CN205491347U - Intelligent control ware of indoor LED lamp - Google Patents

Abstract

The utility model provides an intelligent control ware of indoor LED lamp, include for data analysis handle and executive command's single -chip module, be used for detecting indoor light intensity luminance detection module, be used for detecting indoor personnel human infrared sensor module, be used for controlling LED lamp switch and adjustment luminance LED light control module, for the wiFi module with the mobile communication for a power module of DC source voltage is provided, luminance detection module, human infrared sensor module, LED light control module and wiFi module all with single -chip module connects, single -chip module, luminance detection module, human infrared sensor module, LED light control module, wiFi module all with power module connects. The utility model provides a reduce the wireless control's of illumination electric quantity, realization LED lamp intelligent control ware of indoor LED lamp.

Description

A kind of intelligent controller of indoor LED lamp

Technical field

This utility model belongs to Smart Home field, particularly relates to the intelligent controller of a kind of indoor LED lamp.

Background technology

Along with developing rapidly of China's economy, China's carbon emission amount quickly increases.Wherein produced by the most basic unit " family " of terminal consumption, directly or indirectly greenhouse gases (CO2) discharge capacity growth rate is obvious, and in family's carbon emission, produced by illumination, directly or indirectly carbon emission amount accounts for important proportion；But the most a lot of families use common energy-saving lamp illumination, even use the incandescent lighting of high energy consumption.Part people do not have ideas of energy-saving simultaneously, and in room, the when of no one, lamp often opens, and these all cause certain energy waste；And general family employing single control circuit or dual control circuit install illuminating lamp, need people to go to special control switch side, press switch and could control lamp；This control mode some can cause the inconvenience of life.

Summary of the invention

In order to overcome the deficiency controlling inconvenience and energy waste of current room lighting, this utility model provides a kind of intelligent controller reducing and illuminating electricity, realize the indoor LED lamp of the controlled in wireless of LED.

This utility model solves its technical problem and be the technical scheme is that

A kind of intelligent controller of indoor LED lamp, including in order to Data Analysis Services and exectorial one-chip computer module, in order to the brightness detection module of light intensity in sensing chamber, in order to detect the infrared sensor of the human body module of indoor occupant, in order to control LED switch and to adjust the LED lamp control module of brightness, in order to the WiFi module with mobile communication, in order to provide the power module of direct current power source voltage；

Described brightness detection module, infrared sensor of the human body module, LED lamp control module and WiFi module are all connected with described one-chip computer module, and described one-chip computer module, brightness detection module, infrared sensor of the human body module, LED lamp control module, WiFi module are all connected with described power module.

Further, described one-chip computer module includes singlechip chip, 2 feet of described infrared sensor of the human body module connect with 17 feet of described singlechip chip, described brightness detection module includes photoconductive resistance and diode, one end ground connection of described photoconductive resistance, its other end connects with the negative electrode of described diode and 18 feet of singlechip chip respectively, and described LED lamp control module includes that LED control chip, 3 feet of described LED control chip connect with 11 feet of described singlechip chip.

Further, the model of described singlechip chip is STC89C4052AD, and the model of described infrared sensor of the human body module is HC-SR501, and the model of described LED control chip is PT4115.

Functional module in this utility model, is realized by hardware circuit.

The beneficial effects of the utility model are mainly reflected in: can light intensity and human body signal in sensing chamber, realize the indoor unmanned brightness automatically reducing LED, the Energy Saving Control of the LED such as LED brightness is adjusted, it is possible to control LED by mobile phone according to indoor light intensity；This utility model can be divided into intelligent operation and manual operation in terms of user operation, there is the features such as easy for installation, simple operation, energy consumption is low, user's degree of participation is preferable, motility is good, the Based Intelligent Control of indoor LED lamp can be realized, reduce unnecessary energy waste, reduce the electric consumption on lighting of family.

Accompanying drawing illustrates:

Fig. 1 is structured flowchart of the present utility model.

Fig. 2 is the circuit theory diagrams of power module.

Fig. 3 is the circuit theory diagrams of one-chip computer module.

Fig. 4 is the circuit theory diagrams of WiFi module interface.

Fig. 5 is the circuit theory diagrams of LED lamp control module.

Fig. 6 is the circuit theory diagrams of brightness detection module and infrared sensor of the human body module interface.

Detailed description of the invention

The utility model is described in further detail below in conjunction with the accompanying drawings:

With reference to Fig. 1～Fig. 6, a kind of intelligent controller of indoor LED lamp, including in order to Data Analysis Services and exectorial one-chip computer module, in order to the brightness detection module of light intensity in sensing chamber, in order to detect the infrared sensor of the human body module of indoor occupant, in order to control LED switch and to adjust the LED lamp control module of brightness, in order to the WiFi module with mobile communication, in order to provide the power module of direct current power source voltage；

Described brightness detection module, infrared sensor of the human body module, LED lamp control module and WiFi module are all connected with described one-chip computer module, and described one-chip computer module, brightness detection module, infrared sensor of the human body module, LED lamp control module, WiFi module are all connected with described power module.

Further, described one-chip computer module includes singlechip chip, 2 feet of described infrared sensor of the human body module connect with 17 feet of described singlechip chip, described brightness detection module includes photoconductive resistance and diode, one end ground connection of described photoconductive resistance, its other end connects with the negative electrode of described diode and 18 feet of singlechip chip respectively, and described LED lamp control module includes that LED control chip, 3 feet of described LED control chip connect with 11 feet of described singlechip chip.

Further, the model of described singlechip chip is STC89C4052AD, and the model of described infrared sensor of the human body module is HC-SR501, and the model of described LED control chip is PT4115.

Functional module in this utility model, is realized by hardware circuit.

As it is shown in figure 1, power module is for providing the WiFi module wireless connections of+5V and+3.3V direct current power source voltage, described WiFi module and user mobile phone.

As in figure 2 it is shown, described power module circuitry: 1 foot of AC power interface J10 is connected with 2 feet of self-locking button S1, and 2 feet are connected with one end of electric fuse F1.The other end of electric fuse F1 is connected with 1 foot of one end, one end of resistance R1.1 and the inductance T1 of electric capacity C1.1.3 feet of self-locking button S1 are unsettled, and 1 foot is connected with 2 feet of the other end, the other end of resistance R1.1 and the inductance T1 of electric capacity C1.1.3 feet of inductance T1 are connected with the anode of the negative electrode of commutation diode D1.1 and commutation diode D2.1, and 4 feet are connected with the negative electrode of commutation diode D3.1 and the anode of commutation diode D4.1.The equal ground connection of anode of commutation diode D1.1 and commutation diode D3.1, the negative electrode of commutation diode D2.1 and commutation diode D4.1 all 1 feet with anode, one end of electric capacity C3.1, the anode of electrochemical capacitor C1 and the voltage stabilizing chip V1 of electrochemical capacitor C2.1 are connected, and provide+12V power supply.The negative electrode of electrochemical capacitor C2.1, the other end of electric capacity C3.1 and the equal ground connection of negative electrode of electrochemical capacitor C1.3 feet of voltage stabilizing chip V1 and 5 foot ground connection, 2 feet are connected with negative electrode and inductance L1 one end of Schottky diode D1,4 feet all 3 feet with the other end, the anode of electrochemical capacitor C2, the anode of electrochemical capacitor C3, one end of electric capacity C4 and the voltage stabilizing chip V2 of inductance L1 are connected, and provide+5V power supply.The equal ground connection of the other end of Schottky diode D1 anode, the negative electrode of electrochemical capacitor C2, the negative electrode of electrochemical capacitor C3 and electric capacity C4.The 1 foot ground connection of voltage stabilizing chip V2,2 feet provide+3.3V voltages, and are connected with the anode of electrochemical capacitor C5, electric capacity C6 one end, the anode of light emitting diode D2.The negative electrode of diode D2 is connected with one end of resistance R1.The negative electrode of electrochemical capacitor C5, the other end of electric capacity C6 and the equal ground connection of the other end of resistance R1.

nullAs shown in Figure 3，Described one-chip computer module circuit: 1 foot of singlechip chip U1 is connected with 1 foot of pricking with needle J2，2 feet are connected with 2 feet of pricking with needle J2，3 feet are connected with 3 feet of pricking with needle J2，4 feet are connected with 4 feet of pricking with needle J2，5 feet are connected with 5 feet of pricking with needle J2，6 feet are connected with 6 feet of pricking with needle J2，7 feet are connected with 7 feet of pricking with needle J2，8 feet are connected with 8 feet of pricking with needle J2，9 feet are connected with 9 feet of pricking with needle J2，10 feet are connected with 10 feet of pricking with needle J2，20 feet are connected with 1 foot of pricking with needle J1，19 feet are connected with 2 feet of pricking with needle J1，18 feet are connected with 3 feet of pricking with needle J1，17 feet are connected with 4 feet of pricking with needle J1，16 feet are connected with 5 feet of pricking with needle J1，15 feet are connected with 6 feet of pricking with needle J1，14 feet are connected with 7 feet of pricking with needle J1，13 feet are connected with 8 feet of pricking with needle J1，12 feet are connected with 9 feet of pricking with needle J1，11 feet are connected with 10 feet of pricking with needle J1.4 feet of singlechip chip U1 are connected with 2 feet of crystal oscillator Y1 and electric capacity C9 one end, and 5 feet are connected with 1 foot and electric capacity C10 one end of crystal oscillator Y1, and 1 foot is connected with one end of one end, one end of electric capacity C11 and the resistance R6 of button S2.The other end of electric capacity C9 and the equal ground connection of the other end of electric capacity C10.The other end of button S2 and the other end of electric capacity C11 all connect+3.3V power supply.The other end ground connection of resistance R6.

As shown in Figure 4, described WiFi module interface circuit: 1 foot of WiFi module interface J8 is connected with 3 feet of singlechip chip U1,2 feet connect+3.3V power supply, 3 feet are connected with 8 feet of singlechip chip U1,4 feet are connected with 15 feet of singlechip chip U1, and 5 feet are connected with 12 feet of singlechip chip U1, and 6 feet are connected with 16 feet of singlechip chip U1,7 foot ground connection, 8 feet are connected with 2 feet of singlechip chip U1.

As shown in Figure 5, described LED lamp control module circuit: 1 foot of LED control chip A1 is connected with one end of the anode of diode D1-1 and inductance L2-1,2 foot ground connection, 3 feet connect 11 feet of singlechip chip U1,4 feet are connected with one end of resistance Res2 and 1 foot of pricking with needle J7,5 feet are connected with one end of negative electrode, the other end of resistance Res2 and the electric capacity C1-1 of diode D1-1, and connect+12V power supply.2 feet of pricking with needle J7 are connected with the other end of inductance L2-1, the other end ground connection of electric capacity C1-1.

As shown in Figure 6, described brightness detection module and infrared sensor of the human body module interface circuit: 1 foot of infrared sensor of the human body module J 5 connects+5V power supply, and 2 feet connect 17 feet of singlechip chip U1,3 foot ground connection.Photoconductive resistance R11 one end ground connection, the other end is connected with 18 feet of singlechip chip U1 and the negative electrode of diode D3.The anode of diode D3 connects+5V power supply.

The model of described single-chip microcomputer U1 is STC89C4052AD, analyzes indoor light and personal information, controls the brightness of LED lamplight.The model of described voltage stabilizing chip v1 is LM2596, and the model of voltage stabilizing chip v2 is AS1117-3.3V.Described WiFi module J8 model is ESP8266.Described infrared sensor of the human body module J 5 model is HC-SR501.The model of described LED control chip A1 is PT4115.

During as it is shown in figure 1, use this utility model, input J10 accesses live wire and zero line, and outfan J7 connects LED.Specific works process of the present utility model is as follows: after powering on, and user, by the WiFi module wireless connections of mobile phone with intelligent controller, sends the control model order of LED.If receiving manual operation mode command, then receive user mobile phone signal, control the unlatching of LED, closedown and brightness regulation.If receiving intelligent operation mode command, then light intensity and human body signal in sensing chamber.The brightness of LED is divided into 10 grades, if indoor do not have personnel, then the brightness of LED is preferably minimized rank, otherwise according to indoor light intensity level, the gray scale of regulation LED, reduces lighting energy consumption while ensureing indoor light.

This utility model is capable of the Based Intelligent Control of indoor LED lamp, there is the features such as easy for installation, simple operation, energy consumption is low, user's degree of participation is preferable, motility is good, the Based Intelligent Control of indoor LED lamp can be realized, reduce unnecessary energy waste, reduce the electric consumption on lighting of family.

Claims (3)

1. the intelligent controller of an indoor LED lamp, it is characterised in that: include in order to data analysis Process and exectorial one-chip computer module, in order in sensing chamber light intensity brightness detection mould Block, in order to detect indoor occupant infrared sensor of the human body module, in order to control LED switch With adjust the LED lamp control module of brightness, in order to the WiFi module with mobile communication, in order to The power module of direct current power source voltage is provided；

Described brightness detection module, infrared sensor of the human body module, LED lamp control module and WiFi module is all connected with described one-chip computer module, described one-chip computer module, brightness detection module, Infrared sensor of the human body module, LED lamp control module, WiFi module all with described power module Connect.

2. the intelligent controller of indoor LED lamp as claimed in claim 1, it is characterised in that: institute State one-chip computer module and include singlechip chip, 2 feet of described infrared sensor of the human body module and institute 17 feet stating singlechip chip connect, and described brightness detection module includes photoconductive resistance and two poles Pipe, one end ground connection of described photoconductive resistance, its other end respectively with the negative electrode of described diode and 18 feet of singlechip chip connect, and described LED lamp control module includes LED control chip, 3 feet of described LED control chip connect with 11 feet of described singlechip chip.

3. the intelligent controller of indoor LED lamp as claimed in claim 2, it is characterised in that: institute The model stating singlechip chip is STC89C4052AD, described infrared sensor of the human body module Model is HC-SR501, and the model of described LED control chip is PT4115.