "TCL door lock" is a "strong wireless signal", the connection signal strength corresponding to the "TCL air purifier" in the data language of the to-be-configured network terminal device- "TCL air purifier" is a "weak wireless signal", the connection signal strength corresponding to the "xiaomi lamp 2" in the data language of the to-be-configured network terminal device- "xiaomi lamp 2" is a "weak wireless signal", after further identifying that the manufacturer of the only to-be-configured network terminal device- "TCL door lock", whose connection signal strength is a "strong wireless signal", counts that, in the to-be-configured network terminal device, the number of devices, whose manufacturers are "TCL", is "1" in the data language of the to-be-configured network terminal device whose connection signal strength is "strong wireless signal"; then, the current terminal equipment identifies that in the to-be-distributed network terminal equipment 'TCL air purifier' and the XiaoMi lamp 2 'with the connection signal strength of' if wireless signals ', the manufacturer of the' TCL air purifier 'is' TCL ', the manufacturer of the XiaoMi lamp 2' is 'xiaoMi', and the current terminal equipment counts that in the to-be-distributed network terminal equipment with the connection signal strength of 'weak wireless signals', the number of equipment with the manufacturer of 'TCL' is '1', and the number of equipment with the manufacturer of 'xiaoMi' is '1'.

Step S2062, in each to-be-distributed network terminal device with the same connection signal strength, correspondingly distributing the to-be-distributed network terminal device with a high to low distribution network priority according to the sequence of the number of the devices from high to low.

And after the number of the equipment of each network terminal to be distributed, which is the same as the manufacturer, is detected in the terminal equipment of each network to be distributed with the same connection signal strength, the terminal equipment of each network to be distributed with the same connection signal strength is sequentially and correspondingly allocated with the priority of the network to be distributed from high to low according to the sequence of the number of the equipment.

Specifically, for example, in one embodiment, if the current terminal device counts that, among the network to be configured terminal devices with the connection signal strength of "strong wireless signals", the number of devices with the manufacturer of "TCL" is "2", and the number of devices with the manufacturer of "XiaoMi" is "1", the terminal device allocates "first high network priority" in "high network priority" to "2" network to be configured terminal devices with the connection signal strength of "strong wireless signals", and then allocates "second high network priority" in "high network priority" to "1" network to be configured terminal devices with the connection signal strength of "strong wireless signals".

In this embodiment, after determining the network allocation status in the respective device parameters of all the terminal devices, further detecting the number of devices to be allocated in the network allocation terminal devices that are the same as the manufacturer among the plurality of network allocation terminal devices to be allocated, according to the order of the number of devices to be allocated in the network allocation terminal devices that are the same as the manufacturer and that are obtained by the detection, sequentially allocating the priority to the network allocation terminal devices from high to low to the network allocation priority, and allocating the priority to the network allocation terminal devices to be allocated with the same manufacturer to the network allocation priority that are the same as the priority, or further detecting the connection signal intensity between the network allocation terminal devices to be allocated and the preset routing system after determining the plurality of network allocation terminal devices to be allocated that are required to be allocated among the terminal devices to be allocated, and sequentially allocating the priority to the network allocation terminal devices with the same connection signal intensity to the network allocation priority that are the same as the network allocation terminal devices to be allocated.

The method and the system realize that the network distribution priority corresponding to the same network distribution terminal equipment is distributed in sequence according to the quantity of the terminal equipment of the same brand manufacturer purchased by the user in an actual home scene or the strength of connection signals between the terminal equipment and a preset routing system for automatically executing the network distribution operation, so that the network distribution operation is automatically executed in batches according to the distributed network distribution priority in the subsequent network distribution operation execution process, the network distribution speed of the terminal equipment is ensured, the flexibility of the network distribution is further improved, and the network distribution efficiency is further improved.

Referring to fig. 4, a third embodiment of the network allocation method of the terminal device according to the present invention is provided based on the first embodiment of the network allocation method of the terminal device according to the present invention, in this embodiment, after performing the network allocation operation on the terminal device to be allocated according to the network allocation priority in step S30, the network allocation method of the terminal device according to the present invention further includes:

and step S40, updating the equipment parameters to obtain new equipment parameters of each terminal equipment, and outputting the new equipment parameters.

After the network distribution operation is automatically and batched to all the network terminal equipment to be distributed with the same network distribution priority according to the sequence of the distributed network distribution priorities from high to low, the equipment parameters of all the network terminal equipment to be distributed are updated based on detection and acquisition, so that new equipment parameters of the network terminal equipment to be distributed are obtained, and finally, the network terminal equipment to be distributed is controlled to output and display the obtained new equipment parameters.

Further, as an embodiment, step S40 includes:

step S401, detecting the equipment name of the terminal equipment to be distributed after the network distribution operation is executed;

after the network distribution operation is automatically executed on all the network terminal equipment to be distributed with the same network distribution priority in batches, the equipment names of the network terminal equipment to be distributed after the network distribution operation is executed at present are further detected.

Specifically, for example, after a preset routing system calls a 2-automatic priority distribution network module, the acquired device names of the terminal devices to be distributed, namely a 'TCL door lock' and a 'TCL air purifier', are packaged to a distribution network trigger command so as to execute automatic distribution network operation on the terminal devices to be distributed, namely the 'TCL door lock' and the 'TCL air purifier', at the same time, the device names of the terminal devices to be distributed, packaged in the distribution network trigger command, which are used for executing the distribution network operation in batches and are currently, are detected to be the 'TCL door lock' and the 'TCL air purifier'.

Step S402, updating the network allocation state associated with the equipment name in the equipment parameters to obtain new equipment parameters of each terminal equipment;

and updating the original distribution network state in the detected equipment parameters of the terminal equipment corresponding to the equipment names, so as to obtain new equipment parameters of the terminal equipment corresponding to the equipment names.

Specifically, for example, in the data language compiled and saved according to the newly added key data sent by each terminal device, the current mobile terminal compiles the detected device name- "TCL door lock" in the data language- { "TCL": "door lock": "K5": off' the water supply: in the model K5, unassigned network, 1 and strong wireless signal, the device parameter "assigned network state" is updated from "unassigned network" to "assigned network", and in the data language- { "TCL" where the device name- "TCL air purifier" is located: "empty clean": "J5": off' the water supply: in the model J5, unassigned network, 0 and weak wireless signals, the equipment parameters of "assigned network state" are updated from "unassigned network" to "assigned network", so as to obtain the new equipment parameters of the terminal equipment "TCL door lock" and "TCL air purifier" after the network operation is executed, wherein the new equipment parameters are respectively as follows: manufacturer= "TCL", connection signal strength= "strong wireless signal", distribution network status= "already-distributed network" and device name= "TCL door lock", manufacturer= "TCL", connection signal strength= "weak wireless signal", distribution network status= "already-distributed network" and device name= "TCL air cleaner".

Step S403, packaging the new equipment parameters to preset prompt information;

and after obtaining the new equipment parameters corresponding to the equipment names of the terminal equipment to be distributed after the network distribution operation is executed, packaging the new equipment parameters to the preset prompt information.

It should be noted that, in this embodiment, the preset prompting information is information for outputting and displaying to the user, so that the user knows the result of performing the network distribution operation on each current terminal device to be distributed, and it should be understood that, based on different design needs, the content of the preset prompting information may include multiple kinds, and the network distribution method of the terminal device of the present invention does not limit the specific content of the preset prompting information.

Specifically, for example, the current mobile terminal controls the preset routing system to call a 3-device access display module, and the obtained terminal device after the network allocation operation is executed, namely a new device parameter of a 'TCL door lock': manufacturer= "TCL", connection signal strength= "strong wireless signal", distribution network status= "already-distributed network" and device name= "TCL door lock", corresponding package forms "respectful user, device from TCL: the TCL door lock completes the network distribution process, and the signal connection strength is strong at present.

Step S404, the preset prompt information is sent to a preset display terminal, so that the preset display terminal can output the preset prompt information.

It should be noted that, in this embodiment, the preset display terminal may be a mobile terminal installed with a preset routing system (or connected with the preset routing system) for automatically executing the network allocation operation, or the preset display terminal may be a display device specifically used for displaying parameters of each aspect of the terminal device in a home environment where a user is located.

Specifically, for example, the preset routing system is controlled by the current mobile terminal to call the 3-equipment access display module, new equipment parameters of the terminal equipment after the network allocation operation, namely the ' TCL door lock ', are packaged to form a ' respectful user, and the equipment from the TCL: after finishing the network distribution process, the TCL door lock further sends the prompt information to the mobile terminal currently held by the user after finishing the prompt information with strong signal connection strength, and the mobile terminal outputs the prompt information through the front end screen or the output port of the loudspeaker and the like: "respectful user, device from TCL: the TCL door lock completes the network distribution process, and the current signal connection strength is output and displayed to the user.

Further, in another embodiment, after packaging the new device parameter to the preset prompting information in step S403, the network allocation method of the terminal device of the present invention further includes:

step S404, the preset prompt information is sent to the terminal equipment to be distributed after the distribution network operation is executed, and the terminal equipment to be distributed after the distribution network operation is executed is controlled to output the preset prompt information.

After the new device parameters are all packaged into the preset prompt information, the preset prompt information can be sent to the corresponding terminal device, and the terminal device is controlled to output and display the preset prompt information to the user.

Specifically, for example, the 3-device access display module of the routing system may further send the prompt information formed by encapsulation to the to-be-configured network terminal device to be configured, i.e. "TCL door lock", which has already performed the configuration operation, and control the "TCL door lock" to send the prompt information through an output port (such as a front-end screen or a speaker port may be used separately or simultaneously) of the front-end screen or the speaker, where the screen or the speaker port may be used simultaneously: "respectful user, device from TCL: the TCL door lock completes the network distribution process, and the current signal connection strength is output and displayed to the user.

In this embodiment, after the network allocation operation is automatically performed on all to-be-allocated network terminal devices with the same priority of the allocation network in batch according to the sequence of the priority of the allocation network from high to low, the device parameters of the to-be-allocated network terminal devices are updated in all the detected and acquired terminal devices to obtain new device parameters of the to-be-allocated network terminal devices, and finally, each to-be-allocated network terminal device is controlled to output and display the obtained new device parameters. After the automatic network distribution operation of the terminal equipment to be distributed is completed, the equipment state of the terminal equipment to be distributed after the network distribution operation is timely fed back to the user, the condition that the user continues waiting after the network distribution of the equipment is completed is avoided, the intelligence of the network distribution of the terminal equipment is improved, the use experience of the user is enriched, and the network distribution efficiency is further improved.

In addition, the embodiment of the invention also provides a computer readable storage medium, wherein the computer readable storage medium stores a network distribution program of the terminal equipment, and the network distribution program of the terminal equipment realizes the steps of the network distribution method of the terminal equipment when being executed by a processor.

The specific embodiments of the computer readable storage medium of the present invention may refer to each embodiment of the network allocation method of the terminal device, and will not be described herein.

It should be noted that, in this document, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or system that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or system. Without further limitation, an element defined by the phrase "comprising one … …" does not exclude the presence of other like elements in a process, method, article, or system that comprises the element.

The foregoing embodiment numbers of the present invention are merely for the purpose of description, and do not represent the advantages or disadvantages of the embodiments.

From the above description of the embodiments, it will be clear to those skilled in the art that the above-described embodiment method may be implemented by means of software plus a necessary general hardware platform, but of course may also be implemented by means of hardware, but in many cases the former is a preferred embodiment. Based on such understanding, the technical solution of the present invention may be embodied essentially or in a part contributing to the prior art in the form of a software product stored in a storage medium (e.g. ROM/RAM, magnetic disk, optical disk) as described above, comprising instructions for causing a display terminal device (which may be a television, a mobile phone, a computer, a server, an air conditioner, or a network device, etc.) to perform the method according to the embodiments of the present invention.

The foregoing description is only of the preferred embodiments of the present invention, and is not intended to limit the scope of the invention, but rather is intended to cover any equivalents of the structures or equivalent processes disclosed herein or in the alternative, which may be employed directly or indirectly in other related arts.

Claims

1. The network distribution method of the terminal equipment is characterized by comprising the following steps of:

acquiring equipment parameters of each terminal equipment capable of executing network allocation operation, wherein the equipment parameters comprise at least one of manufacturers of the terminal equipment, connection signal strength of the terminal equipment and equipment names of the terminal equipment;

2. The network allocation method of the terminal device according to claim 1, wherein the step of performing a network allocation operation on the terminal device to be allocated according to the network allocation priority comprises:

3. The network allocation method according to claim 1, wherein the equipment parameter is a manufacturer of the terminal equipment,

4. A network allocation method according to claim 3, wherein the step of allocating network priorities from high to low to the network to be allocated terminal devices sequentially in the order of the number of devices from high to low comprises:

5. The network allocation method according to claim 1, wherein the device parameter is a connection signal strength of the terminal device,

6. The network allocation method of the terminal equipment according to claim 5, wherein the step of allocating network priorities from high to low to the terminal equipment to be allocated sequentially in the order from strong to weak of the connection signal strength includes:

7. The network allocation method of claim 1, wherein the device parameters further comprise a network allocation status of the terminal device,

detecting the distribution network state of each terminal device;

8. The network allocation method of the terminal device according to claim 1, further comprising, after the step of performing a network allocation operation on the terminal device to be network-allocated according to the network allocation priority:

9. The network allocation method according to claim 8, wherein the device parameter is a device name of the terminal device,

packaging the new equipment parameters to preset prompt information;

10. The network allocation method of the terminal device according to claim 9, further comprising, after the step of encapsulating the new device parameter into a preset hint, the step of:

11. A terminal device, the terminal device comprising: memory, a processor and a network distribution program of a terminal device stored on the memory and executable on the processor, which network distribution program of a terminal device, when executed by the processor, implements the steps of the network distribution method of a terminal device according to any of claims 1 to 10.

12. A computer readable storage medium, characterized in that the computer readable storage medium has stored thereon a network distribution program of a terminal device, which when executed by a processor, implements the steps of the network distribution method of a terminal device according to any of claims 1 to 10.