CN117221028A - Configuration method and configuration system of intelligent equipment - Google Patents

Abstract

The invention discloses a configuration method and a configuration system of intelligent equipment, wherein in the steps S1 to S4, a construction work order generated by web end design is sent to a construction mobile terminal, so that construction is conveniently carried out by constructors according to the construction work order requirement, and the construction efficiency is improved; step S5, the intelligent equipment is electrified to enter a network distribution state, and the intelligent equipment is searched and added to realize networking; the construction template of the step S2 and the setting of the data packet comprising the intelligent equipment debugging information can be used for storing the data packet for one-key debugging of the intelligent equipment state according to construction requirements in advance, so that when the intelligent equipment state is set later, one-key debugging can be completed only by downloading the data packet, and the configuration efficiency of the intelligent equipment is effectively improved. The setting of the client mobile terminal is convenient for the client to independently configure and control the intelligent equipment, and is beneficial to the maintenance of the intelligent equipment through one-key replacement and one-key restoration function in the later period of equipment failure.

Description

Configuration method and configuration system of intelligent equipment

Technical Field

The invention relates to the field of intelligent home furnishing, in particular to a configuration method and a configuration system of intelligent equipment.

Background

With the increasing progress of technology and the pursuit of higher quality of life by people, smart home is becoming more favored. Currently, various types of smart home related products exist on the market for consumers to choose from. Such as intelligent ceiling lights, intelligent curtains, intelligent switches, intelligent sockets, etc.

The Chinese patent publication No. CN114374604B discloses an intelligent home configuration method storage medium and system in an offline mode, which comprises a management platform of a cloud service end and an operation APP of an intelligent construction mobile terminal, and can help constructors to complete a series of deployment operations such as room generation, intelligent home addition, scene configuration and the like under the conditions of no network and complex environment on site; meanwhile, special construction templates are adopted for batch construction, constructors can simply operate according to the construction templates, the technical requirements on the constructors are obviously reduced, and the cost of training constructors of enterprises is saved.

However, when a new house is decorated, people generally need to purchase different types of intelligent devices for installation according to the requirements of different rooms, and need to debug the state of each intelligent device, for example, the lighting device needs to manually debug proper lighting effect, so that the configuration efficiency is slower.

Therefore, how to overcome the above-mentioned drawbacks has become an important issue to be solved by the person skilled in the art.

Disclosure of Invention

The invention overcomes the defects of the technology and provides a configuration method and a control method of intelligent equipment.

In order to achieve the above purpose, the present invention adopts the following technical scheme:

the first aspect of the embodiment of the invention discloses a configuration method of intelligent equipment, which comprises the following steps:

s1, creating a construction project on a web end according to construction room source information, and adding corresponding constructors according to the construction project;

s2, creating a construction template at the web end according to construction requirements proposed by a house source client;

s3, saving the information created and added in the steps S1 and S2 to generate a construction work order;

s4, sending the construction work order to the construction mobile terminal from the web end, and selecting a corresponding construction work order by constructors and checking construction information on the construction work order to install the intelligent equipment;

s5, electrifying the intelligent equipment which is installed, and realizing networking configuration of the intelligent equipment and the construction mobile terminal;

wherein, the construction template of step S2 includes: the intelligent equipment debugging system comprises a construction mobile terminal, a construction work order, a data packet, a construction mobile terminal constructor and a data packet, wherein the data packet is stored with intelligent equipment debugging information, the data packet is sent to the construction mobile terminal along with the construction work order, and after the intelligent equipment completes networking configuration with the construction mobile terminal, the construction mobile terminal constructor debugs the intelligent equipment into a required scene state by downloading the data packet.

As a preferred embodiment, the "creating a construction template on the web side according to the actual construction requirement" described in step S2 includes:

creating a construction data collection template according to construction requirements of intelligent equipment on a house source;

creating a room management template according to room information on a room source, wherein different room sub-templates are arranged on the room management template;

according to the intelligent equipment actually required to be installed in the room of the house source, adding intelligent equipment information on the corresponding room sub-template;

creating a database at a web end according to the intelligent equipment information added on the room sub-template, creating an intelligent equipment debugging information table in the database, presetting different debugging information in the intelligent equipment debugging information table according to different scene requirements to generate a data packet, and storing the data packet into the database;

wherein, the construction data collection template includes: the intelligent equipment list, the intelligent equipment installation point positions and the intelligent equipment construction drawing.

As a preferred embodiment, the smart device debug information table includes at least:

instruction information for controlling the intelligent device to be opened/closed, instruction information for controlling the intelligent device to be in a certain functional state, and instruction information for controlling the intelligent device to be in a certain functional state and adjusting the functional state to be in a certain parameter.

As a preferred embodiment, the "creating a construction template on the web side according to the actual construction requirement" described in step S2 further includes:

according to different scene demands, different intelligent devices are formed into a group, a group device debugging information table for debugging the device state in the group is established in a database, the debugging information of all intelligent devices in the group is preset in the group device debugging information table according to the different scene demands to generate a group debugging data packet, and the group debugging data packet is stored in the database;

wherein, the group device debug information table at least comprises: the control method comprises the steps of controlling instruction information of on/off of all intelligent devices in a group, controlling instruction information of all intelligent devices in a certain functional state in the group, controlling instruction information of all intelligent devices in the group in a certain functional state and adjusting the functional state in a certain parameter.

As a preferred embodiment, the "powering on the smart device after the smart device is installed and implementing the networking configuration of the smart device and the construction mobile terminal" described in step S5 includes:

electrifying the intelligent equipment which is installed to enter a distribution network state;

Searching intelligent equipment in a construction mobile terminal through a network, and selecting to add the intelligent equipment singly or in batches in the construction mobile terminal;

setting corresponding point positions of the intelligent equipment and storing point position data so as to realize networking configuration of the intelligent equipment and the construction mobile terminal.

As a preferred embodiment, the method further comprises the steps of:

if part of intelligent devices do not enter the network distribution state, firstly networking the intelligent devices which enter the network distribution state, and then resetting the intelligent devices which do not enter the network distribution state;

after the intelligent equipment is debugged, checking whether the equipment can be normally used.

As a preferred embodiment, after step S5, the following steps are further included:

s6, manually fine-tuning the intelligent equipment according to the actual use field Jing Xuqiu of the intelligent equipment in the room;

s7, after the debugging of all intelligent equipment is completed, submitting a construction work order and handing over the construction work order to a construction mobile terminal or a web end to indicate that the construction work order is completed;

the construction mobile terminal or the web terminal stores debugging data when the construction work order is submitted, and the debugging data is used as original data for one-key recovery of the intelligent equipment;

S8, the construction mobile terminal or the web terminal binds the handed over construction work order information with the client mobile terminal and sends the construction work order information to the client mobile terminal;

s9, the house source client manages and configures the intelligent equipment on the client mobile terminal.

As a preferred embodiment, the "house source client manages and configures the smart device on the client mobile terminal" in step S8 includes:

receiving and checking the construction work order information transferred from the transfer device;

controlling the intelligent device to execute a scene action or independently controlling a certain intelligent device to execute a certain action according to the existing scene state;

sharing construction work order information to client mobile terminals of other households of the same house source;

DIY new scenes according to actual scene requirements;

the new scene according to the actual scene demand D IY includes:

naming the scenes;

selecting intelligent devices needed by realizing the scene, and correspondingly selecting actions needed to be executed by each intelligent device;

for the intelligent lamp equipment, the light efficiency required by each equipment is also required to be set;

scene information is saved to generate a new scene.

As a preferred embodiment, the method further comprises the steps of:

When a certain intelligent device fails, replacing the new intelligent device, and synchronizing debugging data of the original intelligent device into the new intelligent device at the client mobile terminal so as to realize one-key replacement of the intelligent device;

when the initial state of the intelligent equipment needs to be restored, the original debugging data of the intelligent equipment is re-called to the corresponding intelligent equipment at the client mobile terminal, so that the intelligent equipment is restored to the initial state by one key.

The second aspect of the embodiment of the invention discloses a configuration system of intelligent equipment, comprising a web terminal 100, a construction mobile terminal 200 and a client mobile terminal 300, wherein the web terminal 100 is used for generating a construction work order and sending the construction work order to the construction mobile terminal 200, the construction mobile terminal 200 is used for receiving construction work order information and carrying out installation and networking configuration on the intelligent equipment according to the construction work order, and the client mobile terminal 300 is used for receiving and managing debugging information of the intelligent equipment which is handed over by the web terminal 100/the construction mobile terminal 200 and carrying out control and configuration on the intelligent equipment according to own requirements;

the web terminal 100 is provided with a construction work order input module 11, a construction work order generation module 12, a database module 13, a first receiving module 14 and a first sending module 15, wherein the construction work order input module 11 comprises: the construction work order generation module 12 is used for generating a construction work order according to the information added by the construction work order input module 11, and the database module 13 is used for storing the construction work order information and a data packet of one-key debugging intelligent equipment state; the first receiving module 14 is configured to receive the configured work order information handed over from the construction mobile terminal 200; the first sending module 15 is configured to send the generated construction work order to the construction mobile terminal 200 and send the configured construction work order information to the client mobile terminal 300;

The construction mobile terminal 200 is provided with a second receiving module 21 for receiving a construction work order generated by the web terminal 100, a networking configuration module 22 for realizing networking of intelligent equipment and configuring the intelligent equipment according to construction requirements, a first storage module 23 for storing networking configuration information, and a second sending module 24 for sending the configured construction work order information to the client mobile terminal 300;

the client mobile terminal 300 is provided with a third receiving module 31 for receiving the configured construction work order information transmitted from the web terminal 100 or the construction mobile terminal 200, a processing module 32 for managing and controlling the smart device, a scene generating module 33 for different scenes of D IY, a second storing module 34 for storing the transmitted construction work order information and for storing new scene information generated by D IY, a data replacing module 35 for replacing the debug data of the old smart device with one key on the new smart device, and a data recovering module 36 for recovering the smart device with one key to an initial state.

Compared with the prior art, the embodiment of the invention has the following beneficial effects:

1. in the arrangement of the steps S1 to S4 in the first embodiment of the invention, the construction work order generated by the web terminal is sent to the construction mobile terminal, so that constructors can check on the construction mobile terminal and construct according to the construction work order requirement, and the construction efficiency can be improved; step S5, the intelligent equipment is electrified to enter a network distribution state, and the intelligent equipment is searched and added to realize networking; the construction template of the step S2 and the setting of the data packet comprising the intelligent equipment debugging information can be used for storing the data packet for one-key debugging of the intelligent equipment state according to construction requirements in advance, so that when the intelligent equipment state is set later, one-key debugging can be completed only by downloading the data packet, and the configuration efficiency of the intelligent equipment is effectively improved.

2. According to the first embodiment of the invention, the construction data collection template is arranged, so that constructors can more intuitively know the installation information and the specific installation position of the intelligent equipment, the construction data collection template is beneficial to the operation of constructors, and the installation accuracy of the intelligent equipment is improved. The room management template, the room sub-templates and the setting of adding the intelligent equipment information on the corresponding room sub-templates are convenient for inputting the position information of the intelligent equipment actually installed in a certain room on a house source into the templates, so that the follow-up constructors can directly check construction work orders to set the point positions of the intelligent equipment, and the configuration efficiency is further improved. By creating a database at the web end and creating and setting an intelligent device debugging information table in the database to generate a data packet, constructors at the construction mobile terminal can automatically debug the state of each intelligent device by downloading the data packet through one key, and configuration efficiency is greatly improved. Moreover, according to different scene requirements, the intelligent device debugging information can be modified to generate different data packets, so that different configuration requirements are met.

3. In the first embodiment of the invention, the group device debugging information table is built in the database and the group debugging data packet is generated, so that on one hand, the construction personnel can realize the scene configuration of a plurality of intelligent devices, the state of each intelligent device is not required to be configured, and then each required scene is formed, and the scene configuration efficiency is improved; on the other hand, the method is beneficial to realizing different scene configurations by establishing a plurality of groups, and meets the requirements of residents with different house sources.

4. According to the embodiment of the invention, intelligent equipment is added in batches so as to realize quick networking; through setting and saving of point location data, intelligent equipment and corresponding point locations can be bound one by one so that the intelligent equipment at which corresponding position can be directly checked when a house source user uses the intelligent equipment in a follow-up mode is controlled, and the intelligent equipment is convenient to use.

5. According to the embodiment of the invention, the original data of the construction work order is reserved, so that the original data can be called by one key for recovery when the subsequent fine adjustment effect is unsatisfactory, and the reconfiguration efficiency is improved. Through the setting of the client mobile terminal, on the basis of realizing the configuration of constructors, the configuration of the intelligent equipment by the house source client can be realized, so that the follow-up house source client can independently complete the configuration and control of the intelligent equipment after the constructors leave, and the intelligent equipment configuration system is convenient to use.

6. In the second embodiment of the present disclosure, the web end is provided with a construction work order input module and a construction work order generation module, so as to generate construction work order information. The database module is convenient for storing construction work order information on the web end and storing data installation packages, is favorable for setting required states by one key of a follow-up construction mobile terminal, and effectively improves networking configuration efficiency. The first receiving module and the first sending module are arranged so as to receive construction work order information of construction completion in time and send the generated construction work order information in time. The project management unit, the intelligent equipment management unit and the account management unit of the construction work order input module enable the construction work order input module to be clear in work division, and are beneficial to inputting and filling by a web terminal user. The second receiving module, the networking configuration module, the first storage module and the second sending module of the construction work order of the construction mobile terminal are arranged, so that constructors of the construction mobile terminal can process the construction work order and store processed data in time, and efficiency of early networking and configuration is improved. The third receiving module, the processing module, the scene generating module, the second storage module, the data replacing module and the data recovering module of the client mobile terminal are convenient for the house source client to manage and configure the intelligent device, can meet the requirement of the house source client on self-configuring the scene, and meanwhile facilitate the later maintenance and recovery of the intelligent device, and improve the use experience of the house source client.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings that are needed in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic flow chart of a first embodiment of the present invention;

FIG. 2 is a schematic diagram of the structure of a second embodiment;

fig. 3 is a schematic structural diagram of a construction work order entry module according to a second embodiment of the present invention.

Fig. 4 is an interface schematic diagram of setting a corresponding point location of an intelligent device in a construction mobile terminal according to an embodiment of the present invention.

Fig. 5 is an interface diagram of a synchronous downloading of group debug data packets to a construction mobile terminal according to an embodiment of the present invention.

Fig. 6 is an interface display diagram of a construction mobile terminal according to the first embodiment of the present invention after having synchronously downloaded a group debug packet by one key for managing groups and scenes.

Fig. 7 is a schematic diagram of a scenario and an intelligent device management interface in a client mobile terminal according to a first embodiment of the present invention.

Fig. 8 is an interface schematic diagram of an intelligent device for selecting a D IY scene to implement the scene in the client mobile terminal according to the first embodiment of the present invention.

Fig. 9 is an interface schematic diagram of actions required to be executed for selecting each smart device in the D IY scene setting in the client mobile terminal according to the first embodiment of the present invention.

Fig. 10 is an interface diagram of a client mobile terminal having one-key replacement and one-key restoration functions according to the first embodiment of the present invention.

Fig. 11 is an interface schematic diagram of a client mobile terminal according to a first embodiment of the present invention, in which a smart device that needs replacement can be selected by one key.

Fig. 12 is an interface schematic diagram of an intelligent device that can be selected by one key to be restored in a client mobile terminal according to the first embodiment of the present invention.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

It should be noted that the terms "first," "second," "third," "fourth," and the like in the description and in the claims of the present invention are used for distinguishing between different objects and not necessarily for describing a particular sequential or chronological order. The terms "comprises," "comprising," and "having," and any variations thereof, are intended to cover a non-exclusive inclusion, such that a process, method, system, article, or apparatus that comprises a list of steps or elements is not necessarily limited to those steps or elements expressly listed or inherent to such process, method, article, or apparatus.

Example 1

As shown in fig. 1, a configuration method of an intelligent device includes the following steps:

s1, creating a construction project on a web end according to construction room source information, and adding corresponding constructors according to the construction project; in specific implementation, the construction project at least comprises: project name, creation time, project type, project progress; project names are typically named by the name of the house source being constructed; and setting the creation time and project progress so as to intuitively check the progress of the construction work order and avoid delaying the construction process. Meanwhile, the corresponding constructors and house sources are bound conveniently, and the construction division is clear.

S2, creating a construction template at the web end according to actual construction requirements; therefore, follow-up constructors can check construction template information at the construction mobile terminal to construct conveniently, and construction efficiency is improved.

S3, saving the information created and added in the steps S1 and S2 to generate a construction work order;

s4, sending the construction work order to the construction mobile terminal from the web end, and selecting and checking construction information on the construction work order on the construction mobile terminal by constructors to install the intelligent equipment;

when the method is implemented, the construction mobile terminal can be a mobile phone or a computer, constructors download construction management APP which is applied to checking construction work order information and configuring intelligent equipment, the web end sends the construction work order to the construction management APP, and the constructors register and log in the APP to check the construction work order information.

S5, electrifying the intelligent equipment which is installed, and realizing networking configuration of the intelligent equipment and the construction mobile terminal;

wherein, the construction template of step S2 includes: the intelligent equipment debugging system comprises a construction mobile terminal, a construction work order, a data packet, a construction mobile terminal constructor and a data packet, wherein the data packet is stored with intelligent equipment debugging information, the data packet is sent to the construction mobile terminal along with the construction work order, and after the intelligent equipment completes networking configuration with the construction mobile terminal, the construction mobile terminal constructor debugs the intelligent equipment into a required scene state by downloading the data packet.

As described above, the setting of step S1 to step S4, the construction work order generated by the web end is sent to the construction mobile terminal, so that the constructor can look over on the construction mobile terminal and perform construction according to the construction work order requirement, and the construction efficiency can be improved; step S5, the intelligent equipment is electrified to enter a network distribution state, and the intelligent equipment is searched and added to realize networking; the construction template of the step S2 and the setting of the data packet comprising the intelligent equipment debugging information can be used for storing the data packet for one-key debugging of the intelligent equipment state according to construction requirements in advance, so that when the intelligent equipment state is set later, one-key debugging can be completed only by downloading the data packet, and the configuration efficiency of the intelligent equipment is effectively improved.

In the concrete implementation, constructors need to log in the web terminal, and account management authorities are arranged on the web terminal to ensure that the constructors with the authorities can only enter the web terminal, so that the constructors related to other non-intelligent equipment construction can be prevented from logging in the web terminal to operate wrongly, and the normal operation of the whole construction system is ensured.

The step S2 of creating the construction template on the web side according to the actual construction requirement comprises the following steps:

creating a construction data collection template according to construction requirements of intelligent equipment on a house source;

creating a room management template according to room information on a room source, wherein different room sub-templates are arranged on the room management template;

according to the intelligent equipment actually required to be installed in the room of the house source, adding intelligent equipment information on the corresponding room sub-template;

creating a database at a web end according to the intelligent equipment information added on the room sub-template, creating an intelligent equipment debugging information table in the database, presetting different debugging information in the intelligent equipment debugging information table according to different scene requirements to generate a data packet, and storing the data packet into the database;

wherein, the construction data collection template includes: the intelligent equipment list, the intelligent equipment installation point positions and the intelligent equipment construction drawing. In specific implementation, the intelligent device list comprises intelligent device names and models, the required quantity of intelligent devices corresponding to different types, intelligent device physical pictures, intelligent device installation positions, intelligent device installation angles, intelligent device prices and the like. The intelligent device installation point location is that each intelligent device is installed in which room, and if the point location is a living room. The intelligent equipment construction drawing can be drawn according to the actual constructed house source, and the drawing specifically comprises room distribution of the house source, installation position distribution of the intelligent equipment in each room and the like.

As described above, the construction data collection template is arranged, so that constructors can intuitively know the installation information and the specific installation position of the intelligent equipment, the construction data collection template is beneficial to the operation of the constructors, and the accuracy of the installation of the intelligent equipment is improved. The room management template, the room sub-templates and the setting of adding the intelligent equipment information on the corresponding room sub-templates are convenient for inputting the position information of the intelligent equipment actually installed in a certain room on a house source into the templates, so that the follow-up constructors can directly check construction work orders to set the point positions of the intelligent equipment, and the configuration efficiency is further improved. By creating a database at the web end and creating and setting an intelligent device debugging information table in the database to generate a data packet, constructors at the construction mobile terminal can automatically debug the state of each intelligent device by downloading the data packet through one key, and configuration efficiency is greatly improved. Moreover, according to different scene requirements, the intelligent device debugging information can be modified to generate different data packets, so that different configuration requirements are met.

As described above, the smart device debug information table at least includes: instruction information for controlling the intelligent device to be opened/closed, instruction information for controlling the intelligent device to be in a certain functional state, and instruction information for controlling the intelligent device to be in a certain functional state and adjusting the functional state to be in a certain parameter. Therefore, different functional states of the intelligent device can be flexibly adjusted by changing the content of the intelligent device debugging information table so as to generate different data packets to meet different scene configuration requirements.

As a preferred embodiment, the "creating a construction template on the web side according to the actual construction requirement" described in step S2 further includes:

according to different scene demands, different intelligent devices are formed into a group, a group device debugging information table for debugging the device state in the group is established in a database, the debugging information of all intelligent devices in the group is preset in the group device debugging information table according to the different scene demands to generate a group debugging data packet, and the group debugging data packet is stored in the database;

wherein, the group device debug information table at least comprises: the control method comprises the steps of controlling instruction information of on/off of all intelligent devices in a group, controlling instruction information of all intelligent devices in a certain functional state in the group, controlling instruction information of all intelligent devices in the group in a certain functional state and adjusting the functional state in a certain parameter.

In the implementation, all intelligent devices which need to be started together in the same room can be formed into a group, and the use states of different intelligent devices in the group are set in a group device debugging information table so as to generate a group debugging data packet; for example, a full-open control group is established for group equipment by using a sofa background light band, a television background light band, a ceiling light band and a tea table spotlight, and instruction information for starting the sofa background light band, starting the television background light band, starting the ceiling light band and starting the tea table spotlight is set in a group equipment debugging information table so as to generate a group debugging data packet for fully opening the lights in the above groups. When constructors need to debug the corresponding scenes, the constructors can configure the needed full-open scenes by one key only by downloading the group debugging data packet. Simultaneously, when a resident of the house source enters the room, the sofa background light belt, the television background light belt, the ceiling light belt and the tea table spotlight can be controlled to be all turned on together by one key. As shown in fig. 5, the group debug data packet is synchronously downloaded to the construction mobile terminal, so as to realize different scenes through different groups.

As described above, the setting of the group device debugging information table and the group debugging data packet is created in the database, which is favorable for the constructor to realize the scene configuration of a plurality of intelligent devices on one hand, and the state of each intelligent device is not required to be configured and then forms each required scene, so that the scene configuration efficiency is improved; on the other hand, the method is beneficial to realizing different scene configurations by establishing a plurality of groups, and meets the requirements of residents with different house sources.

In a specific implementation, the "electrifying the intelligent device and implementing the networking configuration of the intelligent device and the construction mobile terminal" described in step S5 includes:

electrifying the intelligent equipment which is installed to enter a distribution network state;

searching intelligent equipment in a construction mobile terminal through a network, and selecting to add the intelligent equipment singly or in batches in the construction mobile terminal;

setting corresponding point positions of the intelligent equipment and storing point position data so as to realize networking configuration of the intelligent equipment and the construction mobile terminal.

As described above, intelligent devices are added in batches so as to realize quick networking; through setting and saving of point location data, intelligent equipment and corresponding point locations can be bound one by one so that the intelligent equipment at which corresponding position can be directly checked when a house source user uses the intelligent equipment in a follow-up mode is controlled, and the intelligent equipment is convenient to use.

As a preferred embodiment, the method further comprises the following steps when being implemented:

if some intelligent devices do not enter the network distribution state, firstly networking the intelligent devices which enter the network distribution state, and then resetting the intelligent devices which do not enter the network distribution state. Therefore, other intelligent devices entering the distribution network state are not affected to carry out networking, and the configuration efficiency is improved.

In particular, the reset operation includes:

reset operation of gateway: the key is pressed for a long time until the green indicator light flashes.

Resetting operation of the lamp: the power is turned on and off for 8 times until the lamps flash, and if the power is not enough for 8 times, the power is turned on and off for several times until all the lamps enter a flash state.

Reset operation of panel switch class: pressing any key for 5 seconds until the indicator lights flash.

Reset operation of the window covering motor: pressing three times short and pressing for a long time until the indicator lights flash.

Reset operation of human presence sensor: pressing for 5 seconds until the indicator lights flash.

Reset operation of door magnetic induction: pressing for 5 seconds until the indicator lights flash.

As a preferred implementation manner, the first embodiment of the present application further includes the following steps:

after the intelligent equipment is debugged, checking whether the equipment can be normally used;

The "checking whether the device can be used normally" includes:

checking whether the intelligent device can be normally opened/closed;

checking whether the functional state of the intelligent device can be controlled and regulated normally.

When the method is implemented, if the intelligent equipment is checked to be unable to be normally opened/closed, firstly whether the point location is correct is considered, if the point location is abnormal, the point location is reset; if the point location is normal, checking whether the wiring position of the equipment is normal or not; if the wiring position is abnormal, the wiring is connected again; and if the junction is normal, considering equipment faults, and replacing equipment. If the color temperature or brightness or color of the lighting equipment cannot be regulated normally, checking whether wiring is abnormal or not; if the wiring is normal, considering equipment faults, and replacing equipment.

Therefore, whether the intelligent equipment can be used normally or not can be checked and found in time, and the use experience of a user is guaranteed.

As a preferred embodiment, after step S5, the following steps are further included:

s6, manually fine-tuning the intelligent equipment according to the actual use field Jing Xuqiu of the intelligent equipment in the room;

s7, after the debugging of all intelligent equipment is completed, submitting a construction work order and handing over the construction work order to a construction mobile terminal or a web end to indicate that the construction work order is completed;

The construction mobile terminal or the web terminal stores debugging data when the construction work order is submitted, and the debugging data is used as original data for one-key recovery of the intelligent equipment;

s8, the construction mobile terminal or the web terminal binds the handed over construction work order information with the client mobile terminal and sends the construction work order information to the client mobile terminal;

s9, the house source client manages and configures the intelligent equipment on the client mobile terminal.

In specific implementation, the client mobile terminal can be a mobile phone or a computer, the house source client downloads a client management APP (application program) which is used for checking the construction work order information and controlling and managing the intelligent equipment, the web end/construction mobile terminal sends the construction work order to the construction management APP, and constructors register and log in the APP to check and manage the intelligent equipment.

Meanwhile, after finishing the construction work order, if the construction work order needs to be modified, a new construction work order needs to be established at the web end, and the new construction work order is modified on the basis of the original construction work order template by selecting the original construction work order as the template. Thus, the new construction work order is modified by taking the original construction work order as a template, so that the configuration efficiency is greatly improved.

As described above, the original data of the construction work order is reserved, so that the original data can be called by one key to recover when the subsequent fine adjustment effect is unsatisfactory, and the reconfiguration efficiency is improved. Through the setting of the client mobile terminal, on the basis of realizing the configuration of constructors, the configuration of the intelligent equipment by the house source client can be realized, so that the follow-up house source client can independently complete the configuration and control of the intelligent equipment after the constructors leave, and the intelligent equipment configuration system is convenient to use.

As a preferred embodiment, in the implementation, the "the house source client manages and configures the smart device on the client mobile terminal" in step S8 includes:

receiving and viewing the transferred construction work order information: checking the states of all intelligent devices in a customer house source and checking the scene states of the intelligent devices which are already debugged;

controlling the intelligent device to execute a scene action or independently controlling a certain intelligent device to execute a certain action according to the existing scene state; if the full-open scene is started, controlling all intelligent devices in the full-open scene to be started; or directly opening a certain intelligent device to be opened or closed.

Sharing construction work order information to client mobile terminals of other households of the same house source; so that other clients in the house source can flexibly control and configure the intelligent equipment through the client mobile terminal, and the intelligent equipment is convenient to use.

DIY new scenes according to actual scene requirements;

the new scene according to the actual scene demand D IY includes:

naming the scenes; if the scene name is named: opening all intelligent devices in a living room; thus, by naming a scene, the customer is facilitated to clearly distinguish the role of the scene.

Selecting intelligent devices needed by realizing the scene, and correspondingly selecting actions needed to be executed by each intelligent device; if all intelligent devices in the living room are selected, setting the actions of all intelligent devices in the living room as opening actions;

for the intelligent lamp equipment, the light efficiency required by each equipment is also required to be set; such as setting a specific color temperature, brightness, color of the television backlight band.

The debugging data of the above steps are performed to generate a new scene.

As described above, the smart device can be flexibly configured in the scene of the client mobile terminal D IY, and the house source client itself can directly operate without additional troublesome professional staff, with simple operation.

As a preferred embodiment, the method further comprises the following steps when being implemented:

when a certain intelligent device fails, replacing the new intelligent device and synchronizing debugging data of the original intelligent device into the new intelligent device at the client mobile terminal; the method and the device have the advantages that one-key replacement of debugging data is realized, so that one-key replacement of intelligent equipment is realized, the configuration efficiency of new intelligent equipment is improved, and the method and the device are favorable for later maintenance.

When the initial state of the intelligent equipment needs to be restored, restoring the original debugging data of the intelligent equipment to a new initial state at the client mobile terminal; so as to realize the one-key recovery of the intelligent equipment, and the client configuration is more convenient. In the implementation, as shown in fig. 10 to 12, by designing a one-key replacement and one-key restoration function on the client mobile terminal, the house source client can select the intelligent device needing replacement and the intelligent device needing one-key restoration by one key, and the setting is convenient.

Example two

As shown in fig. 2 and 3, a configuration system of an intelligent device includes a web terminal 100, a construction mobile terminal 200, and a client mobile terminal 300, the web terminal 100 is used for generating a construction work order and transmitting the construction work order to the construction mobile terminal 200, the construction mobile terminal 200 is used for receiving construction work order information and performing installation and networking configuration on the intelligent device according to the construction work order, and the client mobile terminal 300 is used for receiving and managing debugging information of the intelligent device which is handed over by the web terminal 100/the construction mobile terminal 200 and performing control and configuration on the intelligent device according to own requirements;

the web terminal 100 is provided with a construction work order input module 11, a construction work order generation module 12, a database module 13, a first receiving module 14 and a first sending module 15, wherein the construction work order input module 11 comprises: the construction work order generation module 12 is used for generating a construction work order according to the information added by the construction work order input module 11, and the database module 13 is used for storing the construction work order information and a data packet of one-key debugging intelligent equipment state; the first receiving module 14 is configured to receive the configured work order information handed over from the construction mobile terminal 200; the first sending module 15 is configured to send the generated construction work order to the construction mobile terminal 200 and send the configured construction work order information to the client mobile terminal 300;

The construction mobile terminal 200 is provided with a second receiving module 21 for receiving a construction work order generated by the web terminal 100, a networking configuration module 22 for realizing networking of intelligent equipment and configuring the intelligent equipment according to construction requirements, a first storage module 23 for storing networking configuration information, and a second sending module 24 for sending the configured construction work order information to the client mobile terminal 300;

the client mobile terminal 300 is provided with a third receiving module 31 for receiving the configured construction work order information transmitted from the web terminal 100 or the construction mobile terminal 200, a processing module 32 for managing and controlling the smart device, a scene generating module 33 for different scenes of D IY, a second storing module 34 for storing the transmitted construction work order information and for storing new scene information generated by D IY, a data replacing module 35 for replacing the debug data of the old smart device with one key on the new smart device, and a data recovering module 36 for recovering the smart device with one key to an initial state.

As described above, the construction work order entry module 11 and the construction work order generation module 12 are provided on the web terminal 100, so that construction work order information is generated. The database module 13 is convenient for storing construction work order information on the web terminal 100 and storing data installation packages, is favorable for setting required states of the follow-up construction mobile terminal by one key, and effectively improves networking configuration efficiency. The first receiving module 14 and the first transmitting module 15 are arranged so as to receive construction work order information of construction completion in time and transmit the generated construction work order information in time. The project management unit 111, the intelligent equipment management unit 112 and the account management unit 113 of the construction work order input module 11 are arranged, so that the construction work order input module 11 is clear in work division, and the user of the web terminal 100 can input and fill in the construction work order. The second receiving module 21, the networking configuration module 22, the first storage module 23, and the second sending module 24 of the construction work order of the construction mobile terminal 200 are configured so that a constructor of the construction mobile terminal 200 can process the construction work order and save the processed data in time, thereby improving the efficiency of early networking and configuration. The third receiving module 31, the processing module 32, the second storage module 34, the data replacing module 35 and the data recovering module 36 of the client mobile terminal 300 are configured so that the house source client can manage and configure the intelligent device, the requirement of the house source client on self-configuring the scene can be met, the client can maintain and recover the intelligent device at the later stage, and the use experience of the house source client is improved.

The above describes in detail a configuration method and a configuration system of an intelligent device disclosed in the embodiments of the present invention, and specific examples are applied to describe the principles and implementations of the present invention, where the description of the above embodiments is only used to help understand the method and the core idea of the present invention; meanwhile, as those skilled in the art will vary in the specific embodiments and application scope according to the idea of the present invention, the present disclosure should not be construed as limiting the present invention in summary.

Claims (10)

1. The configuration method of the intelligent equipment is characterized by comprising the following steps of:

s1, creating a construction project on a web end according to construction room source information, and adding corresponding constructors according to the construction project;

s2, creating a construction template at the web end according to construction requirements proposed by a house source client;

s3, saving the information created and added in the steps S1 and S2 to generate a construction work order;

s4, sending the construction work order to the construction mobile terminal from the web end, and selecting a corresponding construction work order by constructors and checking construction information on the construction work order to install the intelligent equipment;

s5, electrifying the intelligent equipment which is installed, and realizing networking configuration of the intelligent equipment and the construction mobile terminal;

Wherein, the construction template of step S2 includes: the intelligent equipment debugging system comprises a construction mobile terminal, a construction work order, a data packet, a construction mobile terminal constructor and a data packet, wherein the data packet is stored with intelligent equipment debugging information, the data packet is sent to the construction mobile terminal along with the construction work order, and after the intelligent equipment completes networking configuration with the construction mobile terminal, the construction mobile terminal constructor debugs the intelligent equipment into a required scene state by downloading the data packet.

2. The method for configuring an intelligent device according to claim 1, wherein the creating a construction template on the web side according to the actual construction requirement in step S2 includes:

creating a construction data collection template according to construction requirements of intelligent equipment on a house source;

creating a room management template according to room information on a room source, wherein different room sub-templates are arranged on the room management template;

according to the intelligent equipment actually required to be installed in the room of the house source, adding intelligent equipment information on the corresponding room sub-template;

creating a database at a web end according to the intelligent equipment information added on the room sub-template, creating an intelligent equipment debugging information table in the database, presetting different debugging information in the intelligent equipment debugging information table according to different scene requirements to generate a data packet, and storing the data packet into the database;

Wherein, the construction data collection template includes: the intelligent equipment list, the intelligent equipment installation point positions and the intelligent equipment construction drawing.

3. The method for configuring an intelligent device according to claim 2, wherein the intelligent device debug information table includes at least: instruction information for controlling the intelligent device to be opened/closed, instruction information for controlling the intelligent device to be in a certain functional state, and instruction information for controlling the intelligent device to be in a certain functional state and adjusting the functional state to be in a certain parameter.

4. The method for configuring an intelligent device according to claim 2, wherein "creating a construction template on the web side according to the actual construction requirement" in step S2 further includes:

according to different scene demands, different intelligent devices are formed into a group, a group device debugging information table for debugging the device state in the group is established in a database, the debugging information of all intelligent devices in the group is preset in the group device debugging information table according to the different scene demands to generate a group debugging data packet, and the group debugging data packet is stored in the database;

wherein, the group device debug information table at least comprises: the control method comprises the steps of controlling instruction information of on/off of all intelligent devices in a group, controlling instruction information of all intelligent devices in a certain functional state in the group, controlling instruction information of all intelligent devices in the group in a certain functional state and adjusting the functional state in a certain parameter.

5. The method for configuring an intelligent device according to claim 1, wherein "the intelligent device is powered on and networking configuration of the intelligent device and the construction mobile terminal is implemented" in step S5 includes:

electrifying the intelligent equipment which is installed to enter a distribution network state;

searching intelligent equipment in a construction mobile terminal through a network, and selecting to add the intelligent equipment singly or in batches in the construction mobile terminal;

setting corresponding point positions of the intelligent equipment and storing point position data so as to realize networking configuration of the intelligent equipment and the construction mobile terminal.

6. The method for configuring an intelligent device according to any one of claims 1 to 5, further comprising the steps of:

if part of intelligent devices do not enter the network distribution state, firstly networking the intelligent devices which enter the network distribution state, and then resetting the intelligent devices which do not enter the network distribution state;

after the intelligent equipment is debugged, checking whether the equipment can be normally used.

7. The method for configuring an intelligent device according to claim 1, further comprising, after step S5, the steps of:

S6, manually fine-tuning the intelligent equipment according to the actual use field Jing Xuqiu of the intelligent equipment in the room;

s7, after the debugging of all intelligent equipment is completed, submitting a construction work order and handing over the construction work order to a construction mobile terminal or a web end to indicate that the construction work order is completed;

the construction mobile terminal or the web terminal stores debugging data when the construction work order is submitted, and the debugging data is used as original data for one-key recovery of the intelligent equipment;

s8, the construction mobile terminal or the web terminal binds the handed over construction work order information with the client mobile terminal and sends the construction work order information to the client mobile terminal;

s9, the house source client manages and configures the intelligent equipment on the client mobile terminal.

8. The method for configuring an intelligent device according to claim 7, wherein the step S8 of managing and configuring the intelligent device by the house source client on the client mobile terminal comprises:

receiving and checking the construction work order information transferred from the transfer device;

controlling the intelligent device to execute a scene action or independently controlling a certain intelligent device to execute a certain action according to the existing scene state;

sharing construction work order information to client mobile terminals of other households of the same house source;

DIY new scenes according to actual scene requirements;

wherein, the new scene according to the actual scene demand DIY comprises:

naming the scenes;

selecting intelligent devices needed by realizing the scene, and correspondingly selecting actions needed to be executed by each intelligent device;

for the intelligent lamp equipment, the light efficiency required by each equipment is also required to be set;

scene information is saved to generate a new scene.

9. The method for configuring an intelligent device according to claim 7 or 8, further comprising the steps of:

when a certain intelligent device fails, replacing the new intelligent device, and synchronizing debugging data of the original intelligent device into the new intelligent device at the client mobile terminal so as to realize one-key replacement of the intelligent device;

when the initial state of the intelligent equipment needs to be restored, the original debugging data of the intelligent equipment is re-called to the corresponding intelligent equipment at the client mobile terminal, so that the intelligent equipment is restored to the initial state by one key.

10. The configuration system of the intelligent equipment is characterized by comprising a web end (100), a construction mobile terminal (200) and a client mobile terminal (300), wherein the web end (100) is used for generating a construction work order and sending the construction work order to the construction mobile terminal (200), the construction mobile terminal (200) is used for receiving construction work order information and carrying out installation and networking configuration on the intelligent equipment according to the construction work order, and the client mobile terminal (300) is used for receiving and managing debugging information of the intelligent equipment which is handed over by the web end (100)/the construction mobile terminal (200) and is subjected to initial configuration and controlling and configuring the intelligent equipment according to own requirements;

The web end (100) is provided with a construction work order input module (11), a construction work order generation module (12), a database module (13), a first receiving module (14) and a first sending module (15), and the construction work order input module (11) comprises: the system comprises a project management unit (111) for adding and managing construction projects, an intelligent equipment management unit (112) for adding and managing intelligent equipment information and an account management unit (113) for adding and managing constructors, wherein the construction work order generation module (12) is used for generating a construction work order according to the information added by the construction work order input module (11), and the database module (13) is used for storing the construction work order information and a data packet for one-key debugging of the intelligent equipment state; the first receiving module (14) is used for receiving the configured construction work order information handed over by the construction mobile terminal (200); the first sending module (15) is used for sending the generated construction work order to the construction mobile terminal (200) and sending the configured construction work order information to the client mobile terminal (300);

the construction mobile terminal (200) is provided with a second receiving module (21) for receiving a construction work order generated by the web terminal (100), a networking configuration module (22) for realizing networking of intelligent equipment and configuring the intelligent equipment according to construction requirements, a first storage module (23) for storing networking configuration information, and a second sending module (24) for sending the configured construction work order information to the client mobile terminal (300);

The client mobile terminal (300) is provided with a third receiving module (31) for receiving the configured construction work order information sent by the web terminal (100) or the construction mobile terminal (200), a processing module (32) for managing and controlling the intelligent device, a scene generating module (33) for DIY different scenes, a second storage module (34) for storing the sent construction work order information and storing new scene information generated by DIY, a data replacing module (35) for replacing debugging data of the old intelligent device on the new intelligent device by one key, and a data recovering module (36) for recovering the intelligent device to an initial state by one key.