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CN111650844B - Intelligent equipment control panel and control method thereof - Google Patents

Intelligent equipment control panel and control method thereof Download PDF

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Publication number
CN111650844B
CN111650844B CN202010479570.9A CN202010479570A CN111650844B CN 111650844 B CN111650844 B CN 111650844B CN 202010479570 A CN202010479570 A CN 202010479570A CN 111650844 B CN111650844 B CN 111650844B
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scene
area
control
equipment
interface
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CN111650844A (en
Inventor
何蕾蕾
廖瑞军
张根源
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Enno Electronics Co ltd
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Enno Electronics Co ltd
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    • GPHYSICS
    • G05CONTROLLING; REGULATING
    • G05BCONTROL OR REGULATING SYSTEMS IN GENERAL; FUNCTIONAL ELEMENTS OF SUCH SYSTEMS; MONITORING OR TESTING ARRANGEMENTS FOR SUCH SYSTEMS OR ELEMENTS
    • G05B15/00Systems controlled by a computer
    • G05B15/02Systems controlled by a computer electric
    • GPHYSICS
    • G05CONTROLLING; REGULATING
    • G05BCONTROL OR REGULATING SYSTEMS IN GENERAL; FUNCTIONAL ELEMENTS OF SUCH SYSTEMS; MONITORING OR TESTING ARRANGEMENTS FOR SUCH SYSTEMS OR ELEMENTS
    • G05B19/00Programme-control systems
    • G05B19/02Programme-control systems electric
    • G05B19/418Total factory control, i.e. centrally controlling a plurality of machines, e.g. direct or distributed numerical control [DNC], flexible manufacturing systems [FMS], integrated manufacturing systems [IMS] or computer integrated manufacturing [CIM]
    • GPHYSICS
    • G05CONTROLLING; REGULATING
    • G05BCONTROL OR REGULATING SYSTEMS IN GENERAL; FUNCTIONAL ELEMENTS OF SUCH SYSTEMS; MONITORING OR TESTING ARRANGEMENTS FOR SUCH SYSTEMS OR ELEMENTS
    • G05B19/00Programme-control systems
    • G05B19/02Programme-control systems electric
    • G05B19/418Total factory control, i.e. centrally controlling a plurality of machines, e.g. direct or distributed numerical control [DNC], flexible manufacturing systems [FMS], integrated manufacturing systems [IMS] or computer integrated manufacturing [CIM]
    • G05B19/4188Total factory control, i.e. centrally controlling a plurality of machines, e.g. direct or distributed numerical control [DNC], flexible manufacturing systems [FMS], integrated manufacturing systems [IMS] or computer integrated manufacturing [CIM] characterised by CIM planning or realisation
    • GPHYSICS
    • G05CONTROLLING; REGULATING
    • G05BCONTROL OR REGULATING SYSTEMS IN GENERAL; FUNCTIONAL ELEMENTS OF SUCH SYSTEMS; MONITORING OR TESTING ARRANGEMENTS FOR SUCH SYSTEMS OR ELEMENTS
    • G05B2219/00Program-control systems
    • G05B2219/20Pc systems
    • G05B2219/26Pc applications
    • G05B2219/2642Domotique, domestic, home control, automation, smart house
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02PCLIMATE CHANGE MITIGATION TECHNOLOGIES IN THE PRODUCTION OR PROCESSING OF GOODS
    • Y02P90/00Enabling technologies with a potential contribution to greenhouse gas [GHG] emissions mitigation
    • Y02P90/02Total factory control, e.g. smart factories, flexible manufacturing systems [FMS] or integrated manufacturing systems [IMS]

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  • Engineering & Computer Science (AREA)
  • General Engineering & Computer Science (AREA)
  • Physics & Mathematics (AREA)
  • General Physics & Mathematics (AREA)
  • Automation & Control Theory (AREA)
  • Manufacturing & Machinery (AREA)
  • Quality & Reliability (AREA)
  • Selective Calling Equipment (AREA)
  • User Interface Of Digital Computer (AREA)

Abstract

The invention provides an intelligent equipment control panel and a control method thereof, wherein the control method comprises the following steps: the touch sensing switch module is used for detecting an input signal generated when a user touches the sensing area of the panel body and sending the input signal to the processing control module; the processing control module is used for determining a first area and a first scene corresponding to the scene control instruction when the input signal is the scene control instruction, determining a device identifier of at least one first intelligent device associated with the first scene in the first area from prestored data, determining a device control parameter corresponding to the device identifier in the first scene from the prestored data for each device identifier, converting the device control parameter into a first control signal according to an interface protocol corresponding to the device identifier, and sending the first control signal to the communication interface module; and the communication interface module is used for sending the first control signal to the first intelligent equipment corresponding to the equipment identifier so as to control the first intelligent equipment. The scheme can reduce misoperation of a user.

Description

Intelligent equipment control panel and control method thereof
Technical Field
The invention relates to the technical field of Internet of things, in particular to an intelligent device control panel and a control method thereof.
Background
With the improvement of national economy and scientific technology level, especially the rapid development and improvement of information technologies such as computer technology, communication technology, network technology and the like, the smart home frequently appears on various large media, becomes a word which people know in great energy, and the appearance of the smart home promotes the modernization, convenience, comfort and humanization of family life.
At present, the size of the panel for controlling smart homes is usually small, which can cause misoperation easily when a user performs multifunctional operation on the small panel, thereby influencing the use experience of the user.
Disclosure of Invention
The embodiment of the invention provides an intelligent equipment control panel and a control method thereof, which can reduce misoperation of a user.
In a first aspect, the present invention provides a smart device control panel, comprising: the touch panel comprises a communication interface module, a processing control module, a touch sensing switch module and a panel body;
the communication interface module, the processing control module and the touch sensing switch module are all arranged in the panel body;
the touch sensing switch module is used for detecting an input signal generated when a user touches the sensing area of the panel body and sending the input signal to the processing control module;
the processing control module is configured to determine a first area and a first scene corresponding to a scene control instruction when the input signal is the scene control instruction, determine, from pre-stored data, a device identifier of at least one first smart device associated with the first scene in the first area, determine, for each device identifier, a device control parameter corresponding to the device identifier in the first scene from the pre-stored data, convert the device control parameter into a first control signal according to an interface protocol corresponding to the device identifier, and send the first control signal to the communication interface module;
and the communication interface module is used for sending the first control signal to the first intelligent equipment corresponding to the equipment identifier so as to control the first intelligent equipment.
Preferably, the first and second electrodes are formed of a metal,
the processing control module is further configured to, when the input signal is an area setting instruction for setting a second smart device to be associated in a second area, perform the following operations:
determining a second area corresponding to the area setting instruction;
searching information of at least one second intelligent device located in the second area, and displaying the searched information of the at least one second intelligent device;
determining the area associated equipment screened by the user according to the displayed information of at least one second intelligent equipment;
determining an equipment identifier of each area-associated equipment, and forming a first interface, wherein the first interface comprises the equipment identifier, and the equipment identifier comprises an equipment name of the area-associated equipment and a first icon corresponding to the equipment name;
storing the association relation between the first interface and the second area as pre-stored data;
when the user requests to control the area intelligent equipment associated with the second area, the first interface associated with the second area in the prestored data is displayed, so that the user can control the area associated equipment through the equipment identification in the first interface.
Preferably, the first and second electrodes are formed of a metal,
the processing control module is further configured to, when the scene setting instruction input by the user is acquired, perform the following operations:
determining a scene identifier of a second scene corresponding to the scene setting instruction;
when the number of the second scenes is 1, adding the scene identifiers into the first interface, wherein the scene identifiers comprise scene names of the second scenes and second icons corresponding to the scene names;
presenting the at least one second smart device located within the second area;
determining at least one scene associated device screened by the user from the second intelligent device;
acquiring a device control parameter corresponding to each scene-related device in the second scene;
and storing the association relationship between the device control parameter corresponding to each scene association device and the scene identifier as pre-stored data.
Preferably, the first and second liquid crystal display panels are,
the processing control module is further configured to, when the number of the second scenes is greater than 1, perform the following operations:
determining application identifications used for indicating the second scenes;
adding the application identifier into the first interface and forming a second interface, wherein the second interface comprises the scene identifier corresponding to each second scene;
and storing the association relation between the application identifier and the second interface as pre-stored data.
And determining a scene identification of a second scene corresponding to the scene setting instruction, and forming a second interface associated with the first interface.
Preferably, the first and second electrodes are formed of a metal,
the processing control module is further configured to, when the input signal is a linkage setting instruction for performing linkage control on at least two third intelligent devices, perform the following operations:
acquiring a trigger condition of at least one trigger device, wherein the trigger device is a device in third intelligent devices in at least two third areas, and the trigger condition includes at least one of device state information of the trigger device, environment state information of an environment where the trigger device is located, and time information of current time;
determining whether at least one target linkage rule triggered by the trigger condition exists in at least one preset linkage rule;
if at least one target linkage rule triggered by the trigger condition exists, executing the following steps aiming at each target linkage rule:
determining at least one linkage device associated with the target linkage rule;
according to the target linkage rule, respectively determining a second control signal aiming at each linkage device;
respectively sending each second control signal to the corresponding third intelligent device through the communication interface module so as to control the third intelligent device;
and/or the presence of a gas in the gas,
the processing control module is further configured to record a start time when the input signal starts to be received and a stop time when the input signal is completely transmitted, calculate a difference between the stop time and the start time, determine whether the difference is greater than a preset duration threshold, and when the difference is greater than the duration threshold, execute, when the input signal is a scene control instruction, determining a first area and a first scene corresponding to the scene control instruction.
In a second aspect, the present invention further provides a control method for the control panel of the intelligent device in the first aspect, including:
the method comprises the steps that an input signal generated when a touch sensing switch module is used for detecting a sensing area of a user touch panel body is sent to a processing control module;
when the input signal is a scene control instruction, the processing control module is used for determining a first area and a first scene corresponding to the scene control instruction;
determining, with the process control module, a device identification of at least one first smart device associated with the first scenario within the first area from pre-stored data;
determining, by the processing control module, for each device identifier, a device control parameter corresponding to the device identifier in the first scene from the pre-stored data;
converting the equipment control parameter into a first control signal by using the processing control module according to an interface protocol corresponding to the equipment identifier, and sending the first control signal to a communication interface module;
and sending the first control signal to the first intelligent equipment corresponding to the equipment identifier by using the communication interface module so as to control the first intelligent equipment.
Preferably, the first and second electrodes are formed of a metal,
the control method of the intelligent device control panel further comprises the following steps:
when the input signal is an area setting instruction for setting a second intelligent device to be associated in a second area, the processing control module is utilized to execute the following operations:
determining a second area corresponding to the area setting instruction;
searching information of at least one second intelligent device located in the second area, and displaying the searched information of the at least one second intelligent device;
determining the area associated equipment screened by the user according to the displayed information of at least one second intelligent equipment;
determining a device identifier of each area-associated device, and forming a first interface, wherein the first interface includes the device identifier, and the device identifier includes a device name of the area-associated device and a first icon corresponding to the device name;
storing the incidence relation between the first interface and the second area as pre-stored data;
when the user requests to control the area intelligent equipment associated with the second area, the first interface associated with the second area in the prestored data is displayed, so that the user can control the area associated equipment through the equipment identification in the first interface.
Preferably, the first and second electrodes are formed of a metal,
when the processing control module is used for acquiring the scene setting instruction input by the user, the following operations are executed:
determining a scene identifier of a second scene corresponding to the scene setting instruction;
when the number of the second scenes is 1, adding the scene identifiers into the first interface, wherein the scene identifiers comprise scene names of the second scenes and second icons corresponding to the scene names;
presenting the at least one second smart device located within the second area;
determining at least one scene associated device screened by the user from the second intelligent device;
acquiring a device control parameter corresponding to each scene-related device in the second scene;
and storing the association relationship between the device control parameter corresponding to each scene association device and the scene identifier as pre-stored data.
Preferably, the first and second electrodes are formed of a metal,
when the number of the second scenes is larger than 1, the following operations are executed by the processing control module:
determining application identifiers used for indicating the second scenes, and determining scene identifiers corresponding to the second scenes respectively;
adding the application identifier into the first interface and forming a second interface, wherein the second interface comprises the scene identifier corresponding to each second scene, and the scene identifier comprises a scene name of the second scene and a second icon corresponding to the scene name;
and storing the association relation between the application identifier and the second interface as pre-stored data.
And determining a scene identification of a second scene corresponding to the scene setting instruction, and forming a second interface associated with the first interface.
Preferably, the first and second electrodes are formed of a metal,
when the input signals are linkage setting instructions for linkage control of at least two third intelligent devices, the processing control module is utilized to execute the following operations:
searching for third intelligent equipment in at least one third area corresponding to the linkage setting instruction;
determining a trigger condition of at least one trigger device in the third smart device, wherein the trigger condition includes at least one of device state information of the trigger device, environment state information of an environment where the trigger device is located, and time information of a current time;
determining whether at least one target linkage rule triggered by the trigger condition exists in at least one preset linkage rule;
if at least one target linkage rule triggered by the trigger condition exists, executing the following steps aiming at each target linkage rule:
determining at least one linkage device associated with the target linkage rule;
according to the target linkage rule, respectively determining a second control signal aiming at each linkage device;
and respectively sending each second control signal to the corresponding third intelligent equipment through the communication interface module so as to control the third intelligent equipment.
Preferably, the first and second liquid crystal display panels are,
recording the starting time when the input signal is started to be received and the ending time when the input signal is completely transmitted by using the processing control module, calculating the difference value between the ending time and the starting time, determining whether the difference value is greater than a preset time threshold value, and when the difference value is greater than the time threshold value, executing a first area and a first scene corresponding to a scene control instruction when the input signal is the scene control instruction.
The embodiment of the invention provides an intelligent device control panel and a control method thereof, wherein when a user touches an induction area of a panel body, a touch induction switch module can detect an input signal generated by the touch of the user, and when the input signal is a scene control instruction for controlling a device associated with a target scene, a processing control module can firstly determine a first area and a first scene corresponding to the scene control instruction and then determine a device identifier of a first intelligent device associated with the first scene in the first area because the devices associated with the scenes in different areas are possibly different. Because the equipment running states of each first intelligent equipment in the first scene are possibly different, the equipment control parameters of each first intelligent equipment in the first scene can be respectively determined, then the equipment control parameters are converted into first control signals corresponding to the interface protocol of the first intelligent equipment, and the first control signals are sent to the first intelligent equipment through the communication interface module.
Drawings
In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly introduced below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.
Fig. 1 is a schematic diagram of a control panel of a smart device according to an embodiment of the present invention;
fig. 2 is a schematic diagram of an RS485 transceiver circuit according to an embodiment of the present invention;
FIG. 3 is a schematic diagram of a power conversion module and a power management module according to an embodiment of the invention;
fig. 4 is a flowchart of a control method according to an embodiment of the present invention.
Detailed Description
In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer and more complete, the technical solutions in the embodiments of the present invention will be described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all, embodiments of the present invention, and based on the embodiments of the present invention, all other embodiments obtained by a person of ordinary skill in the art without creative efforts belong to the scope of the present invention.
As mentioned previously, the size of the panel of the smart device that controls smart homes at present is usually smaller, and when a plurality of icons for controlling different smart devices are arranged in the panel, the occupied area of each icon in the panel is usually smaller, so that when a user controls a plurality of smart devices, other icons are easily triggered by mistake, and the use experience of the user is influenced.
In view of the above problems, the present invention provides an intelligent device control panel and a control method thereof, and the following describes in detail an intelligent device control panel provided in an embodiment of the present invention with reference to the accompanying drawings, specifically including:
the system comprises a communication interface module 10, a processing control module 20, a touch sensing switch module 30 and a panel body 60;
the communication interface module 10, the processing control module 20 and the touch sensing switch module 30 are all arranged in the panel body 60;
the touch sensing switch module 30 is configured to detect an input signal generated when a user touches the sensing area of the panel body 60, and send the input signal to the processing control module 20;
the processing control module 20 is configured to, when the input signal is a scene control instruction, determine a first area and a first scene corresponding to the scene control instruction, determine, from prestored data, a device identifier of at least one first smart device associated with the first scene in the first area, determine, for each device identifier, a device control parameter corresponding to the device identifier in the first scene from the prestored data, convert the device control parameter into a first control signal according to an interface protocol corresponding to the device identifier, and send the first control signal to the communication interface module 10;
the communication interface module 10 is configured to send the first control signal to a first intelligent device corresponding to the device identifier, so as to control the first intelligent device.
In the embodiment of the present invention, when a user touches a sensing area of a panel body, a touch sensing switch module may detect an input signal generated by a user touch, and when the input signal is a scene control instruction for controlling a device associated with a target scene, and a processing control module may determine a first area and a first scene corresponding to the scene control instruction first and then determine a device identifier of a first smart device associated with the first scene in the first area, because devices associated with scenes corresponding to different areas may be different. Because the equipment running states of each first intelligent equipment in the first scene are possibly different, the equipment control parameters of each first intelligent equipment in the first scene can be respectively determined, then the equipment control parameters are converted into first control signals corresponding to the interface protocol of the first intelligent equipment, and the first control signals are sent to the first intelligent equipment through the communication interface module.
In order to meet the setting requirements of the user on the intelligent devices to be associated in different areas, in an embodiment of the present invention, the processing control module 20 is further configured to, when the input signal is an area setting instruction for setting a second intelligent device to be associated in a second area, perform the following operations:
determining a second area corresponding to the area setting instruction;
searching information of at least one second intelligent device located in the second area, and displaying the searched information of the at least one second intelligent device;
determining the area associated equipment screened by the user according to the displayed information of at least one second intelligent equipment;
determining an equipment identifier of each area-associated equipment, and forming a first interface, wherein the first interface comprises the equipment identifier, and the equipment identifier comprises an equipment name of the area-associated equipment and a first icon corresponding to the equipment name;
storing the incidence relation between the first interface and the second area as pre-stored data;
when the user requests to control the area intelligent equipment associated with the second area, the first interface associated with the second area in the pre-stored data is displayed, so that the user can control the area associated equipment through the equipment identification in the first interface.
In the embodiment of the invention, when the second area is a bedroom, when a user touches and generates an area setting instruction for setting the second intelligent equipment to be associated in the bedroom, the second area to be set by the area setting instruction is determined to be the bedroom, then the second intelligent equipment in the bedroom is searched, and if the searched second intelligent equipment is the intelligent air conditioner, the intelligent television and the humidifier, the information of the searched intelligent air conditioner, the intelligent television and the humidifier is displayed, so that the user can know the second intelligent equipment in the second area and then determine the area associated equipment to be associated in the bedroom from the displayed information of the intelligent air conditioner, the intelligent television and the humidifier based on the requirement of the user. If the area associated equipment to be associated by the user is the humidifier, the equipment name of the area associated equipment is determined to be the humidifier, the first icon representing the equipment name humidifier is determined, a first interface is formed on the basis of the equipment name humidifier and the corresponding first icon, then the second area and the first interface are bound, and the association relationship between the second area and the first interface is stored. Therefore, when the user controls the associated humidifier in the second area, the first interface comprising the equipment name and the first icon of the humidifier can be displayed, and the humidifier can be controlled by triggering the first icon and/or the equipment name of the humidifier in the first interface.
Specifically, when the user needs to set another fourth intelligent device to be associated with a fourth area, and when other area setting instructions used by the user to set the fourth intelligent device to be associated with the fourth area are obtained, a preset interface may be formed first, where the preset interface includes area identifiers of all areas set by the user, and all the areas include the second area and the fourth area.
In order to satisfy the requirement that a user simultaneously controls associated devices in the same scene, in an embodiment of the present invention, the processing control module 20 is further configured to, when acquiring a scene setting instruction input by the user, perform the following operations:
determining a scene identifier of a second scene corresponding to the scene setting instruction;
when the number of the second scenes is 1, adding the scene identifiers into the first interface, wherein the scene identifiers comprise scene names of the second scenes and second icons corresponding to the scene names;
presenting the at least one second smart device located within the second area;
determining at least one scene associated device screened by the user from the second intelligent device;
acquiring a device control parameter corresponding to each scene-related device in the second scene;
and storing the association relationship between the device control parameter corresponding to each scene association device and the scene identifier as pre-stored data.
In the embodiment of the invention, the intelligent device control panel also has a scene setting function, and the function supports a user to set scene associated devices to be associated with the scene in a certain area. When a user needs to set a second scene "meal" applied to a second area "bedroom", the scene name "meal" of the second scene and a second icon indicating "meal" may be added to the first interface, then the scene-related device screened by the user from the second smart device located in the second area "bedroom" is determined, the scene-related device is associated with the second scene "meal" corresponding to the second area "bedroom", then the device control parameter corresponding to the scene-related device in the second scene "meal" is determined, for example, the scene association equipment 'top light' and the 'air conditioner' are both in an on state under the second scene 'dining', then equipment control parameters 'on states' corresponding to the scene association equipment 'top light' and the 'air conditioner' respectively are bound and stored with a scene identifier consisting of a scene name 'dining' and a second icon, so that when a user triggers the second scene 'dining' corresponding to the second region 'bedroom', the scene association equipment 'top light' and the 'air conditioner' associated with the second scene 'dining' are controlled to be on, and the running states of the scene association equipment 'top light' and the 'air conditioner' are displayed.
In an embodiment of the present invention, the processing control module 20 is further configured to, when the number of the second scenes is greater than 1, perform the following operations:
determining application identifications used for indicating the second scenes;
adding the application identifier into the first interface and forming a second interface, wherein the second interface comprises the scene identifier corresponding to each second scene;
and storing the association relationship between the application identifier and the second interface as pre-stored data.
And determining a scene identification of a second scene corresponding to the scene setting instruction, and forming a second interface associated with the first interface.
In the embodiment of the present invention, if a user sets multiple scenes, for example, "eat," "night" and "entertainment," in a second area, the user may set multiple application identifiers corresponding to the second scenes, "eat," "night" and "entertainment," for example, the multiple second scenes are collectively referred to as "second area application scenes," determine a scene name and a second icon indicating the scene name corresponding to each second scene, respectively, add the application identifier "second area application scene" to the first interface, form a second interface composed of the scene name and the second icon corresponding to each second scene, "eat," "night" and "entertainment," respectively, and bind and store the second interface and the application identifier, so that the user may display the second interface when triggering the application identifier, and then the user may control the associated device control parameter of the second scene by triggering one of the second scenes, for example, the user may trigger the second scene, "night" and then obtain the associated device control parameter of the second scene, and then control the associated device control parameter of the second scene according to the associated device control parameter of the second scene. As can be seen from the above description, when a user sets a plurality of second scenes applied to different times and different situations in the same area, the plurality of second scenes may be set in the second interface, and then the second interface is associated with the application identifiers indicating the plurality of second scenes, if the user controls a certain second scene, the user may enter the second interface by triggering the application identifier in the first interface, and then the user may control the scene association device associated with the second scene by triggering the second scene to be controlled in the second interface. Because the plurality of second scenes are arranged in the first interface through the application identifier, the plurality of second scenes cannot be displayed when the user controls the area-associated device in the first interface, the space occupied by the plurality of second scenes in the first interface can be reduced, and the situation that the user triggers one of the second scenes by mistake is avoided.
In an embodiment of the present invention, the processing control module 20 is further configured to, when the input signal is an interlocking setting instruction for performing interlocking control on at least two third smart devices, perform the following operations:
acquiring a trigger condition of at least one trigger device, wherein the trigger device is a device in third intelligent devices in at least two third areas, and the trigger condition includes at least one of device state information of the trigger device, environment state information of an environment where the trigger device is located, and time information of current time;
determining whether at least one target linkage rule triggered by the trigger condition exists in at least one preset linkage rule;
if at least one target linkage rule triggered by the trigger condition exists, aiming at each target linkage rule, executing the following steps:
determining at least one linkage device associated with the target linkage rule;
according to the target linkage rule, respectively determining a second control signal aiming at each linkage device;
and respectively sending each second control signal to the corresponding third intelligent equipment through the communication interface module so as to control the third intelligent equipment.
In the embodiment of the invention, the intelligent device control panel also supports linkage between intelligent devices in different areas, and when a user sets a linkage mode between third intelligent devices in different third areas, the user can search for the third intelligent device in each third area, then determine trigger devices which are screened from the searched third intelligent devices and are used for triggering linkage of other intelligent devices, and determine linkage rules of each linkage device under different conditions. And if the triggering condition is matched with a target linkage rule in the set linkage rule, the linkage equipment associated with the target linkage rule is controlled, so that the aim of controlling the intelligent equipment in different third areas based on the triggering condition of the triggering equipment is fulfilled, manual operation of a user is reduced, and the use experience of the user can be improved.
In an embodiment of the present invention, the processing control module 20 is further configured to record a start time when the input signal starts to be received and a stop time when the input signal is completely transmitted, calculate a difference between the stop time and the start time, determine whether the difference is greater than a preset time threshold, and when the difference is greater than the time threshold, execute, when the input signal is a scene control instruction, determine a first area and a first scene corresponding to the scene control instruction.
In the embodiment of the invention, when a user wipes dust on the panel body or only wants to view the interface of the panel body, the user may touch the sensing area of the panel body unintentionally, and since the user does not control a certain intelligent device, if the user controls a certain intelligent device at the moment, misoperation is caused, and user experience is affected. Therefore, in order to reduce the above problem, after the sensing area of the touch panel body of the user is detected, the processing control module may record a start time when the user starts to touch the touch panel body and an end time when the user leaves the sensing area of the touch panel body, calculate a difference between the end time and the start time, and if the difference is greater than a preset time threshold, for example, 50ms, represent that the user needs to perform an operation, so that an instruction corresponding to an input signal generated when the user touches the touch panel body may be executed.
It is to be understood that the illustrated structure of the embodiment of the present invention does not form a specific limitation to the control panel of the smart device. In other embodiments of the invention, the smart device control panel may include more or fewer components than shown, or combine certain components, or split certain components, or a different arrangement of components. The illustrated components may be implemented in hardware, software, or a combination of software and hardware.
In order to more clearly illustrate the technical solution and advantages of the present invention, the following describes in detail the control panel of the intelligent device provided by the present invention, which specifically includes:
the system comprises a communication interface module 10, a processing control module 20, a touch sensing switch module 30 and a panel body 60;
the touch sensing switch module 30 is configured to detect an input signal generated when a user touches the sensing area of the panel body 60, and send the input signal to the processing control module 20.
Specifically, the touch sensing switch module, the processing control module and the communication interface module are all arranged in the panel body, and if a user touches the sensing area of the panel body, the touch sensing switch module can detect an input signal generated by the touch of the user and send the input signal to the processing control module.
A process control module 20 configured to perform the following operations:
recording the starting time when the input signal begins to be received and the ending time when the input signal is completely transmitted.
Calculating a difference value between the ending time and the starting time, and when the difference value is greater than a preset time length threshold value, if the input signal is an area setting instruction for setting a second intelligent device to be associated in a second area, executing the following operations:
specifically, in order to prevent the user from mistakenly controlling the device due to the misoperation of the operation, the processing control module may record a starting time of receiving the input signal and a terminating time of the input signal after the transmission is finished, and calculate a difference between the terminating time and the starting time to determine a duration of the input signal generated by the user touch, and if the duration of the input signal is greater than a preset 100ms, the operation of the user may be determined as an effective touch, otherwise, the operation is determined as a sequential mistaken touch.
And determining a second area corresponding to the area setting instruction.
Specifically, when it is determined that the user touches the touch screen at this time as a valid touch and the input signal is an area setting instruction for setting a second smart device to be associated in the second area, it is determined that the second area corresponding to the area setting instruction is a "study room", for example.
And searching information of at least one second intelligent device in the second area, and displaying the searched information of the at least one second intelligent device.
And determining the area associated equipment screened by the user according to the displayed information of the at least one second intelligent equipment.
Specifically, the information of the second intelligent device located in the second area "study room" is searched and displayed to the user, and the user can screen the area-related device to be associated with the second area "study room" from the displayed information of the second intelligent device according to the requirement.
And determining the equipment identifier of each area-associated equipment, and forming a first interface, wherein the first interface comprises the equipment identifier, and the equipment identifier comprises the equipment name of the area-associated equipment and a first icon corresponding to the equipment name.
And storing the association relation between the first interface and the second area as pre-stored data.
Specifically, when the area-associated device is "air conditioner" and "light", the user may customize, as desired, the device name of the area-associated device "air conditioner" as "study room air conditioner" and the first icon for the graphic in the shape of air conditioner, and use the first icon in the shape of air conditioner and the device name "study room air conditioner" as the device identifier of the area-associated device "air conditioner". The name of the self-defined area association equipment lamp is ' study lamp ', the figure is a first icon in the shape of a lamp, and the first icon in the shape of the lamp and the equipment name ' study lamp ' are used as the equipment identification of the area association equipment lamp '. And then forming a first interface consisting of equipment identifications respectively corresponding to the area associated equipment, namely 'air conditioner' and 'lamp', binding the first interface with a second area, namely 'study room', and storing the association relationship between the first interface and the second area.
And when the user requests to control the area intelligent equipment associated with the second area, displaying a first interface associated with the second area in the prestored data so that the user can control the area associated equipment through the equipment identifier in the first interface.
Specifically, when the user triggers the identifier corresponding to the second area "study room", the user may switch to the first interface associated with the second area "study room", so that the user can control each area-associated device in the second area "study room".
Specifically, if the user sets the smart devices associated with multiple areas, area identifiers indicating different areas are set, for example, the second area is "study room", the x-th area is "bedroom", the y-th area is "kitchen", the second area is "study room", the x-th area is "bedroom", and the y-th area is "kitchen" and is set in the same interface, so that the user can control the associated devices in different spaces through the interface. Because the devices associated with different areas cannot be displayed in the interface, and only when the user touches the identifier corresponding to the target area, the interface is switched to the interface of each intelligent device associated with the target area, the user cannot touch the intelligent devices in other areas by mistake when the user wants to control the intelligent devices associated with the target area, so that misoperation of the user can be reduced, and the user experience is improved.
The processing control module 20 is further configured to, when the scene setting instruction input by the user is acquired, perform the following operations:
determining a scene identifier of a second scene corresponding to the scene setting instruction;
when the number of the second scenes is 1, adding scene identifiers into the first interface, wherein the scene identifiers comprise scene names of the second scenes and second icons corresponding to the scene names;
displaying at least one second smart device located in a second area;
determining at least one scene correlation device screened by the user from the displayed second intelligent device;
acquiring a device control parameter corresponding to each scene associated device in a second scene;
and storing the association relation between the equipment control parameter corresponding to each scene association equipment and the scene identification as pre-stored data.
Specifically, if a user needs to perform scene setting on the associated devices in the second area under different conditions, the user may input a scene setting instruction, where the scene setting instruction instructs setting on the associated smart devices in the second area. The user may set the scene identifier of the second scene located in the second area based on the requirement, for example, the second area is "study room", the scene name of the second scene is "read" and the second icon in the shape of book, and the second icon in the shape of book and the scene name are "read" as the scene identifier of the second scene "read", and since only one second scene is set, the second scene "read" may be added to the first interface, so that the first interface includes the device identifiers of the respective smart devices associated with the second area and the scene identifier of the second scene "read". And then determining scene-related equipment associated with a second scene 'reading' specified by a user, if the scene-related equipment is 'desk lamp' and 'curtain', acquiring that the equipment control parameter corresponding to the scene-related equipment 'desk lamp' under the second scene 'reading' is 'on', acquiring that the equipment control parameter corresponding to the scene-related equipment 'curtain' under the second scene 'reading' is 'off', binding the equipment control parameter corresponding to the second scene 'reading' and the scene-related equipment 'curtain' as 'off' and the equipment control parameter corresponding to the scene-related equipment 'desk lamp' as 'on', and controlling the scene-related equipment 'desk lamp' to be 'on' if the user triggers the second scene 'reading', so as to control the scene-related equipment 'curtain' to be turned off, and controlling the scene-related equipment 'desk lamp' to be turned on, so that the user can read in the second scene 'study'.
Specifically, the processing control module 20 is further configured to, when the number of the second scenes is greater than 1, perform the following operations:
determining application identifications used for indicating the second scenes;
adding the application identifier into the first interface and forming a second interface, wherein the second interface comprises a scene identifier corresponding to each second scene;
and storing the association relationship between the application identifier and the second interface as pre-stored data.
And determining the scene identification of the second scene corresponding to the scene setting instruction, and forming a second interface associated with the first interface.
Specifically, the processing control module may further obtain a plurality of second scenes, for example, scene identifiers of "entertainment", "reading", and "dining" of the second scenes, set in the second area by the user according to the requirements, and obtain, for each second scene, an equipment identifier of the scene-related equipment associated with the second scene and equipment control parameters for controlling the state of the scene-related equipment by the user. Setting application identifications indicating a plurality of second scenes in the second area, for example, scenes which are collectively referred to as "second area associated scenes" of the second scenes of "entertainment", "reading" and "dining", adding the application identification "second area associated scenes" into the first interface, then forming a second interface composed of scene identifications of the second scenes of "entertainment", "reading" and "dining", and binding the second interface with the application identification "second area associated scenes". And if the user triggers the application identifier 'scene associated with the second area' to be switched to the second interface, displaying the scene identifiers of the second scene 'entertainment', 'reading', 'dining', so that the user can determine the second scene to be switched according to the requirement.
The processing control module 20 is further configured to determine a first area and a first scene corresponding to the scene control instruction when the input signal is the scene control instruction.
A device identification of at least one first smart device associated with a first scenario within a first area is determined from pre-stored data.
And aiming at each equipment identification, determining the corresponding equipment control parameter of the equipment identification in the first scene from pre-stored data.
And converting the device control parameter into a first control signal according to the interface protocol corresponding to the device identifier, and sending the first control signal to the communication interface module 10.
And the communication interface module 10 is configured to send the first control signal to the first intelligent device corresponding to the device identifier, so as to control the first intelligent device.
The processing control module 20 is further configured to, when the input signal is a linkage setting instruction for performing linkage control on at least two third smart devices, perform the following operations:
and acquiring a triggering condition of at least one triggering device, wherein the triggering device is a device in a third intelligent device in at least two third areas, and the triggering condition comprises at least one of device state information of the triggering device, environment state information of an environment where the triggering device is located and time information of current time.
And determining whether at least one target linkage rule triggered by the triggering condition exists in at least one preset linkage rule.
If at least one target linkage rule triggered by the trigger condition exists, aiming at each target linkage rule, executing the following steps:
at least one linkage device associated with the target linkage rule is determined.
And according to the target linkage rule, respectively determining a second control signal aiming at each linkage device.
And respectively sending each second control signal to the corresponding third intelligent equipment through the communication interface module so as to control the third intelligent equipment.
Specifically, the intelligent linkage rule setting is performed by acquiring an intelligent linkage graphical menu in an induction area of the touch panel body of a user in advance. For example, a custom linkage rule is newly created and named, and then trigger conditions are set, where the trigger conditions may be:
1: when the triggering device triggering the triggering condition places a certain position of the sensor of the smart device control panel to be greater than or less than a specified threshold, for example, the temperature read by the temperature sensor is greater than 30 ℃.
2: the state value of any smart device connected to the smart device control panel, for example, the switch state of the motorized window treatment is "off".
3: the current time reaches a certain point or period of time, for example, 9 am to 18 pm on monday through friday.
4: the 1-3 conditions are subjected to various combinations of AND, OR, NOT logical operation and bracket priority operation, for example, temperature is 30 ℃ or relative humidity is higher than 90% ", after the trigger condition is set, linkage action is set, the linkage action can be used for modifying and controlling the switch state or certain operation parameter of linkage equipment in at least one third intelligent device accessed to the intelligent device control panel, or can be used for a certain self-defined scene, and the user selects to enable or disable each self-defined linkage rule from an intelligent linkage graphical menu in a sensing area of the touch panel body, or can delete any unwanted linkage rule. When a certain linkage rule is selected to be started, the processing control module automatically and intelligently controls the triggering condition and the linkage action set according to the linkage rule, for example, a user presets and starts a linkage rule named as "open the curtain in the morning", the triggering condition is that the time reaches 8 am, the linkage action is used as "open the curtain", and when the time of each day reaches 8 am.
Optionally, on the basis of the control panel of the intelligent device provided in the foregoing embodiments, the communication interface module 10 may include an RS485 transceiver circuit, where the RS485 transceiver circuit is used to implement communication between the processing control module 20 and the intelligent device that performs communication by using an RS485 communication interface. As shown in fig. 2, the RS485 transceiver circuit includes: the circuit comprises an RS485 chip U1, a first capacitor C1, a second capacitor C2, a third capacitor C3, a fourth capacitor C4, a first transient suppression diode D1, a second transient suppression diode D2, a third transient suppression diode D3, a first resistor R1, a second resistor R1, a third resistor R3 and a connector Q;
a signal receiving pin RXD of the RS485 chip U1 is connected with a signal output end MCU _ RX of the processing control module 20, and a signal output pin TXD of the RS485 chip U1 is connected with a signal input end MCU _ TX of the processing control module 20;
the working mode control pin RE/DE of the RS485 chip U1 is connected with the mode control end MCU _ RE/DE of the processing control module 20;
the first end of the first capacitor C1 is connected with a direct-current power supply P3V3, and the second end of the first capacitor C1 is grounded;
the first end of a second capacitor C2C is respectively connected with the first end of a first capacitor C1 and a first filter pin VCC11/VCC12 of the RS485 chip U1, and the second end of the second capacitor C2 is connected with the second end of the first capacitor C1;
a first end of a third capacitor C3 is connected with a second filter pin VISOUT/VISOIN of the RS485 chip U1, and a second end of the third capacitor C3 is grounded;
a first end of the fourth capacitor C4 is connected with a first end of the third capacitor C3, and a second end of the fourth capacitor C4 is connected with a second end of the third capacitor C3;
the first end of the first resistor R1 is connected with a first downlink pin Y/A of the RS485 chip U1, and the second end of the first resistor R1 is connected with a first wiring terminal CT485_ A of the connector Q;
a first end of a second resistor R2 is connected with a second downlink pin Z/B of the RS485 chip U1, and a second end of the second resistor R2 is connected with a second terminal CT485_ B of the connector Q;
a first end of the third resistor R3 is connected with a second end of the first resistor R1, and a second end of the third resistor R3 is connected with a second end of the second resistor R2;
the first end of the first transient suppression diode D1 is connected to the second end of the first resistor R1, the second end of the first transient suppression diode D1 is connected to the first end of the second transient suppression diode D2, the second end of the second transient suppression diode D2 is connected to the second end of the second resistor R2, and the second end of the first transient suppression diode D1 is grounded;
a first end of the third transient suppression diode D3 is connected to the second end of the first resistor R1, and a second end of the third transient suppression diode D3 is connected to the second end of the second resistor R2;
and the connector Q is used for being connected with intelligent equipment which adopts an RS485 bus interface for communication.
In the embodiment of the invention, the RS485 communication instruction sending process comprises the following steps: the processing control module 20 sends an instruction to the RS485 transceiver circuit through the bus, the RS485 transceiver circuit converts the instruction signal into a signal instruction which accords with the RS485 standard after receiving the instruction, and the signal instruction is sent to the intelligent equipment which is connected with the connector Q and uses the RS485 bus through the RS485 bus, so that the control of the corresponding intelligent equipment is completed; the receiving process and the sending sequence of the RS485 communication instruction are just opposite, the intelligent device connected with the connector Q sends an instruction, the signal instruction is sent to the RS485 transceiver circuit through the RS485 bus of the 408 bus, the RS485 transceiver circuit converts the standard RS485 signal instruction into a signal instruction which accords with the bus and sends the signal instruction to the processing control module 20, and the instruction response or the request to the processing control module 20 is completed.
In the embodiment of the invention, a sending logic unit module and a receiving logic unit module are integrated in the RS485 chip U1, an electrical isolation module is integrated, and the 485 bus accessed from the outside is isolated from an internal circuit in a direct current electrical mode and coupled with an alternating signal. One end of the MCU _ RX signal is connected to a signal receiving pin of the RS485 chip U1, the other end of the MCU _ RX signal is connected to a corresponding pin of the processing control module 20, and the data electrical signal is sent to the S485 chip U1 by the processing control module 20. One end of the MCU _ TX signal is connected with a signal transmitting pin of the S485 chip U1, the other end of the MCU _ TX signal is connected with a corresponding pin of the processing control module 20, and a data electric signal is transmitted to the S485 chip U1 from the S485 chip U1. One end of the MCU _ RE/DE signal is connected with the working mode control pin of the S485 chip U1, the other end of the MCU _ RE/DE signal is connected with the corresponding pin of the processing control module 20, and the pin of the processing control module 20 controls the working mode of the S485 chip U1 through the signal.
In the embodiment of the present invention, the first capacitor C1 and the second capacitor C2 are power filter capacitors, and the third capacitor C3 and the fourth capacitor C4 are power filter capacitors. The first resistor R1 and the second resistor R2 are filter resistors, and the third resistor R3 is a matching resistor (matching bus impedance), so that the signal receiving capacity is improved. The first transient suppression diode D1, the second transient suppression diode D2 and the third transient suppression diode D3 are transient suppressors and suppress electric surge interference reaching the equipment end on the bus. The signal CT485_ A and the signal CT485_ A are two signal lines of an RS485 bus, the other end of the signal CT485_ A and the other end of the signal CT485_ A are connected with a connector Q, and the external 485 bus can be accessed by the connector Q.
Optionally, on the basis of the control panel of the intelligent device provided in the foregoing embodiments, the control panel of the intelligent device may further include a power conversion module and a power management module, where the power conversion module and the power management module cooperate with each other to provide the required dc voltage for other components. As shown in fig. 3, the power conversion module includes: the current-limiting circuit comprises a fourth transient suppression diode D4, a self-recovery fuse F1, a magnetic bead FB2, a fifth capacitor C5, a sixth capacitor C6, a seventh capacitor C7, an eighth capacitor C8, a ninth capacitor C9, a fourth resistor R4, a fifth resistor R5, a sixth resistor R6, a seventh resistor R7, an eighth resistor R8, a ninth resistor R9, an inductor L, a freewheeling diode D5 and a power supply control chip U2;
the anode of the fourth transient suppression diode D4 is grounded, and the cathode of the fourth transient suppression diode D4 is connected with the KNX bus;
a first end of the self-recovery fuse F1 is connected with a negative electrode of the fourth transient suppression diode D4, a second end of the self-recovery fuse F1 is connected with a first end of the magnetic bead FB2, and a second end of the magnetic bead FB2 is connected with a power input pin VIN of the power control chip U2;
a first end of the fifth capacitor C5 is connected with a first end of the magnetic bead FB2, and a second end of the fifth capacitor C5 is grounded;
a first end of a sixth capacitor C6 is connected with the second end of the magnetic bead FB2, and a second end of the sixth capacitor C6 is grounded;
a first end of the fourth resistor R4 is connected with a second end of the magnetic bead FB2, and a second end of the fourth resistor R4 is connected with a working state control pin EN of the power control chip U2;
a first end of the fifth resistor R5 is connected with a second end of the fourth resistor R4, and a second end of the fifth resistor R5 is grounded;
a first end of the sixth resistor R6 is connected with a frequency setting pin RT/CLK of the power control chip U2, and a second end of the sixth resistor R6 is grounded;
a first end of the inductor L is connected with a power output pin SW of the power control chip U2, and a second end of the inductor L is connected with the power management module 50;
a first end of the seventh resistor R7 is connected with a current supplement control pin COMP of the power control chip U2, a second end of the seventh resistor R7 is connected with a first end of a seventh capacitor C7, and a second end of the seventh capacitor C7 is grounded;
the anode of the freewheeling diode D5 is grounded, and the cathode of the freewheeling diode D5 is connected with the first end of the inductor L;
first ends of an eighth capacitor C8 and a ninth capacitor C9 are connected with a second end of the inductor L, and second ends of the eighth capacitor C8 and the ninth capacitor C9 are grounded;
a first end of the eighth resistor R8 is connected with a second end of the inductor L, a second end of the eighth resistor R8 is respectively connected with a first end of the ninth resistor R9 and a feedback pin FB of the power control chip U2, and a second end of the ninth resistor R9 is grounded;
the power conversion module 40 is configured to convert the first direct current input from the KNX bus into a second direct current of a preset magnitude, and transmit the second direct current to the power management module 50;
and the power management module 50 is configured to convert the second direct current into at least two third direct currents with different sizes, and transmit the third direct currents with corresponding sizes to corresponding power utilization components in the control panel of the intelligent device.
In the embodiment of the invention, the KNX bus is used as an input power supply of the power supply conversion module 40, and the input range of the power supply is 12V-30V. The fourth transient suppression diode D4 is used to suppress the surge voltage on the input power line. When the rear-stage circuit is short-circuited or current overload occurs, the self-recovery fuse F1 acts, the internal impedance becomes very large, and the rear-stage circuit is protected. The magnetic bead FB2 can filter high-frequency noise on a power supply. The fifth capacitor C5 and the sixth capacitor C6 are used for power supply filtering to filter noise on the power supply. The power control chip U2 is a DC/DC controller chip, a logic control module, a switch tube and the like are integrated inside, a pin VIN is power input, a pin EN is a working state control pin, when the voltage on the pin EN is higher than a threshold voltage, the chip starts to work, the resistor connected with the pin RT/CLK can set the PWM square wave frequency inside the power control chip U2, and the PWM square wave cooperates with the logic module inside the power control chip U2 to control the switch tube integrated inside the power control chip U2 to perform on/off actions. The direct current input power supply is output by a pin SW through a switch tube inside the power supply control chip U2. Under the condition that a switching tube integrated in a PWM square wave control power supply control chip U2 normally switches, a pin SW outputs an electric signal in a square wave form, the electric signal is filtered by an inductor L, an eighth capacitor C9 and a ninth capacitor C9, a direct current voltage is finally obtained on a VCC _4V2 node, an eighth resistor R8 and a ninth resistor R9 form a feedback network, the feedback signal is input to a pin FB of the power supply control chip U2 and is matched with a logic control unit in the power supply control chip U2, and finally the output voltage is stabilized at 4.2V (VCC _4V2 represents a network with 4.2V power supply voltage). The freewheeling diode D5, the inductor L, the eighth capacitor C8, the ninth capacitor C9 and the rear-stage load form a circuit loop, and when the switching tube integrated in the power control chip U2 is turned off, the freewheeling diode D5 provides freewheeling to normally work.
Preferably, the communication interface module includes at least two communication interfaces of different bus types, and the at least two communication interfaces are connected to the processing control module, where the communication interfaces of different bus types are connected to different types of external communication buses, and each communication bus is connected to at least one intelligent device that performs communication using a communication rule corresponding to the communication bus.
As shown in fig. 4, an embodiment of the present invention further provides a control method based on any one of the foregoing intelligent device control panels, including:
step 401: the method comprises the steps that an input signal generated when a touch sensing switch module is used for detecting a sensing area of a user touch panel body is sent to a processing control module;
step 402: when the input signal is a scene control instruction, the processing control module is used for determining a first area and a first scene corresponding to the scene control instruction;
step 403: determining, with the process control module, a device identification of at least one first smart device associated with the first scenario within the first area from pre-stored data;
step 404: determining, by the processing control module, for each device identifier, a device control parameter corresponding to the device identifier in the first scene from the pre-stored data;
step 405: converting the equipment control parameter into a first control signal by using the processing control module according to an interface protocol corresponding to the equipment identifier, and sending the first control signal to a communication interface module;
step 406: and sending the first control signal to the first intelligent equipment corresponding to the equipment identifier by using the communication interface module so as to control the first intelligent equipment.
In an embodiment of the present invention, the method for controlling a control panel of an intelligent device further includes:
when the input signal is an area setting instruction for setting a second intelligent device to be associated in a second area, the processing control module is utilized to execute the following operations:
determining a second area corresponding to the area setting instruction;
searching information of at least one second intelligent device located in the second area, and displaying the searched information of the at least one second intelligent device;
determining the area associated equipment screened by the user according to the displayed information of the at least one second intelligent equipment;
determining an equipment identifier of each area-associated equipment, and forming a first interface, wherein the first interface comprises the equipment identifier, and the equipment identifier comprises an equipment name of the area-associated equipment and a first icon corresponding to the equipment name;
storing the association relation between the first interface and the second area as pre-stored data;
when the user requests to control the area intelligent equipment associated with the second area, the first interface associated with the second area in the prestored data is displayed, so that the user can control the area associated equipment through the equipment identification in the first interface.
In an embodiment of the present invention, when the processing control module is used to acquire the scene setting instruction input by the user, the following operations are performed:
determining the scene setting instruction corresponds to a scene identification of a second scene;
when the number of the second scenes is 1, adding the scene identifiers into the first interface, wherein the scene identifiers comprise scene names of the second scenes and second icons corresponding to the scene names;
presenting the at least one second smart device located within the second area;
determining at least one scene associated device screened by the user from the second intelligent device;
acquiring a device control parameter corresponding to each scene-related device in the second scene;
and storing the association relationship between the device control parameter corresponding to each scene association device and the scene identifier as pre-stored data.
In an embodiment of the present invention, when the number of the second scenes is greater than 1, the following operations are performed by using the processing control module:
determining application identifiers used for indicating the second scenes, and determining scene identifiers corresponding to the second scenes respectively;
adding the application identifier into the first interface and forming a second interface, wherein the second interface comprises the scene identifier corresponding to each second scene, and the scene identifier comprises a scene name of the second scene and a second icon corresponding to the scene name;
and storing the association relation between the application identifier and the second interface as pre-stored data.
And determining a scene identification of a second scene corresponding to the scene setting instruction, and forming a second interface associated with the first interface.
In an embodiment of the present invention, when the input signal is an interlocking setting instruction for performing interlocking control on at least two third smart devices, the processing control module is utilized to perform the following operations:
searching for third intelligent equipment in at least one third area corresponding to the linkage setting instruction;
determining a trigger condition of at least one trigger device in the third smart device, wherein the trigger condition includes at least one of device state information of the trigger device, environment state information of an environment where the trigger device is located, and time information of a current time;
determining whether at least one target linkage rule triggered by the trigger condition exists in at least one preset linkage rule;
if at least one target linkage rule triggered by the trigger condition exists, executing the following steps aiming at each target linkage rule:
determining at least one linkage device associated with the target linkage rule;
according to the target linkage rule, respectively determining a second control signal aiming at each linkage device;
and respectively sending each second control signal to the corresponding third intelligent equipment through the communication interface module so as to control the third intelligent equipment.
In an embodiment of the present invention, the processing control module is used to record a start time when the input signal starts to be received and an end time when the input signal is completely transmitted, calculate a difference between the end time and the start time, determine whether the difference is greater than a preset time threshold, and when the difference is greater than the time threshold, execute a first area and a first scene corresponding to a scene control instruction when the input signal is the scene control instruction.
Because the contents of information interaction, execution process, and the like among the units in the device are based on the same concept as the embodiment of the control panel of the intelligent device of the present invention, specific contents can be referred to the description in the embodiment of the control panel of the intelligent device of the present invention, and are not described herein again.
It should be noted that not all steps and modules in the above flows and system structure diagrams are necessary, and some steps or modules may be omitted according to actual needs. The execution sequence of the steps is not fixed and can be adjusted according to the needs. The system structure described in the above embodiments may be a physical structure or a logical structure, that is, some modules may be implemented by the same physical entity, or some modules may be implemented by a plurality of physical entities, or some components in a plurality of independent devices may be implemented together.
In the above embodiments, the hardware unit may be implemented mechanically or electrically. For example, a hardware element may comprise permanently dedicated circuitry or logic (such as a dedicated processor, FPGA or ASIC) to perform the corresponding operations. The hardware elements may also comprise programmable logic or circuitry, such as a general purpose processor or other programmable processor, that may be temporarily configured by software to perform the corresponding operations. The specific implementation (mechanical, or dedicated permanent, or temporarily set) may be determined based on cost and time considerations.
While the invention has been shown and described in detail in the drawings and in the preferred embodiments, it is not intended to limit the invention to the embodiments disclosed, and it will be apparent to those skilled in the art that various combinations of the code auditing means in the various embodiments described above may be used to obtain further embodiments of the invention, which are also within the scope of the invention.

Claims (8)

1. Smart machine control panel, its characterized in that includes: the touch panel comprises a communication interface module, a processing control module, a touch sensing switch module and a panel body;
the communication interface module, the processing control module and the touch sensing switch module are all arranged in the panel body;
the touch sensing switch module is used for detecting an input signal generated when a user touches the sensing area of the panel body and sending the input signal to the processing control module;
the processing control module is configured to determine a first area and a first scene corresponding to a scene control instruction when the input signal is the scene control instruction, determine, from pre-stored data, a device identifier of at least one first smart device associated with the first scene in the first area, determine, for each device identifier, a device control parameter corresponding to the device identifier in the first scene from the pre-stored data, convert the device control parameter into a first control signal according to an interface protocol corresponding to the device identifier, and send the first control signal to the communication interface module;
the communication interface module is used for sending the first control signal to the first intelligent equipment corresponding to the equipment identifier so as to control the first intelligent equipment;
the processing control module is further configured to, when the input signal is an area setting instruction for setting a second smart device to be associated in a second area, perform the following operations:
determining a second area corresponding to the area setting instruction;
searching information of at least one second intelligent device located in the second area, and displaying the searched information of the at least one second intelligent device;
determining the area associated equipment screened by the user according to the displayed information of the at least one second intelligent equipment;
determining an equipment identifier of each area-associated equipment, and forming a first interface, wherein the first interface comprises the equipment identifier, and the equipment identifier comprises an equipment name of the area-associated equipment and a first icon corresponding to the equipment name;
storing the incidence relation between the first interface and the second area as pre-stored data;
when the user requests to control the area intelligent equipment associated with the second area, the first interface associated with the second area in the prestored data is displayed, so that the user can control the area associated equipment through the equipment identification in the first interface.
2. The smart device control panel of claim 1,
the processing control module is further configured to, when the scene setting instruction input by the user is acquired, perform the following operations:
determining a scene identifier of a second scene corresponding to the scene setting instruction;
when the number of the second scenes is 1, adding the scene identifiers into the first interface, wherein the scene identifiers comprise scene names of the second scenes and second icons corresponding to the scene names;
presenting the at least one second smart device located within the second area;
determining at least one scene associated device screened by the user from the second intelligent device;
acquiring a device control parameter corresponding to each scene-related device in the second scene;
and storing the association relationship between the device control parameter corresponding to each scene association device and the scene identifier as pre-stored data.
3. The smart device control panel of claim 2,
the processing control module is further configured to, when the number of the second scenes is greater than 1, perform the following operations:
determining application identifications used for indicating the second scenes;
adding the application identifier into the first interface and forming a second interface, wherein the second interface comprises the scene identifier corresponding to each second scene;
storing the incidence relation between the application identifier and the second interface as pre-stored data;
and determining a scene identification of a second scene corresponding to the scene setting instruction, and forming a second interface associated with the first interface.
4. The smart device control panel of any one of claims 1 to 3,
the processing control module is further configured to, when the input signal is a linkage setting instruction for performing linkage control on at least two third intelligent devices, perform the following operations:
acquiring a trigger condition of at least one trigger device, wherein the trigger device is a device in third intelligent devices in at least two third areas, and the trigger condition includes at least one of device state information of the trigger device, environment state information of an environment where the trigger device is located, and time information of current time;
determining whether at least one target linkage rule triggered by the trigger condition exists in at least one preset linkage rule;
if at least one target linkage rule triggered by the trigger condition exists, executing the following steps aiming at each target linkage rule:
determining at least one linkage device associated with the target linkage rule;
according to the target linkage rule, respectively determining a second control signal aiming at each linkage device;
respectively sending each second control signal to the corresponding third intelligent device through the communication interface module so as to control the third intelligent device;
and/or the presence of a gas in the gas,
the processing control module is further configured to record a start time when the input signal starts to be received and a stop time when the input signal is completely transmitted, calculate a difference between the stop time and the start time, determine whether the difference is greater than a preset duration threshold, and when the difference is greater than the duration threshold, execute, when the input signal is a scene control instruction, determine a first area and a first scene corresponding to the scene control instruction.
5. The control method of the control panel of the smart device of any one of claims 1 to 4, comprising:
the method comprises the steps that an input signal generated when a touch sensing switch module is used for detecting a sensing area of a user touch panel body is sent to a processing control module;
when the input signal is a scene control instruction, the processing control module is used for determining a first area and a first scene corresponding to the scene control instruction;
determining, with the process control module, a device identification of at least one first smart device associated with the first scenario within the first area from pre-stored data;
determining, by the processing control module, for each device identifier, a device control parameter corresponding to the device identifier in the first scene from the pre-stored data;
converting the equipment control parameter into a first control signal by using the processing control module according to an interface protocol corresponding to the equipment identifier, and sending the first control signal to a communication interface module;
sending the first control signal to a first intelligent device corresponding to the device identifier by using the communication interface module so as to control the first intelligent device;
further comprising:
when the input signal is an area setting instruction for setting a second intelligent device to be associated in a second area, the processing control module is used for executing the following operations:
determining a second area corresponding to the area setting instruction;
searching information of at least one second intelligent device located in the second area, and displaying the searched information of the at least one second intelligent device;
determining the area associated equipment screened by the user according to the displayed information of at least one second intelligent equipment;
determining an equipment identifier of each area-associated equipment, and forming a first interface, wherein the first interface comprises the equipment identifier, and the equipment identifier comprises an equipment name of the area-associated equipment and a first icon corresponding to the equipment name;
storing the association relation between the first interface and the second area as pre-stored data;
when the user requests to control the area intelligent equipment associated with the second area, the first interface associated with the second area in the prestored data is displayed, so that the user can control the area associated equipment through the equipment identification in the first interface.
6. The control method according to claim 5,
when the processing control module is used for acquiring the scene setting instruction input by the user, the following operations are executed:
determining a scene identifier of a second scene corresponding to the scene setting instruction;
when the number of the second scenes is 1, adding the scene identifiers into the first interface, wherein the scene identifiers comprise scene names of the second scenes and second icons corresponding to the scene names;
displaying the at least one second smart device located within the second area;
determining at least one scene correlation device screened by the user from the second intelligent device;
acquiring a device control parameter corresponding to each scene-related device in the second scene;
and storing the association relationship between the device control parameter corresponding to each scene association device and the scene identifier as pre-stored data.
7. The control method according to claim 6,
when the number of the second scenes is larger than 1, the following operations are executed by the processing control module:
determining application identifiers used for indicating the second scenes, and determining scene identifiers corresponding to the second scenes respectively;
adding the application identifier into the first interface and forming a second interface, wherein the second interface comprises the scene identifier corresponding to each second scene, and the scene identifier comprises a scene name of the second scene and a second icon corresponding to the scene name;
storing the incidence relation between the application identifier and the second interface as pre-stored data;
and determining a scene identification of a second scene corresponding to the scene setting instruction, and forming a second interface associated with the first interface.
8. The control method according to any one of claims 5 to 7,
when the input signals are linkage setting instructions for linkage control of at least two third intelligent devices, the processing control module is utilized to execute the following operations:
searching for third intelligent equipment in at least one third area corresponding to the linkage setting instruction;
determining a trigger condition of at least one trigger device in the third smart device, wherein the trigger condition includes at least one of device state information of the trigger device, environment state information of an environment where the trigger device is located, and time information of a current time;
determining whether at least one target linkage rule triggered by the trigger condition exists in at least one preset linkage rule;
if at least one target linkage rule triggered by the trigger condition exists, executing the following steps aiming at each target linkage rule:
determining at least one linkage device associated with the target linkage rule;
according to the target linkage rule, respectively determining a second control signal aiming at each linkage device;
respectively sending each second control signal to the corresponding third intelligent device through the communication interface module so as to control the third intelligent device;
and/or the presence of a gas in the gas,
recording the starting time when the input signal is started to be received and the ending time when the input signal is completely transmitted by using the processing control module, calculating the difference value between the ending time and the starting time, determining whether the difference value is greater than a preset time threshold value, and when the difference value is greater than the time threshold value, executing a first area and a first scene corresponding to a scene control instruction when the input signal is the scene control instruction.
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