CN114374938A

CN114374938A - Non-zigbee equipment control method and related equipment

Info

Publication number: CN114374938A
Application number: CN202210022475.5A
Authority: CN
Inventors: 金露
Original assignee: Hangzhou Tuya Information Technology Co Ltd
Current assignee: Hangzhou Tuya Information Technology Co Ltd
Priority date: 2020-09-22
Filing date: 2020-09-22
Publication date: 2022-04-19
Also published as: CN112135264A; CN112135264B

Abstract

The embodiment of the application discloses a non-zigbee equipment control method and related equipment. The method in the embodiment of the application comprises the following steps: the method comprises the steps that user equipment determines at least one non-zigbee device to be controlled, the non-zigbee device has at least one device state, a scene corresponding to the device state is created according to the device state of the non-zigbee device, a third binding relation among the non-zigbee device, the device state and the scene is saved, a zigbee gateway can receive and save the third binding relation sent by the user equipment, when an identifier of a target non-zigbee device and an identifier of the target scene sent by the user equipment are received, the target non-zigbee device and the target device state corresponding to the identifier of the target scene are determined according to the third binding relation, and a state control instruction used for controlling the target non-zigbee device to be switched to the target device state is sent to the target non-zigbee device, so that the control of the device state of the target non-zigbee device is achieved.

Description

Non-zigbee equipment control method and related equipment

The application is a divisional application of an invention patent application with the application date of 22/09/2020 and the application number of 202011001071.5, and the name of the invention is 'a zigbee equipment control method and related equipment'.

Technical Field

The embodiment of the application relates to the field of zigbee, in particular to a non-zigbee equipment control method and related equipment.

Background

The zigbee equipment is a product of the zigbee system, and before the zigbee equipment is used, a scene needs to be created for the zigbee equipment used subsequently, wherein the scene contains the zigbee execution equipment used subsequently and the execution content of the zigbee execution equipment.

However, in the prior art, the scene containing the zigbee execution device and the execution content is created for each zigbee device in a creation-by-creation manner, the creation process is complicated, and the disadvantage is more prominent particularly when the scene is created for a large number of zigbee devices.

Disclosure of Invention

The embodiment of the application provides a zigbee equipment control method, which is used for creating scenes for a large number of zigbee equipment at one time.

In a first aspect of the embodiments of the present application, a method for controlling a zigbee device is provided, including:

creating at least one device group, the device group including at least one zigbee device having at least one device state;

creating at least one scene group according to the device states of the zigbee devices in the same device group, wherein the device states of the zigbee devices in the same scene group are associated with the same scene;

saving a first binding relationship between the equipment group and a scene group corresponding to the equipment group; and the number of the first and second groups,

and saving a second binding relationship among the scene group, the zigbee devices included in the scene group, and the device states of the zigbee devices included in the scene group, wherein the first binding relationship and the second binding relationship are used for triggering the zigbee devices included in the scene group corresponding to the device group to enter the bound device states.

With reference to the first aspect, a first implementation manner of the first aspect of the embodiments of the present application includes:

and establishing zigbee equipment with the same equipment state in the same equipment group as the same scene group to obtain at least one scene group.

With reference to the first aspect, a second implementation manner of the first aspect of the embodiments of the present application includes:

determining a control panel in communication connection with the zigbee device, wherein the control panel comprises a plurality of keys and the keys correspond to at least one key action;

creating a first corresponding relation between the equipment group and the key, and creating a second corresponding relation between the key action of the key and a scene group included by the equipment group;

and sending the first corresponding relation between the key and the equipment group and the second corresponding relation between the key action of the key and the scene group to the control panel.

With reference to the first aspect, a third implementation manner of the first aspect of the embodiments of the present application includes:

and sending the first binding relationship and the second binding relationship to the zigbee equipment so that the zigbee equipment stores the first binding relationship and the second binding relationship.

With reference to the third implementation manner of the first aspect, the fourth implementation manner of the first aspect of the examples of this application includes:

for any zigbee equipment, determining a target scene group to which the zigbee equipment belongs;

and sending the first binding relationship associated with the target scene group and the second binding relationship associated with the target scene group to any zigbee device.

With reference to the first aspect, a fifth implementation manner of the first aspect of the embodiments of the present application includes:

the user equipment is in communication connection with a zigbee gateway, and the zigbee gateway is in communication connection with the at least one zigbee equipment;

if receiving a trigger operation on a target scene group, determining a target equipment group corresponding to the target scene group;

and sending the identifier of the target scene group and the identifier of the target device group to the zigbee gateway, so that the zigbee gateway broadcasts the identifier of the target scene group and the identifier of the target device group to the at least one zigbee device.

In a second aspect of the embodiments of the present application, a method for controlling a zigbee device is provided, where the method is applied to a control panel, the control panel includes at least one key, and the key corresponds to at least one key action, and the control panel is in communication connection with the zigbee device, and the method includes:

receiving and storing the first corresponding relation and the second corresponding relation sent by the user equipment;

the first corresponding relation is a corresponding relation between an equipment group and a key, the equipment group comprises at least one zigbee equipment, and the zigbee equipment has at least one equipment state;

the second corresponding relation is the corresponding relation between the key action of the key and a scene group, and the equipment states of the zigbee equipment in the same scene group are associated with the same scene.

In combination with the second aspect of the embodiments of the present application, the first implementation manner of the second aspect of the embodiments of the present application includes:

receiving a target key action triggered by a user on a target key in the control panel;

determining a target equipment group corresponding to the target key according to the first corresponding relation, and determining a target scene group corresponding to the target key action according to the second corresponding relation;

broadcasting the identification of the target scene group and the identification of the target device group to the at least one zigbee device.

In a third aspect of the embodiments of the present application, a method for controlling a zigbee device is provided, where the method is applied to a target zigbee device, and the method includes:

receiving and storing a first binding relationship and a second binding relationship sent by user equipment;

the first binding relationship is a binding relationship between an equipment group and a scene group corresponding to the equipment group, the equipment group comprises at least one zigbee equipment, and the zigbee equipment has at least one equipment state;

the second binding relationship is a binding relationship among the scene group, the zigbee devices included in the scene group, and the device states of the zigbee devices in the same scene group are associated with the same scene.

With reference to the third aspect of the embodiments of the present application, a first implementation manner of the third aspect of the embodiments of the present application includes:

receiving an identifier of a target scene group and an identifier of a target equipment group which are broadcasted by a zigbee gateway;

determining a scene group corresponding to the target zigbee equipment according to the second binding relationship; determining a device group corresponding to the target zigbee device according to the first binding relationship;

if the identifier of the determined scene group is the same as the identifier of the broadcasted target scene group and the identifier of the determined equipment group is the same as the identifier of the broadcasted target equipment group, determining the target equipment state corresponding to the target scene group and the target zigbee equipment according to the second binding relationship;

and switching the state of the target zigbee equipment to the state of the target equipment.

With reference to the third aspect of the embodiments of the present application, a second implementation manner of the third aspect of the embodiments of the present application includes:

receiving an identifier of a target scene group and an identifier of the target device group broadcast by a control panel;

In combination with the fourth aspect of the embodiment of the present application, an embodiment of the present application provides a non-zigbee device control method, which is applied to a user equipment, and includes:

determining at least one non-zigbee device to be controlled, the non-zigbee device having at least one device state;

creating a scene corresponding to the equipment state according to the equipment state of the non-zigbee equipment;

and saving a third binding relation among the non-zigbee equipment, the equipment state and the scene.

In combination with the fourth aspect of the embodiments of the present application, the first implementation manner of the fourth aspect of the embodiments of the present application includes:

and sending the non-zigbee equipment, the equipment state of the non-zigbee equipment and the third binding relationship among the scenes to a zigbee gateway in communication connection with the user equipment.

In combination with the fourth aspect of the embodiments of the present application, the second implementation manner of the fourth aspect of the embodiments of the present application includes:

and if the trigger operation of the target scene of the target non-zigbee equipment is received, sending the identifier of the target non-zigbee equipment and the identifier of the target scene to a gateway.

In combination with the fourth aspect of the embodiments of the present application, the third implementation manner of the fourth aspect of the embodiments of the present application includes:

determining a control panel connected with the non-zigbee equipment, wherein the control panel comprises at least one key and the key corresponds to at least one key action;

creating a third corresponding relation between the key and the non-zigbee equipment, and creating a fourth corresponding relation between each key action of the key and each scene of the non-zigbee equipment;

and sending a third corresponding relation between the key and the non-zigbee equipment and a fourth corresponding relation between each key action of the key and each scene of the non-zigbee equipment to the control panel.

In a fifth aspect of the embodiments of the present application, a method for controlling a non-zigbee device is provided, where the method is applied to a zigbee gateway, and includes:

receiving and storing a third binding relationship among non-zigbee equipment, equipment states of the non-zigbee equipment and scenes sent by user equipment, wherein the non-zigbee equipment has at least one equipment state, and the scenes are generated according to the equipment states of the non-zigbee equipment;

if the identification of the target non-zigbee equipment and the identification of the target scene, which are sent by the user equipment, are received;

determining the target non-zigbee equipment and the target scene corresponding to the identifier of the target scene according to the third binding relationship;

and sending a state control instruction to the target non-zigbee equipment, wherein the state control instruction is used for controlling the target non-zigbee equipment to be switched to the equipment state of the target scene.

In a fifth aspect of the embodiments of the present application, a method for controlling a non-zigbee device is provided, where the method is applied to a control panel, the control panel includes at least one key, and the key corresponds to at least one key action, and the control panel is in communication connection with the at least one non-zigbee device, and the method includes:

receiving and storing the third corresponding relation and the fourth corresponding relation sent by the user equipment;

the third corresponding relation is the corresponding relation between the key and the non-zigbee equipment; the fourth corresponding relation is a corresponding relation between each key action of the key and each scene of the non-zigbee equipment.

With reference to the fifth aspect of the embodiments of the present application, the first implementation manner of the fifth aspect of the embodiments of the present application includes:

determining a target non-zigbee device corresponding to the target key according to the third corresponding relation, and determining a target scene corresponding to the action of the target key according to the fourth corresponding relation;

In a sixth aspect of the embodiments of the present application, there is provided a zigbee device control apparatus, including:

a first creation module for creating at least one device group, the device group including at least one zigbee device having at least one device state;

the second establishing module is used for establishing at least one scene group according to the equipment states of the zigbee equipment in the same equipment group, wherein the equipment states of the zigbee equipment in the same scene group are associated with the same scene;

the first storage module is used for storing a first binding relationship between the equipment group and the scene group corresponding to the equipment group; and the number of the first and second groups,

a second saving module, configured to save a second binding relationship among the scene group, the zigbee devices included in the scene group, and the device states of the zigbee devices included in the scene group, where the first binding relationship and the second binding relationship are used to trigger the zigbee devices included in the scene group corresponding to the device group to enter a bound device state.

A seventh aspect of the embodiments of the present application provides a zigbee device control apparatus, including at least one key, where the key corresponds to at least one key action, and the control panel is in communication connection with the at least one zigbee device, including:

the receiving module is used for receiving the first corresponding relation and the second corresponding relation sent by the user equipment;

the storage module is used for storing the first corresponding relation and the second corresponding relation sent by the user equipment;

In an eighth aspect of the embodiments of the present application, a zigbee apparatus is provided, including:

the receiving module is used for receiving the first binding relationship and the second binding relationship sent by the user equipment;

the storage module is used for storing the first binding relationship and the second binding relationship sent by the user equipment;

A ninth aspect of the present application provides a non-zigbee device control apparatus, including:

a determining module for determining at least one non-zigbee device to be controlled, the non-zigbee device having at least one device state;

the creating module is used for creating a scene corresponding to the equipment state according to the equipment state of the non-zigbee equipment;

and the storage module is used for storing a third binding relationship among the non-zigbee equipment, the equipment state and the scene.

In a tenth aspect of the present embodiment, a zigbee gateway is provided, including:

a receiving module, configured to receive a third binding relationship between a non-zigbee device, a device state of the non-zigbee device, and a scene, where the non-zigbee device has at least one device state, and the scene is generated according to the device state of the non-zigbee device, sent by a user equipment;

the storage module is used for storing the non-zigbee equipment sent by the user equipment, the equipment state of the non-zigbee equipment and a third binding relationship among the scenes;

a determining module, configured to determine, according to the third binding relationship, a target non-zigbee device and a target device state corresponding to the identifier of the target scene if the identifier of the target non-zigbee device and the identifier of the target scene sent by the user equipment are received;

and the sending module is used for sending a state control instruction to the target non-zigbee equipment, wherein the state control instruction is used for controlling the target non-zigbee equipment to be switched to the target equipment state.

In an eleventh aspect of the embodiments of the present application, there is provided a non-zigbee apparatus, including:

A twelfth aspect of embodiments of the present application provides a computer-readable storage medium, in which a program is stored, and when the program is executed by the computer, the computer performs the method according to any one of the first to fifth aspects.

In a thirteenth aspect of embodiments of the present application, there is provided a computer program product, when executed on a computer, the computer executes the method of any one of the first to fifth aspects.

In a fourteenth aspect of the embodiments of the present application, there is provided a zigbee and non-zigbee device control apparatus, including:

a processor, a memory, an input-output device and a bus thereof;

the processor, the memory and the input and output equipment are connected with the bus;

the processor is configured to perform the method of any of the preceding first to fifth aspects.

According to the technical scheme, the embodiment of the application has the following advantages: firstly, at least one equipment group containing zigbee equipment is created, wherein the number of the zigbee equipment is at least one, then, a scene group corresponding to the equipment state is created based on the equipment state of the zigbee equipment in the equipment group, the number of the scene group is at least one, a first binding relationship between the equipment group and the scene group corresponding to the equipment group is saved, and a second binding relationship among the scene group, the zigbee equipment included in the scene group, and the equipment state of the zigbee equipment included in the scene group is also saved. According to the technical scheme, in the creating process, an equipment group containing at least one zigbee equipment is created firstly, and secondly, because one zigbee equipment has at least one equipment state, one equipment group also has at least one equipment state, at least one scene group is created for all the zigbee equipment in the equipment group through the equipment states of the equipment group, so that the complex operation of creating scenes one by executing equipment in the prior art is avoided.

Drawings

FIG. 1 is a schematic flow chart illustrating a zigbee apparatus control method according to an embodiment of the present application;

FIG. 2 is another schematic flow chart illustrating a zigbee apparatus control method according to an embodiment of the present application;

FIG. 3 is a flowchart illustrating a method for controlling a non-zigbee device according to an embodiment of the present application;

FIG. 4 is a schematic structural diagram of a zigbee device control device in an embodiment of the present application;

FIG. 5 is another schematic structural diagram of a zigbee device control device in the embodiment of the present application;

FIG. 6 is a schematic structural diagram of a zigbee device in an embodiment of the present application;

FIG. 7 is a schematic structural diagram of a non-zigbee device control device in an embodiment of the present application;

FIG. 8 is a schematic structural diagram of a zigbee gateway in an embodiment of the present application;

FIG. 9 is a schematic structural diagram of a non-zigbee device in an embodiment of the present application;

FIG. 10 is a schematic structural diagram of another zigbee device control device in the embodiment of the present application;

fig. 11 is another schematic structural diagram of a non-zigbee device control device in the embodiment of the present application.

Detailed Description

The system of the embodiment of the application comprises: the device comprises a user device, a server, a gateway, a control panel, at least one zigbee device and at least one non-zigbee device.

The zigbee device control method is installed in the user equipment, such as a mobile phone, a computer, and an IPAD, and is not limited herein. The user creates a corresponding relation, namely a scene, for the zigbee device and the device state of the zigbee device on the user device through the program, and creates a corresponding relation, namely a corresponding relation between the scene and the key, for the zigbee device, the device state of the zigbee device and the control panel key, wherein the corresponding relation is used for triggering the zigbee device to switch to the device state through the key.

It should be noted that a zigbee device has at least one device state, so that the zigbee device can switch back and forth between operations in the device state in the at least one device state.

The server and the gateway are used for processing, receiving and forwarding information between systems, and are not limited herein.

The control panel is also used for processing, receiving and forwarding information between systems, and particularly for receiving a user control command and triggering the zigbee device to switch to the device state, which is not limited herein.

In the process of creating and triggering, the user equipment, the server, the gateway, the control panel and the zigbee equipment are in a communication connection state.

Based on the above, please refer to fig. 1, an embodiment of the present application provides a zigbee device control method, including:

101. creating at least one device group, the device group including at least one zigbee device having at least one device state.

At least one device group is created, each device group containing at least one zigbee device therein, because a zigbee device has at least one device state, for a device group aggregating at least one zigbee device, the device group has at least one device state.

For example, a zigbee device includes a zigbee first light, a zigbee second light, and a zigbee two-way switch, and the three devices may be constructed as one device group, and two lights may be constructed as another device group.

102. And creating at least one scene group according to the device states of the zigbee devices in the same device group, wherein the device states of the zigbee devices in the same scene group are associated with the same scene.

Because each device group has at least one device state, at least one scene group is created according to the at least one device state under the device group.

It should be noted that a scene group includes at least one zigbee device and corresponds to the same device status of the device group, so that a scene group can know the corresponding relationship between at least one zigbee device and the specific device status of the at least one zigbee device. The device states of the zigbee devices in the same scene group may be the same or different. For the case that the device states of the zigbee devices are different, the fact that the device states of the zigbee devices are associated with the same scene means that the device states of the zigbee devices together form a desired scene. For example, to create a night reading scene in a bedroom requires that the living room lights be turned off, the bedroom main lights be turned off, and the bedroom bedside lights be turned on.

To illustrate the construction of the scene group more clearly, the following description is given by way of example. For example, a zigbee first lamp, a zigbee second lamp, and a zigbee two-way switch. The zigbee two-way switch has two equipment states: an on state and an off state; the zigbee first lamp has three device states: off state, 50% brightness state, 100% brightness state; the zigbee second lamp has four device states: off state, 50% brightness state, 75% brightness state, 100% brightness state. The zigbee first electric lamp, the zigbee second electric lamp and the zigbee two-way switch form an equipment group, and the equipment states of the equipment group can be classified according to the user requirements, such as an off state, an on state, a 50% brightness state, a 75% brightness state and a 100% brightness state, which is not limited herein. If the equipment state of the equipment group is the off state, a scene group is created, and the scene group is the off states of a first Zigbee lamp and a first Zigbee lamp, the off states of a first switch of a two-way Zigbee switch and a first switch of a two-way Zigbee switch, the off states of a second switch of the two-way Zigbee switch and a second switch of the two-way Zigbee switch, and the off states of a second Zigbee lamp and a second Zigbee lamp. Of course, the states of all zigbee devices in a scene group are not necessarily identical, and may be different from each other. For example, a scene group is also created for the above-mentioned device group, the device states of the scene group are the first user state, the 100% brightness states of the zigbee first electric lamp and the zigbee first electric lamp, the off states of the zigbee second electric lamp and the zigbee second electric lamp, and the off states of the first switch of the zigbee two-way switch and the first switch of the zigbee two-way switch, in this scene group, the device states of the respective zigbee devices are different, and the second switch of the zigbee two-way switch is not included. Therefore, the device group can include at least one scene group, the number of zigbee devices in the scene group under the device group can be different, and the specific device state of each zigbee device in the scene group can be different.

It should be noted that the device state of the device group is the device state of the scene group under the device group, and the specific device state of each zigbee device of the scene group has no inevitable relationship with the device state of the device group or the device state of the scene group.

103. And storing a first binding relationship between the equipment group and the scene group corresponding to the equipment group.

Based on step 102, the device group includes at least one scene group, and a first binding relationship between the device group and each scene group under the device group is stored.

It is emphasized that if a device group includes n scene groups, and there are n first binding relationships between the device group and each scene group under the device group, the n first binding relationships are saved. Therefore, the first binding relationship indicates the scene group and the device group corresponding to the scene group.

The above example is still used as an example for explanation. Suppose that two scene groups are set for an equipment group formed by a zigbee first electric lamp, a zigbee second electric lamp and a zigbee two-way switch, and the two scene groups are respectively a scene group corresponding to an off state and a scene group corresponding to an on state. The scene group corresponding to the off state specifically comprises the off states of a first zigbee lamp and a first zigbee lamp, the off states of a first switch of a two-way zigbee switch and a first switch of a two-way zigbee switch, the off states of a second switch of the two-way zigbee switch and a second switch of the two-way zigbee switch, and the off states of a second zigbee lamp and a second zigbee lamp. The scene group corresponding to the on state specifically comprises the on states of a first zigbee lamp and a first zigbee lamp, the on states of a first switch of a two zigbee switch and a first switch of a two zigbee switch, the on states of a second switch of the two zigbee switch and a second switch of the two zigbee switch, and the on states of a second zigbee lamp and a second zigbee lamp.

And establishing a first binding relationship between the equipment group and the two scene groups, and storing the first binding relationship. Of course, if the device group has other scene groups, the first binding relationship may also add other scene groups.

104. And saving a second binding relationship among the scene group, the zigbee devices included in the scene group, and the device states of the zigbee devices included in the scene group, wherein the first binding relationship and the second binding relationship are used for triggering the zigbee devices included in the scene group corresponding to the device group to enter the bound device states.

Based on the step 102, a scene group has at least one zigbee device, and each zigbee device of the at least one zigbee device corresponds to a respective specific device state in the scene group, so that there is a corresponding relationship between one scene group, the zigbee device in the scene group, and the specific device state of each zigbee device in the scene group, where the relationship is a second binding relationship, and the step 104 stores the second binding relationship.

The second binding relationship is also illustrated by taking the example of step 103 as an example. For the scene group corresponding to the off state, the second binding relationship of the scene group is: the method comprises the following steps of a scene group, each zigbee device in the scene group (namely, a zigbee first-path lamp, a zigbee first-path switch of a zigbee two-path switch, a zigbee second-path switch of the zigbee two-path switch, and a zigbee second-path lamp), and a specific device state of each zigbee device under the scene group (namely, an off state of the zigbee first-path lamp, an off state of a zigbee first-path switch of the zigbee two-path switch, an off state of a zigbee second-path switch of the zigbee two-path switch, and an off state of the zigbee second-path lamp). It is noted that each zigbee device of the scene group is associated with a specific device state of each zigbee device of the scene group in the second binding relationship.

It should be noted that, according to the first binding relationship and the second binding relationship, all zigbee devices of the scene group under the device group may be triggered to enter the device state.

Referring to fig. 2, a detailed description of a zigbee device control method according to the embodiment of fig. 1 includes:

in this embodiment, a user creates a scene group for triggering a device state for a zigbee device through a program loaded by a user device, creates a device state for triggering the zigbee device through a control panel, saves a first binding relationship and a second binding relationship of a creation process in the program of the user device and the zigbee device, and saves a first corresponding relationship and a second corresponding relationship of the creation process in the control panel. And in the storage process after the creation, the first corresponding relation and the second corresponding relation sequentially pass through the user equipment, the server and the gateway to reach the control panel, and the first binding relation and the second binding relation sequentially pass through the user equipment, the server and the gateway to reach the zigbee equipment. In the triggering process, a user triggers the zigbee equipment to switch the equipment state through a program of the user equipment, or triggers the zigbee equipment to switch the equipment state through the control panel.

It should be noted that before the user creates the first binding relationship, the second binding relationship, the first corresponding relationship, and the second corresponding relationship through the program loaded by the user equipment, the program stores the identifiers of all the zigbee devices that can be operated, the identifier of each device state of all the zigbee devices that can be operated, the identifier of each key of the control panel that can be operated, and the identifier of each key action of each key, and performs operation control on the identifiers, that is, performs operation control on the things corresponding to the identifiers. Therefore, in the whole creating process, the users create corresponding relations for later triggering among the users through the identity identifications based on the programs of the user equipment.

It should be noted that, in the whole creation process, the user performs creation in a selective manner through the program of the user equipment, and the relevant corresponding relationship in the creation process flows to the relevant equipment along with the creation process.

201. The user equipment creates a device group.

The user selects at least one zigbee device on the program through the user equipment, so that the same device group is created for each zigbee device of the at least one zigbee device, and the identifier of the device group is created at the same time, wherein the identifiers of different device groups are different. It can be seen that the device group contains each zigbee device of the device group.

It is emphasized that the device cluster contains at least one zigbee device. In a special case, one device group has and corresponds to one zigbee device, and in a general case, one device group corresponds to a plurality of zigbee devices.

It is noted that a user may create multiple groups of devices in the manner described above. If a zigbee device is used as an object to describe a device group, one zigbee device may correspond to at least one device group.

202. The user equipment creates a scene group.

According to the device group created by the user, the user selects a device state on the program through the user device, the device state is given by the program, at least one zigbee device exists in the device state, and the specific device state of each zigbee device of the at least one zigbee device is also determined by the program, so that the device state indicates that the specific device state is created for each zigbee device corresponding to the device state of the device group, that is, one device state of the device group is created as a scene group, and the identifier of the scene group is created at the same time. The identifiers of the scene groups of the same device group are different, and the identifiers of the scene groups of different device groups may be the same. It can be seen that a scene group of the device group, a device state of the device group, and a device state of the scene group all represent the same content but are different representations, and all include each corresponding zigbee device and a specific device state of each zigbee device.

It should be noted that, based on the device state of the device group and the scene group of the device group corresponding to each other, the number of the scene group of the device group is the same as the number of the device state of the device group, and one device group may correspond to a plurality of scene groups, and the number of the scene groups in the device group is determined by the number of the device state of the device group. Moreover, the number of zigbee devices in different scene groups of the same device group may be different, and the specific device state of each zigbee device in the same scene group of the same device group may also be different, and all zigbee devices in the device group and all zigbee devices in each scene group of the device group have a inclusion relationship. It should be again stated that a device state of a device group is a set representation of a specific device state of each zigbee device under the scene group to which the device state corresponds.

In one example, the device state of each zigbee device under the same device group is the same, so the program may, upon analyzing the specific device state of such zigbee devices, give the device state of the device group which is the same as the device state of each zigbee device. For example, the same zigbee device has a zigbee first lamp and a zigbee second lamp, and the device states of the zigbee first lamp and the zigbee second lamp are all the off state, the 50% brightness state and the 100% brightness state, so the program can give the device states of the device group including the zigbee first lamp and the zigbee second lamp as the off state, the 50% brightness state and the 100% brightness state. If the device status of the device group is the off status, it indicates that the zigbee first electric lamp and the zigbee second electric lamp are also in the respective off status in the scene group of the device status of the device group. The same is true for the device state of the device group being the 50% brightness state and the device state of the device group being the 100% brightness state. It can be seen that, for such a specific device group, the device state of the device group, i.e. the scene group of the device state of the device group, is the same as the specific device state of each zigbee of the device state of the device group.

In another example, the device states of each zigbee device under the same device group are different, so the program may give the device states of the device groups that are associated and mutually supported based on the specific device state of each zigbee device after analyzing the specific device states of such zigbee devices. For example, the device group formed by the zigbee light and the zigbee air conditioner, the device state related state and the on state of the zigbee light, the device state related state and the sleep operation state of the zigbee air conditioner, and the program may give the device state of the device group in which the zigbee light is in the off state and the zigbee air conditioner is in the sleep operation state under the device group.

Moreover, for a plurality of scene groups of the same device group that is created, there may be a plurality of scene groups under which the same zigbee device is simultaneously located in the device group, and for a plurality of scene groups of different device groups that are created, there may be a plurality of different zigbee devices in a plurality of different device groups, which is specific to a particular situation, and is not limited herein. Therefore, if a zigbee device is used as an object to describe a device group and a scene group, the zigbee device may be simultaneously located in different device groups, or in different scene groups under the same device group, and the specific device states of the zigbee devices in different scene groups are different, which is determined by the fact and is not limited herein.

203. The user equipment stores the first binding relationship and the second binding relationship.

And after the user completes the creation of the device group and the scene group through the program of the user equipment, the program saves the first binding relationship and the second binding relationship. The first binding relationship is a relationship between the device group and each scene group under the device group, so that all scene groups of the device group can be determined through the known device group and the known first binding relationship, and the first binding relationship has a corresponding identifier, which is the same as the identifier of the device group. The second binding relationship is a relationship among a scene group of the device group, each zigbee device under the scene group, and a specific device state of each zigbee device under the scene group, so that the specific device state of each zigbee device and each zigbee device of the scene group can be determined through the known scene group and the known second binding relationship, and the second binding relationship has a corresponding identifier, which is the same as the identifier of the scene group. Therefore, the first binding relationship and the second binding relationship are established based on the device group and the scene group under the device group, so that the first binding relationship corresponds to the second binding relationship, just as the device group corresponds to the scene group, and the corresponding first binding relationship and the second binding relationship have common content, namely the scene group, so that after the first binding relationship and the second binding relationship can be associated through the scene group, specific device states of all the scene groups under the device group and each zigbee device of each scene group can be known.

It should be noted that the first binding relationships correspond to the device groups and have the same number, and the second binding relationships correspond to each scene group of the same device group and have the same number, where the identifiers of the second binding relationships of different first binding relationships may be the same, and the identifiers of different first binding relationships are different. Therefore, the program of the user equipment has at least one first binding relationship and at least one second binding relationship, and the corresponding first binding relationship and the second binding relationship exist between the program of the user equipment and the program of the user equipment. Therefore, when the device group identifier is obtained, the first binding relationship of the device group identifier and each scene group of the device group corresponding to the first binding relationship can be determined. If a scene group identifier of the device group is also known, the second binding relationship corresponding to the scene group identifier and the specific device state corresponding to each zigbee device and each zigbee device of the scene group may be determined from all the second binding relationships corresponding to the first binding relationship.

For examples of the first binding relationship and the second binding relationship, please refer to the first binding relationship example in step 103, and refer to the second binding relationship example in step 104.

204. And the user equipment sends the first binding relationship and the second binding relationship to the target zigbee equipment.

And after the program of the user equipment saves the first binding relationship and the second binding relationship, the user equipment sends the first binding relationship and the second binding relationship to the target zigbee equipment.

Specifically, the program of the user equipment determines each target scene group of the target zigbee equipment, and determines the second binding relationship and the first binding relationship associated with each target scene group through each target scene group, so that the second binding relationship and the first binding relationship associated with each target scene group are sequentially sent to the target zigbee equipment through the server and the gateway.

It should be noted that there is at least one target zigbee device, and the specific number is determined by the specific device group and the specific scene group created by the user through the user device program, which is not limited herein. Therefore, when the user equipment sends the first binding relationship and the second binding relationship to the target zigbee equipment, the user equipment actually sends the first binding relationship and the second binding relationship to at least one target zigbee equipment, and therefore the number of the sent first binding relationship and the number of the sent second binding relationship are respectively at least one and correspond to different target zigbee equipment.

205. And the target zigbee equipment receives and stores the first binding relationship and the second binding relationship.

And receiving the corresponding first binding relation and the corresponding second binding relation at each target zigbee device, and storing the corresponding first binding relation and the corresponding second binding relation by each target zigbee device for later receiving the trigger instruction and switching to the device state required by the trigger instruction according to the trigger instruction.

It should be noted that, in the process of receiving by each target zigbee device, each target zigbee device may switch to a target state corresponding to the first binding relationship and the second binding relationship according to the first binding relationship and the second binding relationship, or may switch to a target state corresponding to the first binding relationship and the second binding relationship not according to the first binding relationship and the second binding relationship, which is not limited herein. Based on step 203, the first binding relationship and the second binding relationship received by each target zigbee device are associated.

206. The user equipment creates a first correspondence and a second correspondence.

After the user completes the creation of the device group and the scene group through the program of the user equipment, the user determines a control panel in communication connection with each zigbee device under the device group through the program of the user equipment, wherein the control panel has a plurality of keys and each key has at least one key action. Then, the user selects a key identifier corresponding to the device group through a program of the user device, where the key identifier represents a key corresponding to the key identifier in the control panel, so as to create a first corresponding relationship between the device group and the key in the control panel, where the first corresponding relationship is also to establish a relationship between the device group and the key. If the device group has at least one scene group, the user also selects the key action identifier of each scene group in the at least one scene group through a program of the user equipment, the key action identifier represents the key action of the key of the corresponding device group in the control panel, so that a one-to-one corresponding second corresponding relationship between each key action under each key and each scene group under the device group is created, and the second corresponding relationship also relates the key action to one scene group of the device group. In summary, each key of the control panel corresponds to one device group, and if there are multiple scene groups in the device group, each key action for each key corresponds to each scene group of the device group. Therefore, the key action of each key corresponds to each zigbee device of a scene group under the device group and the specific device state of each zigbee device, so that when a user triggers the zigbee device to switch to the target device state of the zigbee device, the user only needs to know the key and the key action of the zigbee device which belong to the control panel, and the zigbee device can be triggered to switch to the target device state.

In one example, the control panel has 4 keys, each having 4 identical key actions. Therefore, 4 keys of the control panel may correspond to at most 4 device groups, where each device group has at most 4 scene groups. The 4 key actions may be determined by the number of key presses, for example, for the same key press, a key press action is one key press and corresponds to a scene group of the device group corresponding to the key press, a key press action is two key presses and corresponds to another scene group of the device group corresponding to the key press, and so on, but at most four key presses are performed.

It should be noted that, if a user has and creates an equipment group and a plurality of scene groups under the equipment group through a program of the user equipment, a first corresponding relationship and a second corresponding relationship are created in a one-to-one correspondence between each scene group under the equipment group and each key of the control panel, that is, each key binds the first corresponding relationship and the second corresponding relationship at the same time, or each key binds one scene group under the equipment group.

In one example, the control panel also has 4 keys, but each key corresponds to the same device group, and the key action of each key corresponds to one scene group of the device group, for example, the key action of each key is one key.

It should be further noted that any key action under each key of the control panel corresponds to at least one zigbee device and a specific device state of the zigbee device, and the specific number is determined by a specific device group and a specific scene group created by the user through the user device program, and is not limited herein specifically, so that the user through the key action of the control panel may trigger at least one zigbee device to enter its corresponding specific device state.

207. And the user equipment sends the first corresponding relation and the second corresponding relation.

And after the user completes the creation of the first corresponding relation and the second corresponding relation through a program of the user equipment, the first corresponding relation and the second corresponding relation are sequentially sent to the control panel through the server and the gateway.

208. The control panel receives and stores the first corresponding relation and the second corresponding relation.

The control panel receives a first corresponding relation and a second corresponding relation which sequentially pass through the user equipment, the server and the gateway, and stores the first corresponding relation and the second corresponding relation, so that each key of the control panel and each key action under each key are related to the equipment states of the zigbee equipment and the zigbee equipment represented by the first corresponding relation and the second corresponding relation to establish a trigger relation.

It should be noted that, the correspondence between each key and each key action and the first corresponding relationship and the second corresponding relationship of the control panel is created through the identifier of the key and the identifier of the key action, that is, each first corresponding relationship is associated with the identifier of each key one by one, and each second corresponding relationship under each first corresponding relationship is associated with the identifier of each key action under the key one by one, so that the key and the key action, and the first corresponding relationship and the second corresponding relationship are both associated correspondingly for the middle bridge through the identifier of the key and the identifier of the key action.

209. And the control panel receives the target key action triggered by the target key.

If the user triggers the target key action of the target key of the control panel, the control panel receives the target key action triggered by the user to the target key.

210. The control panel determines a group of target devices and a group of target scenes.

The control panel obtains a first corresponding relation corresponding to a key to which the target key action belongs from all first corresponding relations stored in the control panel according to the key to which the target key action belongs, then determines a second corresponding relation associated with the target key action from all second corresponding relations in the first corresponding relation through the target key action, then determines a target scene group or a target scene group identifier from the second corresponding relation, and determines a target equipment group or a target equipment group identifier from the first corresponding relation.

211. And the control panel sends the target equipment group identification and the target scene group identification to the target zigbee equipment.

After the control panel determines the identifier of the target device group and the identifier of the target scene group, the control panel broadcasts the identifier of the target device group and the identifier of the target scene group to all zigbee devices in communication connection with the control panel, all the zigbee devices necessarily contain the target zigbee devices, so that the identifier of the target device group and the identifier of the target scene group are sent to the target zigbee devices corresponding to the identifiers of the target device group and the target scene group, and the device state of the target zigbee devices is triggered to be switched to the specific device state of the target zigbee devices in the target scene group in the target device group.

212. And the target zigbee equipment receives the identification of the target scene group and the identification of the target equipment group sent by the control panel.

After the control panel broadcasts the identifier of the target device group and the identifier of the target scene group to all the zigbee devices, only the zigbee devices corresponding to the identifier of the target scene group and the identifier of the target device group are matched to receive the identifier of the target scene group and the identifier of the target device group, which are also the target zigbee devices.

213. The target zigbee device determines the target device state.

After the target zigbee equipment receives the identifier of the target scene group and the identifier of the target equipment group, the target zigbee equipment finds a first binding relationship corresponding to the identifier of the target scene group and a second binding relationship corresponding to the identifier of the target equipment group from the first binding relationship and the second binding relationship which are locally stored, and then determines the state of the target equipment through the first binding relationship and the second binding relationship.

Specifically, the target zigbee device determines a first binding relationship associated with the identifier of the target device group from all locally stored first binding relationships (because the identifier of the device group is the same as the identifier of the first binding relationship, and the content of the first binding relationship is all scene groups corresponding to the device group) where the first binding relationship corresponds to all second binding relationships associated therewith, and then determines the identifier of the scene group that is the same as the identifier of the target scene group from the identifiers of all scene groups in the first binding relationship because the first binding relationship includes the identifiers of all scene groups corresponding to the first binding relationship, and after determining the identifier of the scene group that is the same as the identifier of the target scene group, can determine a second binding relationship corresponding to the identifier of the target scene group through the identifier of the scene group (because the identifier of the scene group and the identifier of the second binding relationship) The identity of the system is the same), and then find the target device state from the second binding (because the second binding contains the device states of the scene group and the target zigbee device).

214. And the target zigbee equipment is switched to the target equipment state.

And after the target zigbee equipment determines the target equipment state of the target zigbee equipment, the target zigbee equipment is switched to the target equipment state.

It should be noted that the number of the target zigbee devices is at least one, and the specific number is determined by the specific device group and the specific scene group created by the user through the user device program, which is not limited herein.

215. The user equipment receives the trigger operation of the target scene group.

After the user creates the device group and the scene group through the user equipment, the user executes the trigger operation on the target scene group through a program of the user equipment, and the user equipment receives the trigger operation. Then, based on the trigger operation on the target scene group, the program of the user equipment determines the identifier of the target scene group, determines a first binding relationship corresponding to the target scene group from all the second binding relationships stored locally, and determines the target equipment group and the identifier of the target equipment group from the first binding relationship.

216. And the user equipment sends the identification of the target scene group and the identification of the target equipment group to the target zigbee equipment.

After the program of the user equipment determines the identifier of the target scene group and the identifier of the target equipment group, the user equipment sends the identifier of the target equipment group and the identifier of the target scene group to the target zigbee equipment through the server and the gateway in sequence, so that the equipment state of the target zigbee equipment is triggered to be switched to the specific equipment state of the target zigbee equipment in the target scene group in the target equipment group.

The gateway broadcasts the identifier of the target device group and the identifier of the target device group to all zigbee devices in communication connection with the gateway, wherein all the zigbee devices necessarily include the target zigbee devices, but only the target zigbee devices matched with the identifier of the target device group and the identifier of the target scene group receive the target zigbee devices corresponding to the identifiers of the target device group and the target device group.

It should be noted that the number of target zigbee devices is at least one, and the specific number is determined by the specific device group and the specific scene group created by the user through the user device program, which is not limited herein.

217. And the target zigbee equipment receives the identification of the target scene group and the identification of the target equipment group sent by the user equipment.

After the user equipment sends the identifier of the target equipment group and the identifier of the target scene group to the target zigbee equipment, the identifier of the target scene group and the identifier of the target equipment group are received only after the zigbee equipment corresponding to the identifier of the target scene group and the identifier of the target equipment group is matched, and the zigbee equipment is also called the target zigbee equipment, so that the target zigbee equipment receives the identifier of the target scene group and the identifier of the target equipment group sent by the user equipment.

218. The target zigbee device determines the target device state.

Step 218 of this embodiment is similar to step 213 described above, and will not be described again.

219. And the target zigbee equipment is switched to the target equipment state.

Step 219 of this embodiment is similar to step 214 described above and will not be described again here.

It should be noted that steps 215 to 219 may not be limited to be performed after step 214, and may be performed simultaneously with any of steps 209 to 214 or before or after any of the steps. Furthermore, steps 215 to 219 and steps 209 to 214 may not be in the same embodiment, and the corresponding contents of creation are also the same.

In this embodiment, a user classifies zigbee devices in a device group according to the device states of the device group and the device group through a user device and a program of the user device, creates a device state that can be triggered in a later period for the zigbee devices in the scene group according to the scene group for the classified zigbee devices, creates a first corresponding relationship and a second corresponding relationship for triggering a target zigbee device to enter a target device state through a control panel in a later period on the control panel, and saves the first binding relationship and the second binding relationship for triggering the target zigbee device to enter the target device state in the later period on the program of the user device and the target zigbee devices. The equipment state of the zigbee equipment is quickly established in batches, the equipment state of the target zigbee equipment is triggered through the user equipment and the control panel, and user experience is provided.

The above embodiment describes the scene creation and triggering of the zigbee device, and further describes the non-zigbee device control method, please refer to fig. 3, which includes:

in this embodiment, the program loaded by the user equipment also stores the identifiers of all the possibly-operated non-zigbee devices, the identifier of each device state of all the possibly-operated non-zigbee devices, the identifier of each key of all the possibly-operated control panels, and the identifier of the key action of each key, and performs operation control on the identifiers, that is, performs operation control on the things corresponding to the identifiers. Therefore, in the whole creating process, the users create corresponding relations for later triggering among the users through the identity identifications based on the programs of the user equipment.

301. The user equipment determines a non-zigbee device.

A user programmatically selects a non-zigbee device via the user device to determine a post-operative non-zigbee device.

It is noted that all possible operational non-zigbee devices have been recorded by the program of the user device, as is given by the program.

302. The user equipment creates a scene.

After a user determines that a non-zigbee device is finished through the user equipment, a device state is selected based on a device state of at least one non-zigbee device, so as to establish a scene corresponding to the device state, and an identifier of the scene is created.

It should be noted that, because there are multiple device states of the non-zigbee device, a scenario corresponding to each device state can be created in a selective manner for each device state of the non-zigbee device, and how many scenarios a user creates for the same non-zigbee device through the user device depends on the user's requirement. The device status of the non-zigbee device is also given by the program.

In one example, one non-zigbee device may be a wifi device having an on state and an off state. When the user selects the wifi device through the user device, the program gives the on state and the off state of the wifi device, and based on the on state and the off state of the wifi device, the user selects the device state required by the user, so that a scene with the wifi device as an object is created, for example, when the user selects the on state of the wifi device, the scene with the on state of the wifi device is correspondingly created, and the scene with the off state is also the same.

303. The user equipment saves the third binding relationship.

After the user completes creation of a scene corresponding to the device state through the user equipment, the user saves the non-zigbee device, a device state of the non-zigbee device, and a third binding relationship between the scene corresponding to the device state of the non-zigbee device through the user equipment, creates a corresponding identifier for the third binding relationship, and the third binding relationship is associated with the non-zigbee device under the third binding relationship.

It should be noted that, a user may create a plurality of third bindings for the same non-zigbee device through the user device, where each third binding corresponds to each device state of the non-zigbee device, that is, each created scene. In the process of creating a scene for a non-zigbee device, a user creates a scene for the same non-zigbee device, and a third binding relationship exists correspondingly and is associated with the non-zigbee device.

In an example, the wifi device is also used as an object, and after the scene of the open state of the wifi device is completed, the wifi device, the third binding relationship between the wifi device and the scene corresponding to the open state of the wifi device, and the identifier of the third binding relationship, that is, the identifier of the scene in the third binding relationship, are created.

304. And the user equipment sends the third binding relationship to the gateway.

And after the third binding relationship is generated and stored, the user equipment sends the third binding relationship to the gateway for sending a state control instruction for switching to the state of the target equipment to the target non-zigbee equipment after receiving the trigger instruction at the later stage.

And the third binding relationship sent by the user equipment reaches the gateway by the server.

305. And the gateway receives and stores the third binding relationship sent by the user equipment.

And after the gateway receives the third binding relationship sent by the user equipment, the gateway stores the third binding relationship. Similarly, after the server receives the third binding relationship sent by the user equipment, the server stores the third binding relationship.

306. The user equipment creates a third correspondence and a fourth correspondence.

After the user completes creating the scene through the program of the user equipment, the user determines a control panel in communication connection with each non-zigbee device through the program of the user equipment, wherein the control panel has a plurality of keys and each key has at least one key action. Then, the user selects the key identifier corresponding to each non-zigbee device through the program of the user device, where the key identifier represents a key in the control panel corresponding to the key identifier, so as to create a third corresponding relationship between the non-zigbee device and the key in the control panel, where the third corresponding relationship is also to associate the non-zigbee device with the key. If the non-zigbee device has at least one scene, the user also selects, through the program of the user device, a key action identifier associated with each scene in the at least one scene, where the key action identifier is a key action representing a device state of the non-zigbee device corresponding to the control panel, so as to create a fourth correspondence between each key action under each key and each scene of the non-zigbee device, where the fourth correspondence is also to associate the key action with one scene of the non-zigbee device. In summary, each key of the control panel corresponds to a non-zigbee device, and if there are multiple scenes in the non-zigbee device, each key action for each key corresponds to each scene in the non-zigbee device. Therefore, the key action of each key corresponds to the specific equipment state of one scene under the non-zigbee equipment, so that when the user triggers the non-zigbee equipment to be switched to the target equipment state, the user only needs to know the key and the key action of the non-zigbee equipment which belongs to the control panel, and the non-zigbee equipment can be triggered to be switched to the target equipment state.

In one example, the control panel has 4 keys, each having 4 identical key actions. Thus 4 keys of the control panel may correspond to up to 4 non-zigbee devices each having up to 4 scenes. The 4 key actions may be determined by the number of key presses, for example, for the same key press, a key press action is one key press corresponding to one scene of the non-zigbee device corresponding to the key press, and a key press action is two key presses corresponding to another scene of the non-zigbee device, and so on, but at most four key presses are used as key presses.

It should be noted that, if a user has and creates a non-zigbee device and a plurality of scenes under the non-zigbee device through a program of the user device, a third corresponding relationship and a fourth corresponding relationship are created in a one-to-one correspondence between each scene under the non-zigbee device and each key of the control panel, that is, each key binds the third corresponding relationship and the fourth corresponding relationship at the same time, or each key binds a scene under the non-zigbee device.

In one example, the control panel also has 4 keys, but each key corresponds to the same non-zigbee device, and the key action of each key corresponds to one scene corresponding to the non-zigbee device, for example, the key action of each key is one key, and the key action of one key under each key corresponds to one scene of the same non-zigbee device respectively.

It should also be noted that any key action under each key of the control panel corresponds to a zigbee device and a specific device state of the zigbee device, so that a user can trigger a non-zigbee device to enter its corresponding specific device state through the key action of the control panel.

307. And the user equipment sends the third corresponding relation and the fourth corresponding relation to the control panel.

And after the user completes the establishment of the third corresponding relation and the fourth corresponding relation through a program of the user equipment, the third corresponding relation and the fourth corresponding relation are sequentially sent to the control panel through the server and the gateway.

308. And the control panel receives and stores the third corresponding relation and the fourth corresponding relation sent by the user equipment.

And the control panel receives a third corresponding relation and a fourth corresponding relation which sequentially pass through the user equipment, the server and the gateway, and stores the third corresponding relation and the fourth corresponding relation, so that each key of the control panel and each key action under each key establish a trigger relation with the scenes of the non-zigbee equipment and the non-zigbee equipment which are related and expressed by the third corresponding relation and the fourth corresponding relation.

It should be noted that the correspondence between each key and each key action and the third and fourth corresponding relationships of the control panel is created by the identifier of the key and the identifier of the key action, that is, each third corresponding relationship is associated with the identifier of each key one by one, and each fourth corresponding relationship under each third corresponding relationship is associated with the identifier of each key action under the key one by one, so that the key and the key action, and the third and fourth corresponding relationships are all associated correspondingly by the identifier of the key and the identifier of the key action as the middle bridge.

309. And the control panel receives the target key action triggered by the target key.

310. The control panel determines the target non-zigbee device and the target device status.

The control panel acquires a third corresponding relation corresponding to the key to which the target key action belongs from all third corresponding relations stored in the control panel according to the key to which the target key action belongs, then determines a fourth corresponding relation associated with the target key action from all fourth corresponding relations in the third corresponding relation through the target key action, then determines a target scene or an identifier of the target scene from the fourth corresponding relation, and determines an identifier of the target non-zigbee equipment or the target non-zigbee equipment from the third corresponding relation.

311. And the control panel sends a state control instruction to the target non-zigbee equipment.

After the control panel determines the target non-zigbee device and the target scene, a state control instruction is sent to the target non-zigbee device, wherein the state control instruction comprises the target non-zigbee device and the target scene of the target non-zigbee device.

The control panel sends a state control instruction to the non-zigbee equipment, specifically, the control panel sends the state control instruction to the gateway, the gateway determines all third binding relations associated with the target non-zigbee equipment from all third binding relations stored by the gateway according to the target non-zigbee equipment carried by the received state control instruction, then determines a third binding relation corresponding to the target scene from all third binding relations associated with the target non-zigbee equipment according to the target scene carried by the state control instruction, and finally determines the target equipment state of the target non-zigbee equipment from the third binding relations. After the gateway determines the states of the target non-zigbee device and the target device, the gateway broadcasts a control instruction including the target non-zigbee device and the target device state of the target non-zigbee device to all non-zigbee devices, because all non-zigbee devices include the target non-zigbee device and only the target non-zigbee device matched with the control instruction will receive the control instruction, the target non-zigbee device corresponding to the control instruction will receive the control instruction, and thus the control instruction including the target non-zigbee device and the target device state of the target non-zigbee device will be sent to the target non-zigbee device.

It should be noted that the control panel in this step cannot send a control command to the target non-zigbee device through the gateway, and the gateway may forward the state control command sent by the control panel to the gateway to the server, and the server sends the control command to the target non-zigbee device as if the gateway sent the target non-zigbee device.

312. And the target non-zigbee equipment is switched to the target equipment state.

And after the target non-zigbee equipment receives the state control instruction sent by the control panel, switching to the state of the target equipment based on the state control instruction.

After the control panel sends the state control instruction to the target zigbee device, the gateway actually sends the control instruction containing the target non-zigbee device and the target device state of the target non-zigbee device to the target non-zigbee device, and after the target non-zigbee device receives the control instruction, the target non-zigbee device switches the current device state to the target device state according to the target device state carried by the control instruction.

313. The user equipment receives a trigger operation on a target scene of a target non-zigbee device.

After the user creates the completed scene through the user equipment, the user executes the trigger operation on the target scene of the target non-zigbee equipment through the program of the user equipment, and the user equipment receives the trigger operation. Subsequently, the program of the user equipment determines the identifier of the target non-zigbee device and the identifier of the target scene corresponding to the trigger operation.

314. And the user equipment sends the identification of the target scene and the identification of the target non-zigbee equipment to the gateway.

And the user equipment sends the determined identification of the target non-zigbee equipment and the identification of the target scene to the gateway through the server.

315. And the gateway receives the identification of the target scene and the identification of the target non-zigbee equipment, which are sent by the user equipment.

And the gateway receives the identification of the target scene and the identification of the target non-zigbee equipment, which are sent by the user equipment.

316. The gateway determines the target non-zigbee device and the target device status.

After the gateway receives the identifier of the target scene and the identifier of the target non-zigbee device sent by the user equipment, the gateway determines all third binding relationships associated with the target non-zigbee device from all locally stored third binding relationships according to the received identifier of the target non-zigbee device, then determines a third binding relationship corresponding to the identifier of the target scene from all third binding relationships associated with the target non-zigbee device according to the identifier of the target scene, and finally determines the target device state of the target non-zigbee device from the third binding relationship.

317. And the gateway generates a state control instruction to the target non-zigbee equipment.

And when the gateway determines the states of the target non-zigbee equipment and the target equipment, sending a state control instruction to the target non-zigbee equipment, wherein the state control instruction carries the states of the target non-zigbee equipment and the target equipment.

Specifically, the gateway broadcasts the state control instruction including the target non-zigbee device and the target device state of the target non-zigbee device to all non-zigbee devices, because all non-zigbee devices include the target non-zigbee device and only the target non-zigbee device matching the state control instruction will receive the state control instruction, the target non-zigbee device corresponding to the state control instruction will receive the state control instruction, and thus the state control instruction including the target non-zigbee device and the target device state of the target non-zigbee device is sent to the target non-zigbee device.

318. And the target non-zigbee equipment is switched to the target equipment state.

And after the target non-zigbee equipment receives the state control instruction, the target non-zigbee equipment switches the current equipment state to the target equipment state based on the target equipment state carried by the state control instruction.

It should be noted that steps 313 to 318 may not be limited to be performed after step 312, and may be performed simultaneously with any of steps 309 to 312 or before or after any of the steps. Furthermore, steps 309 to 312 and 313 to 318 may be different from each other in the same embodiment, and the corresponding creation contents of the two may be the same.

Further, referring to fig. 4, the present embodiment provides a zigbee device control device, including:

a first creating module 401, configured to create at least one device group, where the device group includes at least one zigbee device having at least one device state;

a second creating module 402, configured to create at least one scene group according to device states of zigbee devices in the same device group, where the device states of zigbee devices in the same scene group are associated with the same scene;

a first saving module 403, configured to save a first binding relationship between the device group and a scene group corresponding to the device group; and the number of the first and second groups,

a second saving module 404, configured to save a second binding relationship among the scene group, the zigbee devices included in the scene group, and the device states of the zigbee devices included in the scene group, where the first binding relationship and the second binding relationship are used to trigger the zigbee devices included in the scene group corresponding to the device group to enter a bound device state.

Further, referring to fig. 5, the present embodiment further provides a zigbee device control device, including:

a receiving module 501, configured to receive a first corresponding relationship and a second corresponding relationship sent by a user equipment;

a saving module 502, configured to save the first corresponding relationship and the second corresponding relationship sent by the user equipment; the first corresponding relation is a corresponding relation between an equipment group and a key, the equipment group comprises at least one zigbee equipment, and the zigbee equipment has at least one equipment state; the second corresponding relation is the corresponding relation between the key action of the key and a scene group, and the equipment states of the zigbee equipment in the same scene group are associated with the same scene.

Further, referring to fig. 6, the present embodiment further provides a zigbee apparatus, including:

a receiving module 601, configured to receive a first binding relationship and a second binding relationship sent by a user equipment;

a saving module 602, configured to save the first binding relationship and the second binding relationship sent by the user equipment;

Further, referring to fig. 7, the present embodiment further provides a non-zigbee device control device, including:

a determining module 701, configured to determine at least one non-zigbee device to be controlled, where the non-zigbee device has at least one device state;

a creating module 702, configured to create a scene corresponding to the device state according to the device state of the non-zigbee device;

a saving module 703, configured to save a third binding relationship among the non-zigbee device, the device state, and the scene.

Further, referring to fig. 8, the present embodiment further provides a zigbee gateway, including:

a receiving module 801, configured to receive a third binding relationship between a non-zigbee device, a device state of the non-zigbee device, and a scene, where the non-zigbee device has at least one device state, and the scene is generated according to the device state of the non-zigbee device, sent by a user equipment;

a saving module 802, configured to save a third binding relationship between a non-zigbee device and a device state of the non-zigbee device sent by the user equipment, and a scene;

a determining module 803, configured to determine, according to the third binding relationship, a target non-zigbee device and a target device state corresponding to the identifier of the target scene if the identifier of the target non-zigbee device and the identifier of the target scene sent by the user equipment are received;

a sending module 804, configured to send a state control instruction to the target non-zigbee device, where the state control instruction is used to control the target non-zigbee device to switch to the target device state.

Further, referring to fig. 9, the present embodiment further provides a non-zigbee apparatus, including:

a receiving module 901, configured to receive and store the first binding relationship and the second binding relationship sent by the user equipment;

a saving module 902, configured to save the first binding relationship and the second binding relationship sent by the user equipment;

Fig. 10 is a schematic structural diagram of a zigbee device control device according to an embodiment of the present application, where the zigbee device control device 1001 may include one or more Central Processing Units (CPUs) 1002 and a memory 1004, and the memory 1004 stores one or more applications or data.

Memory 1004 may be volatile storage or persistent storage, among other things. The program stored in the memory 1004 may include one or more modules, each of which may include a series of instruction operations for a zigbee device control apparatus. Further, the central processor 1002 may be arranged to communicate with the memory 1004 to execute a series of instruction operations in the memory 1004 on the zigbee device control device 1001.

The zigbee device control device 1001 may also include one or more power supplies 1003, one or more wired or wireless network interfaces 1005, one or more input-output interfaces 1006, and/or one or more operating systems, such as Windows Server, Mac OS XTM, UnixTM, LinuxTM, FreeBSDTM, etc.

The zigbee device control device 1001 may perform the operations in the embodiments shown in fig. 1 or fig. 2, and details thereof are not described herein.

Fig. 11 is a schematic structural diagram of a non-zigbee device control device according to an embodiment of the present application, where the non-zigbee device control device 1101 may include one or more Central Processing Units (CPUs) 1102 and a memory 1104, and one or more applications or data are stored in the memory 1104.

Memory 1104 may be volatile storage or persistent storage, among others. The program stored in the memory 1104 may include one or more modules, each of which may include a sequence of instruction operations for controlling devices of a non-zigbee device. Still further, the central processor 1102 may be configured to communicate with the memory 1104 to execute a series of instruction operations in the memory 1104 on the non-zigbee device control device 1101.

The non-zigbee device control device 1101 may also include one or more power supplies 1103, one or more wired or wireless network interfaces 1105, one or more input-output interfaces 1106, and/or one or more operating systems, such as Windows Server, Mac OS XTM, UnixTM, LinuxTM, FreeBSDTM, etc.

The non-zigbee device control device 1101 may perform the operations in the embodiment shown in fig. 3, and details thereof are not described herein.

It is clear to those skilled in the art that, for convenience and brevity of description, the specific working processes of the above-described systems, apparatuses and units may refer to the corresponding processes in the foregoing method embodiments, and are not described herein again.

In the several embodiments provided in the present application, it should be understood that the disclosed system, apparatus and method may be implemented in other manners. For example, the above-described apparatus embodiments are merely illustrative, and for example, the division of the units is only one logical division, and other divisions may be realized in practice, for example, a plurality of units or components may be combined or integrated into another system, or some features may be omitted, or not executed. In addition, the shown or discussed mutual coupling or direct coupling or communication connection may be an indirect coupling or communication connection through some interfaces, devices or units, and may be in an electrical, mechanical or other form.

The units described as separate parts may or may not be physically separate, and parts displayed as units may or may not be physical units, may be located in one place, or may be distributed on a plurality of network units. Some or all of the units can be selected according to actual needs to achieve the purpose of the solution of the embodiment.

In addition, functional units in the embodiments of the present application may be integrated into one processing unit, or each unit may exist alone physically, or two or more units are integrated into one unit. The integrated unit can be realized in a form of hardware, and can also be realized in a form of a software functional unit.

The integrated unit, if implemented in the form of a software functional unit and sold or used as a stand-alone product, may be stored in a computer readable storage medium. Based on such understanding, the technical solution of the present application may be substantially implemented or contributed to by the prior art, or all or part of the technical solution may be embodied in a software product, which is stored in a storage medium and includes instructions for causing a computer device (which may be a personal computer, a server, or a network device) to execute all or part of the steps of the method according to the embodiments of the present application. And the aforementioned storage medium includes: a U-disk, a removable hard disk, a read-only memory (ROM), a Random Access Memory (RAM), a magnetic disk or an optical disk, and the like.

Claims

1. A non-zigbee device control method is applied to user equipment, and the method comprises the following steps:

2. The non-zigbee device control method according to claim 1, further comprising:

3. The non-zigbee device control method according to claim 1, further comprising:

4. The non-zigbee device control method according to claim 1, further comprising:

5. A non-zigbee equipment control method is applied to a zigbee gateway, and comprises the following steps:

determining the target non-zigbee equipment and the target equipment state corresponding to the identifier of the target scene according to the third binding relationship;

and sending a state control instruction to the target non-zigbee equipment, wherein the state control instruction is used for controlling the target non-zigbee equipment to be switched to the target equipment state.

6. A non-zigbee device control method is applied to a control panel, the control panel comprises at least one key, the key corresponds to at least one key action, and the control panel is in communication connection with at least one non-zigbee device, and the method comprises the following steps:

7. The non-zigbee device control method of claim 6, further comprising:

8. A non-zigbee device control device, comprising:

9. A zigbee gateway, comprising:

10. A computer-readable storage medium, characterized in that a program is stored in the computer-readable storage medium, which, when executed by the computer, performs the method according to any one of claims 1 to 7.

11. A computer program product, characterized in that when the computer program product is executed on a computer, the computer performs the method according to any of claims 1 to 7.