CN204968173U - Hierarchical intelligent lighting system of illuminance - Google Patents

Abstract

The utility model provides a hierarchical intelligent lighting system of illuminance, infrared inductor, photosensitive sensor, controller, lighting device, power supply unit, infrared inductor for gather external infrared ray intensity and give the controller with the data transmission who gathers, photosensitive sensor for gather external illumination intensity and give the controller with the data transmission who gathers, the controller for carry out assay and control lighting device's switch and illumination intensity the infrared ray intensity of receiving and illumination intensity, power supply unit for provide output voltage for intelligent lighting system. The utility model discloses, through infrared inductor and external infrared sensing signal and the illuminance signal of photosensitive sensor collection, whether the controller passes through the out put voltage control lighting device's of the difference that above signal is corresponding of collection illumination intensity, have the light intemsity variation in the infrared induction and the external world to realize regulating and control in real time in grades of illuminance according to, has reduced energy waste, has improved lighting device's life.

Description

The intelligent illuminating system of illumination classification

Technical field

The utility model relates to Lighting control design field, the intelligent illuminating system of particularly a kind of illumination classification.

Background technology

Along with growth in the living standard, technical, the aesthetic property of people to light source design it is also proposed higher requirement, and conservative control light source not only will have enough operating illuminations, more should build a comfortable visual environment, reduce light pollution.Therefore, strengthen Lighting control design, become an important content of modern intelligent office block.According to domestic and international interrelated data introduction, about 1/3 of office lighting power consumption Zhan Zhengzhuan building energy consumption, the cost of equipment of office lighting accounts for more than 10% of electrical engineering expense at (comprise illuminating device and join wiring installation expense), therefore, select rational illumination scheme, the control system that configuration is advanced, greatly can not only simplify the workload of poling wiring, and can energy savings effectively, reduce the operating cost of user, improve the management level in building, there is great economic implications and social benefit.In some European and American developed countries, the intelligentized control method of illuminator has become the indivisible part of Intelligent Buildings, and range of application is more and more wider.

Based on providing comfortable, pleasant living environment, oneself warp of old Lighting Design theory can not adapt to the needs of new Lighting Design.For high-quality illuminating product, except requiring the realization of functionalization, design element that is more humane, intelligent and fashion-orientation seems further important.Traditional intelligence illumination is general, and what adopt is the modes such as acoustic control, light-operated, acousto-optic control, but the intensity of illumination of light fixture is a steady state value, and this causes the waste of the energy to a certain extent, can reduce the useful life of light fixture simultaneously.

Utility model content

In view of this, be necessary to provide a kind of and reduce energy waste, improve the intelligent illuminating system of the illumination classification in light fixture useful life.

An intelligent illuminating system for illumination classification, infrared inductor, light sensor, controller, lighting device, supply unit;

The output of described infrared inductor, described light sensor, described supply unit is connected with the input of described controller respectively, and the output of described controller is connected with the input of described lighting device;

Described infrared inductor, for gathering extraneous infra-red intensity and the data of collection being sent to controller;

Described light sensor, for gathering extraneous intensity of illumination and the data of collection being sent to controller;

Described controller, for analyzing the infra-red intensity received and intensity of illumination and control switch and the intensity of illumination of described lighting device;

Described supply unit, for providing output voltage to intelligent illuminating system.

The intelligent illuminating system of the illumination classification that the utility model provides, extraneous infrared induction signal and illumination intensity signal is gathered by infrared inductor and light sensor, the intensity of illumination of the different output voltage control lighting device that the above signal that controller passes through to gather is corresponding, according to whether having the light intensity in infrared induction and the external world to change the classification real-time monitoring realizing illumination, decrease energy waste, improve the useful life of lighting device.

Accompanying drawing explanation

Fig. 1 is the structural representation of the intelligent illuminating system of the illumination classification that the utility model execution mode provides.

Fig. 2 is the data flowchart of the intelligent illuminating system of the illumination classification that the utility model execution mode provides.

Fig. 3 is the illumination classification principle circuit diagram of the intelligent illuminating system of the illumination classification that the utility model execution mode provides.

Main element symbol description

Infrared inductor

1

Light sensor	2
		Controller	3
Infrared receiving tube	31
		Lighting device	4
Supply unit	5
		Infrared remote controller	6
Management system for internet of things	7
		Internet-of-things terminal	71
Internet of Things Centroid	72
		User terminal	8
Temperature Humidity Sensor	9
		Gas sensor	10
Display	11
		A/D converter	12
Operational amplifier	13

Following embodiment will further illustrate the utility model in conjunction with above-mentioned accompanying drawing.

Embodiment

As Figure 1-3, the intelligent illuminating system of a kind of illumination classification that the utility model execution mode provides, infrared inductor 1, light sensor 2, controller 3, lighting device 4, supply unit 5;

The output of infrared inductor 1, light sensor 2, supply unit 5 is connected with the input of controller 3 respectively, and the output of controller 3 is connected with the input of lighting device 4;

Infrared inductor 1, for gathering extraneous infra-red intensity and the data of collection being sent to controller 3;

Light sensor 2, for gathering extraneous intensity of illumination and the data of collection being sent to controller 3;

Controller 3, for analyzing the infra-red intensity received and intensity of illumination and control switch and the intensity of illumination of described lighting device 4;

Supply unit 5, for providing output voltage to intelligent illuminating system.

Concrete, in the present embodiment: preferred, light sensor 2 is BH1750 chip.Infrared inductor 1 gathers extraneous infrared induction signal and sends to controller 3, controller 3 judges whether that someone exists, light sensor 2 gathers extraneous illumination intensity value and sends to controller 3, the illumination intensity value set point stored in the extraneous illumination intensity value received and controller 3 compares by controller 3, when extraneous illumination intensity value is not less than the strong set point of illumination, controller 3 not sending controling instruction to lighting device 4; When having sensed people and extraneous illumination intensity value is less than the strong set point of illumination, controller 3 sending controling instruction controls lighting device 4 and to work and output voltage corresponding to the extraneous illumination intensity value stored in controller 3 acts on lighting device 4 two ends, realizes controlling the illumination classification of lighting device 4.

Further, intelligent illuminating system also comprises management system for internet of things 7, user terminal 8, and management system for internet of things 7 is connected with user terminal 8, and the output of management system for internet of things 7 is connected with the input of controller 3;

Management system for internet of things 7, the control command for being sent by user terminal 8 sends to controller 3 illumination apparatus 4 to carry out illumination control;

User terminal 8, for sending control command to management system for internet of things 7.

Concrete, user terminal 8 controls the running status (open or close) of lighting device 4 by controlling management system for internet of things 7, in the present embodiment: user terminal 8 is computer or cell-phone customer terminal preferably, management system for internet of things 7 comprises internet-of-things terminal 71, Internet of Things Centroid 72, internet-of-things terminal 71 and Internet of Things Centroid 72 wireless connections, computer is electrically connected with Internet of Things Centroid 72 by serial ports, this Centroid sends electromagnetic wave and controls internet-of-things terminal 71, then by the ruuning situation of internet-of-things terminal 71 monitoring illumination device 4; Cell-phone customer terminal is connected with Internet of Things Centroid 72 is long-range by WIFI.

Further, intelligent illuminating system also comprises Temperature Humidity Sensor 9, and the output of Temperature Humidity Sensor 9 is electrically connected with the input of management system for internet of things 7;

The data of collection for gathering extraneous humiture, and are sent to management system for internet of things 7 by Temperature Humidity Sensor 9.

Concrete, Temperature Humidity Sensor 9 gathers exogenous data, and user terminal 8 is by management system for internet of things 7 humiture that monitoring is extraneous in real time.

Further, intelligent illuminating system also comprises gas sensor 10, and the output of gas sensor 10 is connected with the input of management system for internet of things 7;

Gas sensor 10, whether abnormal for monitoring ambient atmos, and the data of collection are sent to management system for internet of things 7.

Concrete, gas sensor 10 gathers exogenous data, and whether user terminal 8 is abnormal by management system for internet of things 7 gas that monitoring is extraneous in real time.

Further, intelligent illuminating system also comprises display 11, and the input of display 11 is connected with the output of controller 3;

Display 11, for the illumination intensity value of the lighting device 4 that display controller 3 sends.

Concrete, in the present embodiment: display 11 is 12864 LCDs preferably, display 11 goes back display light according to intensity settings.Intelligent illuminating system also comprises A/D converting unit 12, operation amplifier unit 13; Controller 3, A/D converter 12, operational amplifier 13, lighting device 4 are electrically connected successively.

Preferably, controller 3 is STC89C52 single-chip microcomputer, and A/D converter 12 is PCF8591 chip, and operational amplifier 13 is LM358 chip.

The output of infrared inductor 1 is electrically connected with one end of light coupling relay, the common port of light coupling relay is connected with the low level (OV) of single-chip microcomputer, the other end of light coupling relay is connected with the P3^7 mouth of single-chip microcomputer, when there being infrared induction, the output of infrared inductor will be a high level, the output conducting of light coupling relay, microcontroller serial port will detect a low level, and single-chip microcomputer is by controlling the secretly bright of luminaire 4 to this low level coding;

As shown in Figure 3, when infrared induction being detected and the illumination intensity value in the external world is less than intensity of illumination set point, single-chip microcomputer will control A/D converter 12 by iic bus and carry out DA conversion, utilize operational amplifier 13, output voltage is amplified in 3 times of base stages being connected in two 9031 triodes in parallel, its collector electrode is connected on the supply unit 5 of 12V, its emitter is connected on lighting device 4, thus the bright dark situation of lighting device 4 is controlled by the size of control DA conversion output voltage, realize illumination classification.When not having the intensity of illumination of infrared induction or the external world to be greater than intensity of illumination set point, it is 0V that its DA transforms the voltage that will export, and light fixture does not work.Extraneous intensity of illumination be less than intensity of illumination set point and infrared induction from have to without time, single-chip microcomputer can carry out three times and detect, each detect after all can time delay a period of time, when still there is no infrared induction when third time is detected, light fixture will extinguish, thus realizes delay function.

Further, intelligent illuminating system also comprises Infrared remote controller 6, and controller 3 is provided with infrared receiving tube 34, and the output of Infrared remote controller 6 is connected with the input of infrared receiving tube 31;

Infrared remote controller 6, for manually setting the illumination intensity value of lighting device 4.

Concrete, according to user's needs, manually set the illumination intensity value of lighting device 4 by Infrared remote controller 6, the intensity of illumination of the output voltage illumination apparatus 4 of controller 3 corresponding to the illumination intensity value of setting controls.Utilize Infrared remote controller 6 pairs of intensities of illumination to set, lighting device 4 can carry out an illuminance compensation, makes environment illumination intensity reach this value (error 5lx).Regulative mode has two kinds, and the first is coarse adjustment, and the second is fine tuning.Coarse adjustment often clicks button plus-minus 50lx, and fine tuning often clicks button, plus-minus 1lx.

Be understandable that, for the person of ordinary skill of the art, other various corresponding change and distortion can be made according to technical conceive of the present utility model, and all these change the protection range that all should belong to the utility model claim with distortion.

Claims (6)

1. an intelligent illuminating system for illumination classification, is characterized in that: infrared inductor (1), light sensor (2), controller (3), lighting device (4), supply unit (5);

The output of described infrared inductor (1), described light sensor (2), described supply unit (5) is connected with the input of described controller (3) respectively, and the output of described controller (3) is connected with the input of described lighting device (4);

Described infrared inductor (1), for gathering extraneous infra-red intensity and the data of collection being sent to controller (3);

Described light sensor (2), for gathering extraneous intensity of illumination and the data of collection being sent to controller (3);

Described controller (3), for analyzing the infra-red intensity received and intensity of illumination and control switch and the intensity of illumination of described lighting device (4);

Described supply unit (5), for providing output voltage to intelligent illuminating system.

2. intelligent illuminating system as claimed in claim 1, it is characterized in that: described intelligent illuminating system also comprises management system for internet of things (7), user terminal (8), described management system for internet of things (7) is connected with described user terminal (8), and the output of described management system for internet of things (7) is connected with the input of described controller (3);

Described management system for internet of things (7), the control command for being sent by user terminal (8) sends to controller (3);

Described user terminal (8), for sending control command to described management system for internet of things (7).

3. intelligent illuminating system as claimed in claim 2, it is characterized in that: described intelligent illuminating system also comprises Temperature Humidity Sensor (9), the output of described Temperature Humidity Sensor (9) is electrically connected with the input of described management system for internet of things (7);

The data of collection for gathering extraneous humiture, and are sent to described management system for internet of things (7) by described Temperature Humidity Sensor (9).

4. intelligent illuminating system as claimed in claim 2, it is characterized in that: described intelligent illuminating system also comprises gas sensor (10), the output of described gas sensor (10) is connected with the input of described management system for internet of things (7);

Described gas sensor (10), whether abnormal for monitoring ambient atmos, and the data of collection are sent to described management system for internet of things (7).

5. intelligent illuminating system as claimed in claim 1, it is characterized in that: described intelligent illuminating system also comprises display (11), the input of described display (11) is connected with the output of described controller (3);

Described display (11), for showing the illumination intensity value of the lighting device (4) that described controller (3) sends.

6. intelligent illuminating system as claimed in claim 1, it is characterized in that: described intelligent illuminating system also comprises Infrared remote controller (6), described controller (3) is provided with infrared receiving tube (31), and the output of described Infrared remote controller (6) is connected with the input of described infrared receiving tube (34);

Described Infrared remote controller (6), for manually setting the illumination intensity value of described lighting device (4).