CN210469789U - Intelligent scene control panel based on Zigbee wireless transmission - Google Patents

Abstract

The utility model discloses an intelligence scene control panel based on Zigbee wireless transmission, include: the household electric appliance comprises a power supply bottom plate and a touch panel, wherein the power supply bottom plate is electrically connected with a household circuit, a 3.3V voltage conversion circuit is arranged on the power supply bottom plate, and the 3.3V voltage conversion circuit is electrically connected with the touch panel. The touch panel is provided with a touch key module, a touch control circuit, a Zigbee wireless transmission module and an LED module. The utility model has the advantages that: the intelligent scene control panel can set multiple scene modes to carry out different linkage control on multiple household devices. One-key control of a plurality of home devices in each scene mode can be realized. The user can conveniently check the working state of each scene mode and the position of the touch key of each scene mode.

Description

Intelligent scene control panel based on Zigbee wireless transmission

Technical Field

The utility model relates to a control panel's technical field, in particular to intelligence scene control panel based on Zigbee wireless transmission.

Background

With the high-speed development of material economy, people's standard of living constantly improves, and people enjoy science and technology life more and more for smart home is receiving people's favor more.

According to living habits of people, most of the home devices which need to be turned on or off are the same each time a user returns home or leaves home, that is, most of the home devices used in each scene are the same. Traditional home equipment's control panel sets up alone on every home equipment, when the user comes home or leaves at every turn, need carry out on-off control one by one to every home equipment, and can not carry out the coordinated control under the different scene mode to a plurality of home equipment, it is very loaded down with trivial details to use, be not conform to the trend of intelligent house development, and traditional home equipment's control panel when home equipment does not start, the status indicator lamp also is gone out, the user is difficult to distinguish the position of touch button on the control panel under the less strong condition of light.

SUMMERY OF THE UTILITY MODEL

Problem to prior art exists, the utility model aims at providing an intelligent scene control panel based on Zigbee wireless transmission aims at solving current family's on-off control panel and can not carry out the coordinated control under the different scene mode to a plurality of home equipment to and be difficult to distinguish the problem of the position of touch button on the control panel under the less strong condition of light.

In order to achieve the above object, the utility model provides an intelligence scene control panel based on Zigbee wireless transmission, include: the household electric appliance comprises a power supply bottom plate and a touch panel, wherein the power supply bottom plate is electrically connected with a household circuit, a 3.3V voltage conversion circuit is arranged on the power supply bottom plate, and the 3.3V voltage conversion circuit is electrically connected with the touch panel. The touch panel is provided with a touch key module, a touch control circuit, a Zigbee wireless transmission module and an LED module. The touch key module is provided with a plurality of touch keys, each touch key correspondingly controls one scene mode, and each touch key is in signal connection with the touch control circuit. Touch control circuit and Zigbee wireless transmission module signal connection, Zigbee wireless transmission module and the Zigbee gateway signal connection in the family, the WiFi router signal connection in the intelligent switch of Zigbee gateway and the family equipment and the family, WiFi router and server signal connection, the server passes through the internet and is connected with user's cell-phone APP. The Zigbee wireless transmission module is further in signal connection with the LED modules, the LED modules are provided with LED state lamp groups corresponding to the touch keys, and each LED state lamp group is provided with two LED lamps.

Preferably, the touch control circuit is provided with a touch LCD singlechip, and the four-touch key is in signal connection with the touch LCD singlechip.

Preferably, the touch LCD singlechip is an F5 series singlechip.

Preferably, the model of the F5 series single-chip microcomputer is CA51F551S 3.

Preferably, the model of the Zigbee wireless transmission module is TYZS 3.

Compared with the prior art, the beneficial effects of the utility model reside in that: the intelligent scene control panel can set multiple scene modes to carry out different linkage control on multiple household devices. One-key control of a plurality of home devices in each scene mode can be realized. The user can conveniently check the working state of each scene mode and the position of the touch key of each scene mode.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the structures shown in the drawings without creative efforts.

Fig. 1 is a working schematic diagram of an embodiment of an intelligent scene control panel based on Zigbee wireless transmission according to the present invention;

fig. 2 is a circuit diagram of a power backplane according to an embodiment of the present invention;

fig. 3 is a connection diagram of the touch key module and the touch control circuit according to an embodiment of the present invention;

fig. 4 is a schematic circuit diagram of a Zigbee wireless transmission module according to an embodiment of the present invention;

fig. 5 is a schematic circuit diagram of an LED module according to an embodiment of the present invention;

the purpose of the present invention is to provide a novel and improved method and apparatus for operating a computer.

Detailed Description

The utility model provides an intelligence scene control panel based on Zigbee wireless transmission.

Referring to fig. 1-5, fig. 1 is the working principle diagram of an embodiment of the intelligent scene control panel based on Zigbee wireless transmission of the present invention, fig. 2 is the circuit diagram of a power bottom plate in an embodiment of the present invention, fig. 3 is the connection diagram of touch button module and touch control circuit in an embodiment of the present invention, fig. 4 is the circuit principle diagram of a Zigbee wireless transmission module in an embodiment of the present invention, and fig. 5 is the circuit principle diagram of a LED module in an embodiment of the present invention.

As shown in fig. 1-2, in the embodiment of the present invention, the intelligent scene control panel based on Zigbee wireless transmission includes: the power supply base plate 100 is electrically connected with a household circuit, the power supply base plate 100 is provided with a transformer 110, a rectification voltage stabilizing circuit 120 and a 3.3V voltage conversion circuit 130, the input end of the transformer 110 is connected with 220V voltage of the household circuit, the output end of the transformer is connected with the input end of the rectification voltage stabilizing circuit 120, the output end of the rectification voltage stabilizing circuit 120 is connected with the input end of the 3.3V voltage conversion circuit 130, and the output end of the 3.3V voltage conversion circuit 130 is electrically connected with the touch panel 200 and used for providing working voltage for each module or circuit on the touch panel 200. The touch panel 200 is provided with a touch key module 210, a touch control circuit 220, a Zigbee wireless transmission module 230, and an LED module 240. The touch key module 210 has a plurality of touch keys, each of which controls a scene mode correspondingly, and is in signal connection with the touch control circuit 220. Touch control circuit 220 and Zigbee wireless transmission module 230 signal connection, Zigbee wireless transmission module 230 and the Zigbee gateway 300 signal connection in the family, the intelligent switch of Zigbee gateway 300 and home equipment 400 and the wiFi router 500 signal connection in the family, wiFi router 500 and server 600 signal connection, the linkage data of multiple scene mode is stored in server 600, server 600 is connected with user's cell-phone APP700 through the internet. The Zigbee wireless transmission module 230 is further in signal connection with the LED module 240, the LED module 240 is provided with an LED status light group corresponding to each touch key, and each group of LED status lights is provided with two LED lights for illuminating each touch key and indicating a working status of each touch key corresponding to a scene mode.

Specifically, in the embodiment of the present invention, as shown in fig. 3, the key touch module is provided with four touch keys, i.e., S1, S2, S3 and S4, which correspond to the touch keys of four scene modes, i.e., away from home, night and day.

Specifically, in the present embodiment of the utility model, touch control circuit 220 is equipped with the touch LCD singlechip, and the touch LCD singlechip is connected with the touch button signal of four kinds of scene mode for the touch signal who sends when receiving the touch button of four kinds of scene mode of user's touch, and produce corresponding control signal. As shown in fig. 3, in the embodiment of the present invention, the touch LCD single chip microcomputer is an F5 series single chip microcomputer, and its specific model is CA51F551S 3. When a user wants to go out, the TOUCH KEY S1 corresponding to the scene mode away from home is touched, the TOUCH KEY S1 generates a TOUCH signal of TOUCH1, the TOUCH signal of TOUCH1 is input to the singlechip through a pin P0.7 of the singlechip, and a KEY1 signal is sent out through a pin P0.3. Similarly, when the user touches the TOUCH keys of the home scene, the night scene, and the day scene, TOUCH2, TOUCH3, and TOUCH4 signals are generated, respectively. TOUCH signals of the TOUCH2 are input to the singlechip through a P0.4 pin of the singlechip, and a KEY2 signal is sent out through a P0.2 pin. TOUCH signals of the TOUCH3 are input to the singlechip through a P0.6 pin of the singlechip, and a KEY3 signal is sent out through a P0.0 pin. TOUCH signals of the TOUCH4 are input to the singlechip through a P0.5 pin of the singlechip, and a KEY4 signal is sent out through a P0.1 pin.

Specifically, in the embodiment of the present invention, the model of the Zigbee wireless transmission module 230 is TYZS 3. As shown in fig. 3-4, a KEY1 signal, a KEY2 signal, a KEY3 signal or a KEY4 signal sent by the touch LCD single chip of the touch control circuit 220 are transmitted to the Zigbee wireless transmission module 230 through an ADC pin, a PWM3 pin, an IO3 pin or an IO2 pin of the Zigbee wireless transmission module 230 for data processing, and generate a data signal in a corresponding scene mode, where the ADC pin is used as a common IO port. After the Zigbee wireless transmission module 230 generates the data signal corresponding to the scene mode, on one hand, the data signal corresponding to the scene mode is sent to the Zigbee gateway 300 in the home through a built-in PCB antenna (not shown in the figure), and on the other hand, the data signal corresponding to the scene mode is sent through an SWO pin to send an LED1 signal, a PWM1 pin to send an LED2 signal, an SWC pin to send an LED3 signal, or an SWD pin to send an LED4 signal. After receiving the data signal corresponding to the scene mode, the Zigbee gateway 300 in the home transmits the data signal corresponding to the scene mode to the server 600 through the WiFi router 500 in the home, and then the server 600 retrieves the linkage data of the corresponding scene stored in the server 600 in advance and sends out the linkage data signal corresponding to the scene mode. The linkage data signal corresponding to the scene mode is retransmitted to the Zigbee gateway 300 in the home through the WiFi router 500 in the home, and the Zigbee gateway 300 controls the corresponding home device 400 to perform linkage according to the linkage data signal corresponding to the scene mode, thereby implementing linkage control of the home device 400 in different scene modes.

Taking the away scene mode as an example, after the user touches the touch KEY S1 corresponding to the away scene mode, the touch LCD single chip of the touch control circuit 220 sends a KEY1 signal, and the KEY1 signal is transmitted to the Zigbee wireless transmission module 230 through the ADC pin of the Zigbee wireless transmission module 230 for data processing, and generates a data signal of the away scene mode. The data signal of the away-from-home scene mode is transmitted to the Zigbee gateway 300 through the PCB antenna built in the Zigbee wireless transmission module 230, the Zigbee gateway 300 transmits the data signal of the away-from-home scene mode to the server 600 through the router 500, and the server 600 retrieves the linkage data of the away-from-home scene stored in the server 600 in advance and sends out the linkage data signal of the away-from-home scene. The linkage data signal of the away-from-home scene mode is transmitted to the Zigbee gateway 300 again through the WiFi router 500, and the Zigbee gateway 300 controls the home device 400 in the away-from-home scene mode to perform linkage according to the linkage data signal of the away-from-home scene mode, thereby implementing linkage control of the home device 400 in the away-from-home scene mode.

Similarly, as shown in fig. 3-4, the principle of turning on or off the home device 400 in the home scene mode, the night scene mode, and the day scene mode is the same as the above-mentioned away scene mode, and is not described in detail here.

Of course, the user can also increase or decrease the number of home devices 400 that need linkage control in each scene through the mobile phone APP700 as needed, and transmit the linkage data of the modified settings to the server 600 through the internet for storage, thereby implementing flexible settings of the home devices 400 that are linkage controlled in each scene mode.

Specifically, in the embodiment of the utility model provides an in, every group LED status light is equipped with a red LED lamp and a green LED lamp, and this scene mode is not started to red LED lamp instruction, and this scene mode is started to green LED lamp instruction. As shown in fig. 5, the red LED lamps of the four groups of LED status lamps are: LED1 lamp, LED3 lamp, LED5 lamp and LED7 lamp, the green LED lamp of four groups of LED state lamps is respectively: LED2 lamp, LED4 lamp, LED6 lamp, and LED8 lamp. As shown in fig. 4-5, when the user touches the touch button S1 of the away-from-home scene mode, the ADC pin of the Zigbee wireless transmission module 230 receives the KEY1 signal and sends out the LED1 signal through the SWO pin, and then the LED1 lamp and the LED2 lamp in the LED module 240 receive the LED1 signal, so as to turn off the red LED1 lamp and turn on the green LED2 lamp, which indicates that the away-from-home scene mode is activated.

Similarly, as shown in fig. 3-5, the lighting principle of the LED status light group in the home scene mode, the night scene mode, and the day scene mode is the same as the above-mentioned away scene mode, and is not repeated here.

The touch keys corresponding to each scene mode in the LED module 240 are provided with the LED lamps with two different colors to respectively indicate whether the scene mode is started or not, so that a user can still accurately find the position of each scene mode touch key even if the light is dark and the scene mode is started or not, and the LED module is convenient for the user to use.

The utility model discloses technical scheme's theory of operation: taking the away scene mode as an example, when the user wants to go out, the TOUCH KEY S1 corresponding to the away scene mode is touched, the TOUCH KEY S1 generates a TOUCH signal of TOUCH1, the TOUCH signal of TOUCH1 is input to the single chip microcomputer through a pin P0.7 of the single chip microcomputer and sends out a KEY1 signal through a pin P0.3, and the KEY1 signal is transmitted to the Zigbee wireless transmission module 230 through an ADC pin of the Zigbee wireless transmission module 230 for data processing and generating a data signal of the away scene mode. The data signal of the away-from-home scene mode is transmitted to the Zigbee gateway 300 through the PCB antenna built in the Zigbee wireless transmission module 230, the Zigbee gateway 300 transmits the data signal of the away-from-home scene mode to the server 600 through the router 500, and the server 600 retrieves the linkage data of the away-from-home scene stored in the server 600 in advance and sends out the linkage data signal of the away-from-home scene. The linkage data signal of the away-from-home scene mode is transmitted to the Zigbee gateway 300 again through the WiFi router 500, and the Zigbee gateway 300 controls the home device 400 in the away-from-home scene mode to perform linkage according to the linkage data signal of the away-from-home scene mode, thereby implementing linkage control of the home device 400 in the away-from-home scene mode. Meanwhile, when the user touches the touch KEY S1 in the away-from-home scene mode, the ADC pin of the Zigbee wireless transmission module 230 receives the KEY1 signal and sends the LED1 signal through the SWO pin, and then the LED1 lamp and the LED2 lamp in the LED module 240 receive the LED1 signal, so as to turn off the red LED1 lamp and turn on the green LED2 lamp, indicating that the away-from-home scene mode is started.

Compared with the prior art, the beneficial effects of the utility model reside in that: by setting the Zigbee wireless transmission module 230 on the touch panel 200, it is possible to perform coordinated control on a plurality of home devices 400, and it is possible to set a plurality of scene modes to perform different coordinated control on a plurality of home devices 400. By providing a touch key for each scene mode on the touch panel 200, one-key control of the plurality of home devices 400 in each scene mode can be realized. By arranging the LED module 240 on the touch panel 200, the user can conveniently view the operating state of each scene mode and the position of the touch key of each scene mode.

The above only be the preferred embodiment of the utility model discloses a not consequently restriction the utility model discloses a patent range, all are in the utility model discloses a conceive, utilize the equivalent structure transform of what the content was done in the description and the attached drawing, or direct/indirect application all is included in other relevant technical field the utility model discloses a patent protection within range.

Claims (5)

1. The utility model provides an intelligence scene control panel based on Zigbee wireless transmission which characterized in that includes: the household electric appliance comprises a power supply bottom plate and a touch panel, wherein the power supply bottom plate is electrically connected with a household circuit, a 3.3V voltage conversion circuit is arranged on the power supply bottom plate, and the 3.3V voltage conversion circuit is electrically connected with the touch panel; the touch panel is provided with a touch key module, a touch control circuit, a Zigbee wireless transmission module and an LED module; the touch key module is provided with a plurality of touch keys, each touch key correspondingly controls one scene mode, and each touch key is in signal connection with the touch control circuit; the touch control circuit is in signal connection with the Zigbee wireless transmission module, the Zigbee wireless transmission module is in signal connection with a Zigbee gateway in a family, the Zigbee gateway is in signal connection with an intelligent switch of family equipment and a WiFi router in the family, the WiFi router is in signal connection with a server, and the server is connected with a mobile phone APP of a user through the Internet; the Zigbee wireless transmission module is further in signal connection with the LED modules, the LED modules are provided with LED state lamp groups corresponding to the touch keys, and each LED state lamp group is provided with two LED lamps.

2. The intelligent scene control panel based on Zigbee wireless transmission as claimed in claim 1, wherein the touch control circuit is provided with a touch LCD single chip microcomputer, and the four touch keys are in signal connection with the touch LCD single chip microcomputer.

3. The intelligent scene control panel based on Zigbee wireless transmission of claim 2, wherein the touch LCD single chip microcomputer is an F5 series single chip microcomputer.

4. The intelligent scene control panel based on Zigbee wireless transmission of claim 3, wherein the model of the F5 series single chip microcomputer is CA51F551S 3.

5. A Zigbee wireless transmission based intelligent scene control panel as claimed in claim 1, wherein the Zigbee wireless transmission module has a model number of TYZS 3.

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