CN112526907A - Control system and method based on Zigbee wireless transmission and multifunctional panel - Google Patents

Abstract

The embodiment of the application discloses a control system and a method based on Zigbee wireless transmission and a multifunctional panel; the method comprises the following steps: the mobile terminal comprises a mobile terminal, a Zigbee gateway, a control panel, a plurality of execution devices and a power supply module; the control panel comprises an MCU (microprogrammed control Unit) controller, a Zigbee wireless transmission module, a key detection module, a proximity sensing module, a vibration module, a temperature detection module, an LED indicator lamp and an LED lamp driving module; the execution equipment establishes connection with the mobile terminal through the Zigbee gateway; the MCU controller establishes connection with the mobile terminal sequentially through the Zigbee wireless transmission module and the Zigbee gateway; the key detection module is connected with the MCU controller; according to the embodiment of the application, the keys and the functions of the control panel are flexibly configured according to requirements, the corresponding execution equipment is bound, the control panel can be used for controlling the execution equipment, and meanwhile, the working state of the execution equipment can be known through the mobile terminal, so that the application is convenient and practical, and the cost is saved.

Description

Control system and method based on Zigbee wireless transmission and multifunctional panel

Technical Field

The embodiment of the application relates to the technical field of intelligent equipment control, in particular to a control system and method based on Zigbee wireless transmission and a multifunctional panel.

Background

With the progress of science and technology, more and more intelligent devices enter thousands of families, a control panel is used as a basic unit of the intelligent control device, and the intelligent control panel on the market at present generally adopts a single type of control command to control and adjust the devices, for example, the intelligent control panel can only control the on-off of lamplight and can only control the on-off action; a single scene control panel only supports a triggered scene control panel of a scene; the dimming control panel supports only brightness adjustment and the like; if a plurality of devices are needed, a plurality of control panels with different functions are needed to realize the control effect, and a lot of inconvenience exists in the actual use, which causes great cost.

Disclosure of Invention

The embodiment of the application provides a control system and a control method based on Zigbee wireless transmission and a multifunctional panel, and aims to solve the problems that in the prior art, when multiple intelligent devices are used, multiple control panels are needed to be used for control, the control is inconvenient, and the cost is high.

In a first aspect, an embodiment of the present application provides a control system of a multifunctional panel based on Zigbee wireless transmission, including: the mobile terminal, the Zigbee gateway, the control panel, the execution equipment and the power module; the control panel comprises an MCU controller, a Zigbee wireless transmission module and a key detection module.

The execution equipment establishes connection with the mobile terminal through the Zigbee gateway; the MCU controller establishes connection with the mobile terminal sequentially through the Zigbee wireless transmission module and the Zigbee gateway; the key detection module is connected with the MCU controller.

The mobile terminal sends a control configuration signal to the MCU controller so as to control the MCU controller to configure a key mode and a key function; and the mobile terminal sends a binding signal to the MCU controller and the execution equipment so as to control the execution equipment to be bound with the MCU controller.

The key detection module is used for detecting a key instruction signal and sending the key instruction signal to the MCU controller, and the MCU controller sends a control execution signal to the execution equipment according to the key instruction signal.

The execution equipment works according to the control execution signal and sends a working state signal to the MCU controller and the mobile terminal; the power module is used for supplying power to the control panel and the execution equipment.

Further, the control panel further includes: the LED lamp driving module is connected with the LED indicating lamp and the MCU controller.

Further, the control panel further includes: the proximity sensing module and the vibration module are connected with the MCU controller; the proximity sensing module is used for detecting a sensing signal and sending the sensing signal to the MCU controller so as to control the MCU controller to enter a working mode; the MCU controller sends a vibration signal to control the vibration module to vibrate.

Furthermore, the control module also comprises a temperature detection module, and the temperature detection module is connected with the MCU controller; and detecting the temperature of the control panel in real time through a temperature detection module of the control panel and sending the temperature to the MCU controller.

Furthermore, the control module further comprises a temperature detection module, and the temperature detection module is connected with the MCU controller.

Further, the power supply module comprises a direct current conversion module and a relay module, the direct current conversion module is connected with a power supply end and the control panel, and the relay module is connected with the direct current conversion module, the MCU controller and the execution equipment.

In a second aspect, an embodiment of the present application provides a method for controlling a multifunctional panel based on Zigbee wireless transmission, where the method includes the following steps:

the mobile terminal sends a control configuration signal to an MCU controller of a control panel so as to control the MCU controller to configure a key mode and a key function;

the mobile terminal sends a binding signal to the MCU controller and the execution equipment to control the execution equipment to be bound with the MCU controller;

when the MCU controller receives a key instruction signal, sending a control execution signal to the execution equipment according to the key instruction signal; and the execution equipment works according to the control execution signal and sends a working state signal to the MCU controller and the mobile terminal.

Further, the controlling the MCU controller to configure the key mode and the key function includes:

and the MCU controller configures a key mode, a key endpoint, a key trigger function and a control panel function cluster according to the control configuration signal.

Further, the MCU controller receives the key command signal, which includes:

the sensing signal is detected by a proximity sensing module of the control panel and is sent to the MCU controller so as to control the MCU controller to enter a working mode;

detecting a key signal through a key detection module of the control panel, and sending a corresponding key instruction signal to the MCU controller;

detecting the temperature of the control panel in real time through a temperature detection module of the control panel and sending the temperature to the MCU controller;

when the temperature of the control panel is detected to be too high, the vibration module sends a vibration sensing signal to the control panel through the MCU controller, and the vibration module is controlled to vibrate.

Further, before the mobile terminal sends a control configuration signal to the MCU controller of the control panel to control the MCU controller to configure the key mode and the key function, the method further includes:

the control panel is powered by a direct current conversion module of the power supply module, and the execution equipment is powered by a relay module of the power supply module;

the method comprises the steps of configuring network addresses of a Zigbee gateway, a control panel and an execution device, enabling the control panel and the execution device to be in wireless connection with the Zigbee gateway, and enabling the control panel and the execution device to be in connection with a mobile terminal through the Zigbee gateway.

Further, after the executing device performs work according to the control executing signal and sends a working state signal to the control panel and the mobile terminal, the method further includes:

and the control panel receives the working state signal of the execution equipment and adjusts the brightness and the color of an LED indicator lamp of the control panel.

According to the embodiment of the application, the mobile terminal is connected with the control panel and the execution equipment, the key mode and the key function are configured through the mobile terminal control panel, and the mobile terminal control panel is bound with the corresponding execution equipment, so that the execution equipment is controlled to work correspondingly according to the key instruction, the key and the function of the control panel are flexibly configured according to requirements, the corresponding execution equipment is bound, a plurality of execution equipment can be controlled by one control panel, and meanwhile, the working state of the execution equipment can be known through the mobile terminal, the mobile terminal control device is convenient and practical, and the cost is saved.

Drawings

Fig. 1 is a schematic structural diagram of a control system of a multifunctional panel based on Zigbee wireless transmission according to an embodiment of the present application;

fig. 2 is a schematic control panel structure diagram of a control system of a multifunctional panel based on Zigbee wireless transmission according to an embodiment of the present application;

fig. 3 is a flowchart of a method for controlling a multifunctional panel based on Zigbee wireless transmission according to an embodiment of the present application;

fig. 4 is a flowchart illustrating an operation of an executing device of a control method for a multifunctional panel based on Zigbee wireless transmission according to an embodiment of the present application;

fig. 5 is a flowchart of another control method for a multifunctional panel based on Zigbee wireless transmission according to an embodiment of the present application;

100, a mobile terminal; 200. a cloud server; 300. a Zigbee gateway; 410. curtain-like devices; 420. a light-dimming device; 430. a switching type device; 500. a control panel; 510. an MCU controller; 520. an LED lamp driving module; 530. a vibration module; 540. a temperature sensor module; 550. a key detection module; 560. a proximity sensing module; 600. a power supply module; 610. a direct current conversion module; 620. a relay module.

Detailed Description

In order to make the objects, technical solutions and advantages of the present application more apparent, specific embodiments of the present application will be described in detail with reference to the accompanying drawings. It is to be understood that the specific embodiments described herein are merely illustrative of the application and are not limiting of the application. It should be further noted that, for the convenience of description, only some but not all of the relevant portions of the present application are shown in the drawings. Before discussing exemplary embodiments in more detail, it should be noted that some exemplary embodiments are described as processes or methods depicted as flowcharts. Although a flowchart may describe the operations (or steps) as a sequential process, many of the operations can be performed in parallel, concurrently or simultaneously. In addition, the order of the operations may be re-arranged. The process may be terminated when its operations are completed, but may have additional steps not included in the figure. The processes may correspond to methods, functions, procedures, subroutines, and the like.

The application provides a control system of multi-functional panel based on Zigbee wireless transmission this application embodiment is through setting up being connected of mobile terminal and control panel and executive device, dispose button mode and button function through mobile terminal control panel, and bind with corresponding executive device, thereby control the executive device and carry out corresponding work according to the button instruction, realize nimble button and the function to control panel according to the demand and dispose, and bind corresponding executive device, adopt a control panel can realize controlling a plurality of executive device promptly, and is convenient and practical, and the cost is saved. In order to realize the control of a plurality of intelligent execution devices, the conventional panel can only bind and control a single type of target and cannot be changed into other control types, for example, a relay panel is switched on and off, a relay of a panel base can only be controlled to switch on and off other devices, curtain switch control cannot be added, the brightness of a dimming lamp is controlled, and the scene triggers the lamp function. The panel has single function, and a plurality of panels are needed to realize the control of a plurality of functions. Based on this, the control system of the multifunctional panel based on Zigbee wireless transmission of this application embodiment is provided to avoid the problem that when using multiple intelligent equipment in the prior art, it is inconvenient to need to adopt a plurality of control panels to control, and cause with high costs simultaneously.

Fig. 1 is a schematic structural diagram of a control system of a multifunctional panel based on Zigbee wireless transmission according to an embodiment of the present application. Referring to fig. 1, the control system includes: the mobile terminal 100, the Zigbee gateway 300, the control panel, the execution device, and the power module 600; the control panel comprises an MCU (microprogrammed control Unit) controller 510, a Zigbee wireless transmission module, a key detection module 550, an LED indicator light, an LED light driving module 520, a proximity sensing module 560, a vibration module 530 and a temperature detection module 540; the power module 600 includes a dc conversion module 610 and a relay module 620.

Specifically, the execution device establishes a connection with the mobile terminal 100 through the Zigbee gateway 300; the MCU controller 510 establishes a connection with the mobile terminal 100 sequentially through the Zigbee wireless transmission module and the Zigbee gateway 300; the MCU controller 510 is connected to the key detection module 550, the LED lamp driving module 520, the proximity sensing module 560, the vibration module 530 and the temperature detection module 540, and the LED lamp driving module 520 is connected to the LED indicator; the dc power conversion module 610 is connected to a power source terminal and the control panel, and the relay module 620 is connected to the dc power conversion module 610, the MCU controller 510 and the execution device.

The mobile terminal 100 sends a control configuration signal to the MCU controller 510 to control the MCU controller 510 to configure the key mode and the key function, and the mobile terminal 100 sends a binding signal to the MCU controller 510 and the execution device to control the execution device to bind with the MCU controller 510.

The key detection module 550 is configured to detect a key instruction signal and send the key instruction signal to the MCU controller 510, and the MCU controller 510 sends a control execution signal to the execution device according to the key instruction signal.

Wherein, the execution device works according to the control execution signal and sends a working state signal to the MCU controller 510 and the mobile terminal 100; the power module 600 is used for supplying power to the control panel and the execution device.

The MCU controller 510 receives the operating status signal of the execution device and controls the LED lamp driving module 520 to operate, so as to control the indicator lamp to be on and control the corresponding brightness and color of the indicator lamp.

The proximity sensing module 560 detects a sensing signal and sends the sensing signal to the MCU controller 510, so as to control the MCU controller 510 to enter a working mode;

the MCU controller 510 receives the key command signal of the key detection module 550, and sends a vibration sensing signal to the vibration module 530 to control the vibration module 530 to vibrate.

The temperature detection module 540 is configured to detect the temperature of the control panel in real time and send the temperature to the MCU controller 510, and when the temperature of the control panel is too high, the MCU controller 510 controls the vibration module 530 to send a vibration prompt.

The control panel is powered by the dc conversion module 610, and the execution devices are powered by the relay module 620, wherein the relay control circuit is a multi-output circuit configured to power a plurality of execution devices.

Illustratively, the mobile terminal 100 is a mobile phone APP or an applet; the mobile terminal 100 communicates with a cloud service through a mobile network, is connected with a control panel through the Zigbee gateway 300, acquires information conditions of the control panel, configures a key mode and a control target operation of the control panel by an APP, generates a control configuration instruction, and sends the control configuration instruction to the control panel.

Illustratively, the execution devices are Zigbee curtain type devices 410, Zigbee dimming type devices 420 and Zigbee switch type devices 430, wherein the mobile APP sends a control configuration signal 3 to the control panel to control the control panel to configure a key mode, a key endpoint, a key function corresponding to the key endpoint, and a function cluster of the control panel itself, and meanwhile, the mobile APP sends a curtain binding signal 4 or a dimming type device 420 binding signal 5 or a switch type device 430 binding signal 6 to control the corresponding execution device to bind with the control panel; optionally, if the control panel is controlled by the control configuration signal 3 to configure the window curtains, the mobile APP sends a curtain binding signal 4 to the Zigbee window curtain device 410, so that the Zigbee window curtain device 410 is bound with the MCU controller 510.

Specifically, when the control panel receives a key instruction, the control panel is a touch control panel; when a key of the control panel is pressed, the currently pressed key mode is determined, and according to the difference of the key modes, a control command is sent to the corresponding execution device to control the execution device to execute the corresponding work, and the working state is forwarded to the mobile terminal 100 through the Zigbee gateway 300, so that the user can know the working state condition of the execution device, and further adjust and control the work of the execution device.

For example, referring to fig. 1 and 4, when a panel key is pressed, a currently pressed key mode is determined, and a scene execution signal 10, a curtain execution signal 11, a dimming device 420 execution signal 12, or a switching device 430 execution signal 13 is sent according to the difference of the key modes to control the corresponding devices to operate.

When the key mode is scene triggering, the scene execution signal 10 is sent to perform scene triggering, the gateway needs to configure the content of the execution device in advance, and then a response action command is sent to the actuator through the curtain binding signal 4, the dimming device 420 binding signal 5 and the switch device 430 binding signal 6, so that the control configuration signal 3 is sent while the scene is executed, and the indicator light of the triggered key changes color to indicate the triggering effect. And the gateway forwards the working feedback signal to the APP, so that the APP displays the scene execution condition.

When the key mode is curtain type, a curtain execution signal 11 is sent to control the curtain, then the curtain reports the state to the panel through a curtain working feedback signal 7, and the panel indicator light is changed to be synchronous with the movement state of the curtain. The percentage of the curtain is reported to the gateway through the curtain working feedback signal 14, and then the gateway forwards the working feedback signal to the APP, so that the APP displays the condition of the opening and closing state of the curtain.

When the key mode is the dimming class, the sending dimming class device 420 executes the signal 12 to control the brightness on-off state of the dimming class device 420. Then, the dimming device 420 reports the switch state to the panel through the working feedback signal 8 of the dimming device 420 to change the panel indicator light, and the panel state is kept consistent with the state of the dimming device 420. The current brightness percentage of the dimming lamp and the lamp on-off state are reported to the gateway through the working feedback signal 15 of the dimming equipment 420, and the gateway forwards the working feedback signal to the APP, so that the APP displays the state condition of the current dimming lamp.

When the key mode is the switch type, the switch type equipment 430 executing signal 13 is sent to control on and off, wherein the switch type equipment 430 comprises relay equipment, then the relay equipment reports the on-off state of the relay to the panel synchronous display key indicator lamp through the switch type equipment 430 working feedback signal 9, the relay reports the on-off state of the relay to the gateway through the switch type equipment 430 working feedback signal 16, and the gateway forwards the working feedback signal to the APP, so that the APP can display the state of the currently controlled relay in real time.

Specifically, referring to fig. 4, the control panel receives a control configuration signal sent by the mobile terminal 100, and configures the key mode and the key function of the control panel according to the control configuration signal, which optionally includes configuring the key mode, the key endpoint, the key trigger function, and the control panel function cluster.

Illustratively, the control panel configuration function cluster includes: the key terminals are set as 100-102, 200-204, 300-304 and 400; setting the color value of the key indicator lamp to be 0x000000-0 xFFFFFF; the trigger indicator light brightness ratio is set to 0-100%; the non-triggered indicator light brightness ratio is set to 0-100%; the vibration feedback enable signal is set to 0 and 1; the vibration feedback intensity grade is set to be 1-10 grade; the proximity sensing enable signal is set to 0 and 1; the proximity sensing sensitivity is set to 0x01, 0x02, and 0x 03; the power saving mode enable signal is set to 0 and 1; setting the time of the energy-saving mode to be 0-5 min; the power saving mode luminance ratio is set to 0-100%.

Illustratively, the key modes, key endpoints and key activation functions of the control panel include:

switches: the short press trigger, the specific command includes: three types of on (100), off (101) and switching (102); the key mode is switch type, 100, 101 and 102 represent switch type key end points, and the on, off and switching represent switch type key trigger functions.

Curtains: the short press trigger, the specific command includes: open (200), close (201), stop (202), open/stop (203), close/stop (204); the key mode is curtain, 200, 201, 202, 203 and 204 represent the end points of the curtain key; open, close, stop, open/stop, close/stop represent a curtain like key function.

Dimming class: using key operation: short press + long press + release, specific command: step-dimming/self-increasing dimming/stop regulation (300), step-dimming/self-decreasing dimming/stop regulation (301) on/self-increasing dimming/stop regulation (302), off/self-increasing dimming/stop regulation (303), switching/self (increasing/decreasing) regulation (bright/dark)/stop regulation (304); wherein, the key mode is a dimming type; 300. 301, 302, 303, 304 represent dimming class key endpoint key contacts; step-up/self-increasing/stop adjustment, step-down/self-decreasing/stop adjustment on/self-increasing/stop adjustment, off/self-increasing/stop adjustment, switching/self (increasing/decreasing) adjustment (bright/dark)/stop adjustment all represent dimming-like key functions.

Scene class: supporting a short press trigger scenario (400); the key mode is a scene type, and the scene type key endpoint is 400.

For example, referring to fig. 2, the key detection module 550 can sensitively and effectively detect a touch signal of a user and send the touch signal to the MCU controller 510, the MCU controller 510 determines the input touch signal, controls the vibration feedback module to perform vibration feedback, and reminds the user of successfully triggering a key, and performs an action according to a key function of the corresponding touch key to control a corresponding RGB value so that the LED indicator changes color and indicates a key switching effect. Wherein, for the key function being switch type, the control object bound by the key can be switched on/off; for the key function being a dimming type, the bound dimming device 420 adjusts the brightness of the light, such as step dimming and gradual dimming, according to the key configuration command; wherein, for the function of the button being a curtain type, the bound curtain type device 410 can realize the effects of opening/closing/stopping, opening/stopping, closing/stopping, etc.; in the method, for a scene type of the key function, a preset scene of the Zigbee gateway 300 can be triggered, so that the device in the scene acts. It can be understood that, the 4 groups of relays of the power tolerant module are bound with the keys of the control panel, so that one-to-one trigger effect with the switch device 430, the curtain device 410, the dimming device 420 and the scene device can be realized, and other household appliances can be controlled by unbinding.

For example, referring to fig. 2, the dc power conversion module 610 of the power module 600 converts 220V ac power of the household power grid into 5V dc power for the control panel to supply power to the control panel; meanwhile, the direct current conversion module 610 inputs 5V direct current to the relay module 620, optionally, the relay module 620 includes a 4-way relay, the MCU controller 510 of the control panel controls the 4-way relay switch to control the output of the 4-way relay output power or stop the output, and the operation of the 4-way relay is controlled by the key function of the MCU controller 510; it can be understood that a 4-way relay outputs power to the Zigbee gateway 300, the curtain class device 410, the switch class device 430, and the dimming class device 420, respectively.

For example, referring to fig. 1, when the control panel receives a curtain operation feedback signal 7, a dimming device 420 operation feedback signal 8, and a switching device 430 operation feedback signal 9, and according to different operation feedback signals, that is, different key modes, the MCU 510 controls the LED lamp driving circuit, so as to drive the LED indicator lamp to light according to the set brightness and color.

For example, under the condition of configuring the function cluster for the control panel, more personalized functions can be realized, such as configuration of a key indicator, optionally, selecting an indicator for configuring a key in the APP, modifying configuration parameters, saving the configuration parameters, sending the configuration parameters to the control panel, reconfiguring attributes under the configuration function cluster of the control panel, and realizing configuration of colors, brightness and the like of the indicator. It can be understood that the APP can also perform parameter configuration, key mode selection, and function configuration on modules such as the vibration sensing module and the proximity sensing module.

Fig. 3 is a flowchart of a method for controlling a multifunctional panel based on Zigbee wireless transmission according to an embodiment of the present application. Referring to fig. 3, the method specifically includes:

step 110, the mobile terminal 100 sends a control configuration signal to the MCU controller 510 of the control panel to control the MCU controller 510 to configure the key mode and the key function.

Specifically, a Zigbee wireless control network is set to implement wireless connection between the control panel, the execution device, and the Zigbee gateway 300; the network addresses of the Zigbee gateway 300, the control panel, and the execution device need to be configured correspondingly, so that the Zigbee gateway 300, the control panel, and the execution device can communicate with each other; the mobile terminal 100 is connected to the Zigbee gateway 300 through a cloud service, so as to be connected to a control panel and an execution device.

Specifically, after the Zigbee gateway 300, the control panel, and the execution device are configured in a wireless connection manner, the Zigbee gateway 300 receives a control signal from the mobile terminal 100 through the internet cloud server 200, and forwards the control signal to the control panel and the execution device, and the control panel receives and configures the mode function attribute according to the control signal, it can be understood that different control signals are sent to the control panel according to different mode function requirements, and the control panel performs corresponding mode function attribute configuration, that is, the mode function attribute of the control panel can be changed according to user settings.

Step 120, the mobile terminal 100 sends a binding signal to the MCU controller 510 and the execution device to control the execution device to bind with the MCU controller 510.

Specifically, the mobile terminal 100 sends a binding signal to the MCU controller 510 and the execution device, and binds the control panel and the execution device to each other according to the mode function attribute configured on the control panel, so that the corresponding execution device executes the relevant operation when the control panel receives the key instruction.

For example, referring to fig. 1, a mobile phone APP is connected to a Zigbee gateway 300 through a cloud server, so as to be connected to an execution device and a control panel through the Zigbee gateway 300; optionally, the executing devices include a Zigbee curtain class device 410, a Zigbee dimming class device 420, and a Zigbee switch class device 430. The mobile APP sends a control configuration signal 3 to the control panel to control the control panel to configure a key mode, a key endpoint, a key function corresponding to the key endpoint and a function cluster of the control panel, and meanwhile, the mobile APP sends a curtain binding signal 4 or a dimming device 420 binding signal 5 or a switch device 430 binding signal 6 to control a corresponding execution device to be bound with the control panel; optionally, if the control panel is controlled by the control configuration signal 3 to configure the window curtains, the mobile APP sends a curtain binding signal 4 to the Zigbee window curtain device 410, so that the Zigbee window curtain device 410 is bound with the MCU controller 510.

Step 130, when the MCU controller 510 receives a key instruction signal, sending a control execution signal to the execution device according to the key instruction signal; the execution device operates according to the control execution signal and transmits an operating state signal to the MCU controller 510 and the mobile terminal 100.

Specifically, when the control panel receives a key instruction, the control panel is a touch control panel; when a key of the control panel is pressed, the currently pressed key mode is determined, and the MCU controller 510 sends a control command to the corresponding execution device according to the difference of the key modes, controls the execution device to execute corresponding work, and forwards the working state to the mobile terminal 100 through the Zigbee gateway 300, so that the user can know the working state of the execution device, and further adjust and control the work of the execution device.

For example, referring to fig. 1 and 4, when a panel key is pressed, a currently pressed key mode is determined, and a scene execution signal 10, a curtain execution signal 11, a dimming device 420 execution signal 12, or a switching device 430 execution signal 13 is sent according to the difference of the key modes to control the corresponding devices to operate.

When the key mode is scene triggering, the scene execution signal 10 is sent to perform scene triggering, the gateway needs to configure the content of the execution device in advance, and then a response action command is sent to the actuator through the curtain binding signal 4, the dimming device 420 binding signal 5 and the switch device 430 binding signal 6, so that the control configuration signal 3 is sent while the scene is executed, and the indicator light of the triggered key changes color to indicate the triggering effect. And the gateway forwards the working feedback signal to the APP, so that the APP displays the scene execution condition.

When the key mode is curtain type, a curtain execution signal 11 is sent to control the curtain, then the curtain reports the state to the panel through a curtain working feedback signal 7, and the panel indicator light is changed to be synchronous with the movement state of the curtain. The percentage of the curtain is reported to the gateway through the curtain working feedback signal 14, and then the gateway forwards the working feedback signal to the APP, so that the APP displays the condition of the opening and closing state of the curtain.

When the key mode is the dimming class, the sending dimming class device 420 executes the signal 12 to control the brightness on-off state of the dimming class device 420. Then, the dimming device 420 reports the switch state to the panel through the working feedback signal 8 of the dimming device 420 to change the panel indicator light, and the panel state is kept consistent with the state of the dimming device 420. The current brightness percentage of the dimming lamp and the lamp on-off state are reported to the gateway through the working feedback signal 15 of the dimming equipment 420, and the gateway forwards the working feedback signal to the APP, so that the APP displays the state condition of the current dimming lamp.

When the key mode is the switch type, the switch type equipment 430 executing signal 13 is sent to control on and off, wherein the switch type equipment 430 comprises relay equipment, then the relay equipment reports the on-off state of the relay to the panel synchronous display key indicator lamp through the switch type equipment 430 working feedback signal 9, the relay reports the on-off state of the relay to the gateway through the switch type equipment 430 working feedback signal 16, and the gateway forwards the working feedback signal to the APP, so that the APP can display the state of the currently controlled relay in real time.

The above steps are not performed in the exact order in which they are described, which should be understood as an overall solution.

On the basis of the foregoing embodiments, fig. 5 is a flowchart illustrating another method for controlling a multifunctional panel based on Zigbee wireless transmission according to an embodiment of the present application. The method for controlling a multifunctional panel based on Zigbee wireless transmission is embodied by the method for controlling a multifunctional panel based on Zigbee wireless transmission. Referring to fig. 5, the method for controlling a multifunctional panel based on Zigbee wireless transmission includes:

step 210, the MCU controller 510 configures a key mode, a key endpoint, a key triggering function, and a control panel function cluster according to the control configuration signal.

Specifically, referring to fig. 4, the control panel receives a control configuration signal sent by the mobile terminal 100, and configures the key mode and the key function of the control panel according to the control configuration signal, which optionally includes configuring the key mode, the key endpoint, the key trigger function, and the control panel function cluster.

Illustratively, the control panel configuration function cluster includes: the key terminals are set as 100-102, 200-204, 300-304 and 400; setting the color value of the key indicator lamp to be 0x000000-0 xFFFFFF; the trigger indicator light brightness ratio is set to 0-100%; the non-triggered indicator light brightness ratio is set to 0-100%; the vibration feedback enable signal is set to 0 and 1; the vibration feedback intensity grade is set to be 1-10 grade; the proximity sensing enable signal is set to 0 and 1; the proximity sensing sensitivity is set to 0x01, 0x02, and 0x 03; the power saving mode enable signal is set to 0 and 1; setting the time of the energy-saving mode to be 0-5 min; the power saving mode luminance ratio is set to 0-100%.

Illustratively, the key modes, key endpoints and key activation functions of the control panel include:

switches: the short press trigger, the specific command includes: three types of on (100), off (101) and switching (102); the key mode is switch type, 100, 101 and 102 represent switch type key end points, and the on, off and switching represent switch type key trigger functions.

Curtains: the short press trigger, the specific command includes: open (200), close (201), stop (202), open/stop (203), close/stop (204); the key mode is curtain, 200, 201, 202, 203 and 204 represent the end points of the curtain key; open, close, stop, open/stop, close/stop represent a curtain like key function.

Dimming class: using key operation: short press + long press + release, specific command: step-dimming/self-increasing dimming/stop regulation (300), step-dimming/self-decreasing dimming/stop regulation (301) on/self-increasing dimming/stop regulation (302), off/self-increasing dimming/stop regulation (303), switching/self (increasing/decreasing) regulation (bright/dark)/stop regulation (304); wherein, the key mode is a dimming type; 300. 301, 302, 303, 304 represent dimming class key endpoint key contacts; step-up/self-increasing/stop adjustment, step-down/self-decreasing/stop adjustment on/self-increasing/stop adjustment, off/self-increasing/stop adjustment, switching/self (increasing/decreasing) adjustment (bright/dark)/stop adjustment all represent dimming-like key functions.

Scene class: supporting a short press trigger scenario (400); the key mode is a scene type, and the scene type key endpoint is 400.

Step 220, detecting a sensing signal through a proximity sensing module 560 of the control panel and sending the sensing signal to the MCU controller 510 to control the MCU controller 510 to enter a working mode;

specifically, the sensing signal is detected by the proximity sensing module 560 and sent to the MCU controller 510, the MCU controller 510 is woken up to enter the working mode, and meanwhile, the MCU controller 510 controls the brightness of the indicator light, and determines whether the MCU controller 510 is in the normal working mode according to the brightness of the indicator light.

Illustratively, the MCU controller 510 sends a control signal to the LED lamp driving module 520, so that the LED lamp driving module 520 drives the LED indicator lamp to light up to a predetermined brightness and color.

Step 230, detecting a key signal through the key detection module 550 of the control panel, and sending a corresponding key instruction signal to the MCU controller 510;

for example, referring to fig. 2, the key detection module 550 can sensitively and effectively detect a touch signal of a user and send the touch signal to the MCU controller 510, the MCU controller 510 determines the input touch signal, controls the vibration feedback module to perform vibration feedback, and reminds the user of successfully triggering a key, and performs an action according to a key function of the corresponding touch key to control a corresponding RGB value so that the LED indicator changes color and indicates a key switching effect. Wherein, for the key function being switch type, the control object bound by the key can be switched on/off; for the key function being a dimming type, the bound dimming device 420 adjusts the brightness of the light, such as step dimming and gradual dimming, according to the key configuration command; wherein, for the function of the button being a curtain type, the bound curtain type device 410 can realize the effects of opening/closing/stopping, opening/stopping, closing/stopping, etc.; in the method, for a scene type of the key function, a preset scene of the Zigbee gateway 300 can be triggered, so that the device in the scene acts. It can be understood that, the 4 groups of relays of the power tolerant module are bound with the keys of the control panel, so that one-to-one trigger effect with the switch device 430, the curtain device 410, the dimming device 420 and the scene device can be realized, and other household appliances can be controlled by unbinding.

Step 240, detecting the temperature of the control panel in real time through a temperature detection module of the control panel and sending the temperature to the MCU controller; when the temperature of the control panel is detected to be too high, the MCU 510 sends a vibration signal to the vibration module 530 of the control panel to control the vibration module 530 to vibrate.

Illustratively, the key detection module 550 can sensitively and effectively detect the touch signal of the user and send the touch signal to the MCU controller 510, and the MCU controller 510 determines the input touch signal and controls the vibration feedback module to perform vibration feedback to remind the user of successfully triggering the key.

On the basis of the above embodiment, the method for controlling a multifunctional panel based on Zigbee wireless transmission may further be embodied as: before the mobile terminal 100 sends a control configuration signal to the MCU controller 510 of the control panel to control the MCU controller 510 to configure the key mode and the key function, the method further includes:

the control panel is powered by the direct current conversion module 610 of the power module 600, and the execution equipment is powered by the relay module 620 of the power module 600;

the network addresses of the Zigbee gateway 300, the control panel, and the execution device are configured so that the control panel and the execution device establish a wireless connection with the Zigbee gateway 300, and thus the control panel and the execution device establish a connection with the mobile terminal 100 through the Zigbee gateway 300.

For example, referring to fig. 2, the dc power conversion module 610 of the power module 600 converts 220V ac power of the household power grid into 5V dc power for the control panel to supply power to the control panel; meanwhile, the direct current conversion module 610 inputs 5V direct current to the relay module 620, optionally, the relay module 620 includes a 4-way relay, the MCU controller 510 of the control panel controls the 4-way relay switch to control the output of the 4-way relay output power or stop the output, and the operation of the 4-way relay is controlled by the key function of the MCU controller 510; it can be understood that a 4-way relay outputs power to the Zigbee gateway 300, the curtain class device 410, the switch class device 430, and the dimming class device 420, respectively.

Specifically, a Zigbee wireless control network is set to implement wireless connection between the control panel, the execution device, and the Zigbee gateway 300; the network addresses of the Zigbee gateway 300, the control panel, and the execution device need to be configured correspondingly, so that the Zigbee gateway 300, the control panel, and the execution device can communicate with each other; optionally, there are various ways to configure a network address for a device, and it is understood that the configuration of the network address is not limited in this embodiment; the mobile terminal 100 is connected to the Zigbee gateway 300 through a cloud service, so as to be connected to a control panel and an execution device.

On the basis of the above embodiment, the method for controlling a multifunctional panel based on Zigbee wireless transmission may further be embodied as: after the executing device performs work according to the control executing signal and sends a working state signal to the control panel and the mobile terminal 100, the method further includes: and the control panel receives the working state signal of the execution equipment and adjusts the brightness and the color of an LED indicator lamp of the control panel.

For example, referring to fig. 1, when the control panel receives a curtain operation feedback signal 7, a dimming device 420 operation feedback signal 8, and a switching device 430 operation feedback signal 9, and according to different operation feedback signals, that is, different key modes, the MCU 510 controls the LED lamp driving circuit, so as to drive the LED indicator lamp to light according to the set brightness and color.

For example, under the condition of configuring the function cluster for the control panel, more personalized functions can be realized, such as configuration of a key indicator, optionally, selecting an indicator for configuring a key in the APP, modifying configuration parameters, saving the configuration parameters, sending the configuration parameters to the control panel, reconfiguring attributes under the configuration function cluster of the control panel, and realizing configuration of colors, brightness and the like of the indicator. It can be understood that the APP can also perform parameter configuration, key mode selection, and function configuration on modules such as the vibration sensing module and the proximity sensing module.

The control system of the multifunctional panel based on Zigbee wireless transmission provided in the above embodiment can be used to execute the control method of the multifunctional panel based on Zigbee wireless transmission provided in the embodiment of the present application, and has corresponding functions and beneficial effects.

Above-mentioned, through setting up being connected of mobile terminal 100 and control panel and executive device, dispose button mode and button function through mobile terminal 100 control panel to bind with the executive device that corresponds, thereby control the executive device according to the button instruction and carry out corresponding work, realize according to the nimble button and the function of demand to control panel and dispose, and bind the executive device that corresponds, adopt a control panel can realize controlling a plurality of executive device promptly, convenient and practical practices thrift the cost.

The foregoing is considered as illustrative of the preferred embodiments of the invention and the technical principles employed. The present application is not limited to the particular embodiments described herein, but is capable of various obvious changes, rearrangements and substitutions as will now become apparent to those skilled in the art without departing from the scope of the invention. Therefore, although the present application has been described in more detail with reference to the above embodiments, the present application is not limited to the above embodiments, and may include other equivalent embodiments without departing from the spirit of the present application, and the scope of the present application is determined by the scope of the claims.

Claims (10)

1. A control system based on Zigbee wireless transmission and a multifunctional panel is characterized by comprising: the mobile terminal comprises a mobile terminal, a Zigbee gateway, a control panel, a plurality of execution devices and a power supply module; the control panel comprises an MCU controller, a Zigbee wireless transmission module and a key detection module;

the execution equipment establishes connection with the mobile terminal through the Zigbee gateway; the MCU controller establishes connection with the mobile terminal sequentially through the Zigbee wireless transmission module and the Zigbee gateway; the key detection module is connected with the MCU controller;

the mobile terminal sends a control configuration signal to the MCU controller so as to control the MCU controller to configure a key mode and a key function; the mobile terminal sends a binding signal to the MCU controller and the execution equipment to control the execution equipment to be bound with the MCU controller;

the key detection module is used for detecting a key instruction signal and sending the key instruction signal to the MCU controller, and the MCU controller sends a control execution signal to the execution equipment according to the key instruction signal;

the execution equipment works according to the control execution signal and sends a working state signal to the MCU controller and the mobile terminal; the power module is used for supplying power to the control panel and the execution equipment.

2. The Zigbee wireless transmission and multifunctional panel based control system of claim 1, wherein the control panel further comprises: the LED lamp driving module is connected with the LED indicating lamp and the MCU controller.

3. The Zigbee wireless transmission and multifunctional panel based control system of claim 1, wherein the control panel further comprises: the proximity sensing module and the vibration module are connected with the MCU controller; the proximity sensing module is used for detecting a sensing signal and sending the sensing signal to the MCU controller so as to control the MCU controller to enter a working mode; the MCU controller sends a vibration signal to control the vibration module to vibrate.

4. The Zigbee wireless transmission and multifunctional panel-based control system according to claim 1, wherein the control module further comprises a temperature detection module, the temperature detection module being connected to the MCU controller; and detecting the temperature of the control panel in real time through a temperature detection module of the control panel and sending the temperature to the MCU controller.

5. The Zigbee wireless transmission and multifunctional panel-based control system according to claim 1, wherein the power module comprises a DC power conversion module and a relay module, the DC power conversion module is connected with a power supply end and the control panel, and the relay module is connected with the DC power conversion module, the MCU controller and the execution device.

6. A control method based on Zigbee wireless transmission and a multifunctional panel is characterized by comprising the following steps:

the mobile terminal sends a control configuration signal to an MCU controller of a control panel so as to control the MCU controller to configure a key mode and a key function;

the mobile terminal sends a binding signal to the MCU controller and the execution equipment to control the execution equipment to be bound with the MCU controller;

when the MCU controller receives a key instruction signal, sending a control execution signal to the execution equipment according to the key instruction signal; and the execution equipment works according to the control execution signal and sends a working state signal to the MCU controller and the mobile terminal.

7. The method as claimed in claim 6, wherein the controlling the MCU controller to configure the key mode and the key function includes:

and the MCU controller configures a key mode, a key endpoint, a key trigger function and a control panel function cluster according to the control configuration signal.

8. The method of claim 6, wherein the MCU controller receives a key command signal, and comprises:

the sensing signal is detected by a proximity sensing module of the control panel and is sent to the MCU controller so as to control the MCU controller to enter a working mode;

detecting a key signal through a key detection module of the control panel, and sending a corresponding key instruction signal to the MCU controller;

detecting the temperature of the control panel in real time through a temperature detection module of the control panel and sending the temperature to the MCU controller;

when the temperature of the control panel is detected to be too high, the vibration module sends a vibration sensing signal to the control panel through the MCU controller, and the vibration module is controlled to vibrate.

9. The method as claimed in claim 6, wherein before the mobile terminal sends a control configuration signal to the MCU controller of the control panel to control the MCU controller to configure the key mode and the key function, the method further comprises:

the control panel is powered by a direct current conversion module of the power supply module, and the execution equipment is powered by a relay module of the power supply module;

configuring a Zigbee gateway, a control panel, and an execution device, so that the control panel and the execution device establish a wireless connection with the Zigbee gateway, and thus the control panel and the execution device establish a connection with a mobile terminal through the Zigbee gateway.

10. The Zigbee wireless transmission and multifunctional panel based control method according to claim 6, wherein after the execution device operates according to the control execution signal and sends an operating state signal to the control panel and the mobile terminal, the method further comprises:

and the control panel receives the working state signal of the execution equipment and adjusts the brightness and the color of an LED indicator lamp of the control panel.

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