CN203775491U - Intelligent illumination system - Google Patents

Abstract

Disclosed is an intelligent illumination system. The intelligent illumination system comprises a power supply source (100), an illuminating lamp (800), a lamp controller (200), an illuminating lamp switch module (500) connected between the lamp controller (200) and the illuminating lamp (800), and a microwave module (300) and an illumination condition arranging module (400) which are electrically connected with the lamp controller (200). The lamp controller (200) is used for starting the microwave module (300) within the environment brightness scope set by the illumination condition arranging module (400). The microwave module (300) is used for detecting motion objects, generating lamp lighting trigger signals according to a detection result, and inputting the lamp lighting trigger signals in the lamp controller (200). The lamp controller (200) is also used for lighting the illuminating lamp (800) through the illuminating lamp switch module (500) when receiving the lamp lighting trigger signals. The illuminating lamp (800) is used for providing temporary illumination for a motion human body within the power-on time threshold T1 of the illuminating lamp after being lighted.

Description

A kind of intelligent illuminating system

Technical field

The utility model relates to lighting technical field, more particularly, relates to a kind of intelligent illuminating system.

Background technology

At present, energy-saving lighting lamp is on the market mainly acoustic control lamp.When pedestrian's approach acoustic control lamp region, acoustic control lamp can sense the sound that pedestrian sends by its built-in sound transducer, automatically lights up as pedestrian and starts illumination.Yet in people's routine use process, acoustic control lamp universal also faces following problem.First, the clever lightness of acoustic control lamp is low, and acoustic control lamp cannot sense tiny sound, and pedestrian need to send certain sound, just can make acoustic control lamp light up as user illumination is provided.The sound that is pedestrian is too small, and acoustic control lamp is not worked, and pedestrian too loudly, causes to the work of acoustic control lamp region surrounding population and life and bother; Secondly, the intelligent degree of acoustic control lamp is low, and energy-saving effect is difficult to guarantee.Because as long as acoustic control lamp detects the voice signal of sufficient intensity, start illumination work, therefore acoustic control lamp ambient noise or animal cry around also can trigger acoustic control lamp startup illumination work, illuminating lamp illumination work in these cases belongs to the waste of resource, meaningless.

Therefore, how to develop a good energy-conserving effect, highly sensitive, and the high illuminator of intelligent degree has become problem demanding prompt solution.

Utility model content

The technical problems to be solved in the utility model is the above-mentioned defect for prior art, and a kind of intelligent illuminating system is provided.

The above-mentioned technical problem of the utility model solves like this, construct a kind of intelligent illuminating system, comprise illuminating lamp, power supply, it is characterized in that, also comprise that the lamp controller being electrically connected to described power supply, the microwave module being electrically connected to described lamp controller and lighting condition arrange module and be connected to the luminous lamp switch module between described lamp controller, described power supply and described illuminating lamp;

Described lamp controller arranges for receiving by described lighting condition the lighting condition parameters that module is inputted, and within the scope of the environmental light brightness limiting at this lighting condition parameters, starts described microwave module;

Described microwave module is surveyed for the moving object in its investigative range being carried out to timing, generates bright light triggering signal, and this bright light triggering signal is input to described lamp controller according to result of detection;

Described lamp controller also when receiving bright light triggering signal, is lighted described illuminating lamp by described luminous lamp switch module; The movement human detecting for described microwave module in the illuminating lamp threshold value conduction time T1 that described illuminating lamp limits for the lighting condition parameters after lighting provides of short duration illumination.

In the above-mentioned intelligent illuminating system of the utility model, also comprise the mini light night and the illuminating lamp/mini light night handover module that are electrically connected to described lamp controller; Described lamp controller is also when receiving the luminous lamp switch SWICHT1 start signal by the input of described illuminating lamp/mini light night handover module, open illuminating lamp intelligent lighting pattern and close mini light night intelligent lighting pattern, or while receiving the mini light night interrupteur SW ITCH2 start signal of being inputted by described illuminating lamp/mini light night handover module, open mini light night intelligent lighting pattern and close illuminating lamp intelligent lighting pattern.

In the above-mentioned intelligent illuminating system of the utility model, described lighting condition arrange module comprise environmental light brightness setting unit for setting the environmental light brightness scope of microwave module startup work, for setting the delay time setting unit of illuminating lamp threshold value conduction time T1 and mini light night threshold value conduction time T2, for setting the microwave module distance of reaction gear setting unit of the distance of reaction gear of described microwave module.

In the above-mentioned intelligent illuminating system of the utility model, described lamp controller comprises the MCU that simultaneously connects the signal output part of described microwave module and the input of described luminous lamp switch module, the microwave module power supply control module being electrically connected to described MCU, manual lighting pattern indicator light and for sending the delay time prompting module of light-off prompting message.

In the above-mentioned intelligent illuminating system of the utility model, described luminous lamp switch module comprises illuminating lamp binding post, relay, diode D3, triode Q2, capacitor C 9, resistance R 7; The 16th pin of described MCU connects the base stage of described triode Q2 by described resistance R 7, the grounded emitter of triode Q2, its collector electrode connects the positive pole of diode Q2, one end of the contact of described relay connects described illuminating lamp binding post, the other end of the contact of described relay connects power supply, the coil of described relay and diode D3 are connected in parallel, and the negative pole of diode D3 connects capacitor C 9 one end, the other end ground connection of capacitor C 9.

In the above-mentioned intelligent illuminating system of the utility model, described environmental light brightness setting unit comprises phototriode Q3, switch S 1, switch S 2, the resistance R 15 being connected in series, resistance R 16, resistance R 17, resistance R 18; The collector electrode of phototriode Q3 connects power supply, and its emitter is connected between resistance R 15 and resistance R 16, and one end of resistance R 15 is connected between power supply and capacitor C 11, capacitor C 11 ground connection, the other end contact resistance R16 of resistance R 15; Switch S 1, switch S 2 are in parallel successively with resistance R 16 and resistance R 17, one end contact resistance R17 of resistance R 18, the other end ground connection of resistance R 18;

Switch S 5, switch S 3, switch S 4 that described delay time setting unit comprises the resistance R 19 that is connected in series, resistance R 20, resistance R 21, resistance R 22, is connected in parallel successively with resistance R 20, resistance R 21 and resistance R 22; One end of capacitor C 12 is connected between resistance R 19 and power supply, the other end ground connection of capacitor C 12, one end contact resistance R21 of resistance R 22, the other end ground connection of resistance R 22;

Switch S 8, switch S 6, switch S 7 that described microwave module distance of reaction gear setting unit comprises the resistance R 8 that is connected in series, resistance R 23, resistance R 24, resistance R 25, is connected in parallel successively with resistance R 23, resistance R 24 and resistance R 25; One end of capacitor C 13 is connected between power supply and resistance R 8, the other end ground connection of capacitor C 13, one end contact resistance R24 of resistance R 25, the other end ground connection of resistance R 25.

In the above-mentioned intelligent illuminating system of the utility model, described mini light night comprises the resistance R 41 that is connected in parallel and resistance R 42, the LED 1 being connected in series and LED 2, triode Q5, resistance R 39; One end of resistance R 41 and resistance R 42 is all connected to power supply 100, the other end of resistance R 41 and resistance R 42 is all connected to LED 1, the grounded emitter of triode Q5, the base stage of triode Q5 is connected to the 11 pin of MCU by resistance R 39, the negative pole of the collector electrode connecting luminous diode LED2 of triode Q5.

In the above-mentioned intelligent illuminating system of the utility model, described illuminating lamp/mini light night handover module comprises luminous lamp switch SWITCH1 and the mini light night interrupteur SW ITCH2 being comprised of fixed contact P0, moving contact P1 and moving contact P2, fixed contact P0 connects the 7th pin of MCU, moving contact P1 ground connection, moving contact P2 is connected to resistance R 38 and capacitor C 28 one end, the other end ground connection of capacitor C 28, the other end of resistance R 38 connects power supply.

In the above-mentioned intelligent illuminating system of the utility model, described microwave module power supply control module comprises capacitor C 5, triode Q1, resistance R 3; The emitter of triode Q1 connects power supply, the base stage of triode Q1 is connected to one end of resistance R 3, the other end of resistance R 3 connects the 8th pin of MCU, and the feeder ear of described microwave module is connected between the collector electrode and capacitor C 5 of triode Q1, capacitor C 5 ground connection;

Described manual lighting pattern indicator light comprises light-emitting diode D2, resistance R 6; One end of resistance R 6 connects power supply, the positive pole of its other end connecting luminous diode D2, and the negative pole of light-emitting diode D2 connects the 9th pin of described MCU;

Described delay time prompting module comprises resistance R 43, resistance R 44, triode Q6, buzzer, voltage stabilizing didoe Z2; One end of resistance R 43 connects the 15th pin of MCU, the base stage of other end connecting triode Q6, the grounded emitter of triode Q6, its collector electrode is connected to one end of buzzer H, the other end of buzzer H is contact resistance R44 and voltage stabilizing didoe Z2 simultaneously, the other end of resistance R 44 connects power supply, the other end ground connection of voltage stabilizing didoe Z2.

In the above-mentioned intelligent illuminating system of the utility model, the model of described MCU is HT46R064B.

Enforcement the beneficial effects of the utility model are: 1) the utility model intelligent illuminating system only detects human mobile signal by microwave module and just can start the illumination work of illuminating lamp/mini light night in the investigative range of microwave module, and the sensitivity of the utility model intelligent illuminating system and intelligent degree are high; 2) the utility model intelligent illuminating system can send to user " bleep " that be about to turn off the light according to the human motion result of detection of microwave module and remind voice, when user hears that this " bleep " is reminded voice, can make intelligent illuminating system close this " bleep " to remind voice by carrying out action that health move, and in default illuminating lamp threshold value conduction time T1 or mini light night threshold value conduction time T2, continue as user and provide illumination to serve; 3) the utility model intelligent illuminating system is supported illuminating lamp light illumination mode/mini light night light illumination mode handoff functionality, and this intelligent illuminating system can be adapted to different environments for use.

Accompanying drawing explanation

The structured flowchart of the intelligent illuminating system that Fig. 1 provides for preferred embodiment of the present utility model;

Fig. 2 is the structured flowchart that the lighting condition of the intelligent illuminating system shown in Fig. 1 arranges module;

The environmental light brightness gear that Fig. 3 provides for preferred embodiment of the present utility model arranges the schematic diagram of table;

The delay time gear that Fig. 4 provides for preferred embodiment of the present utility model arranges the schematic diagram of table;

The microwave module distance of reaction gear that Fig. 5 provides for preferred embodiment of the present utility model arranges the schematic diagram of table;

Fig. 6 is the circuit diagram of the lamp controller of the intelligent illuminating system shown in Fig. 1;

Fig. 7 is the power supply of the intelligent illuminating system shown in Fig. 1 and the circuit diagram of luminous lamp switch module;

Fig. 8 is the circuit diagram of the environmental light brightness setting unit of the intelligent illuminating system shown in Fig. 1;

Fig. 9 is the circuit diagram of the delay time setting unit of the intelligent illuminating system shown in Fig. 1;

Figure 10 is the circuit diagram of the microwave module distance of reaction gear setting unit of the intelligent illuminating system shown in Fig. 1;

Figure 11 is the mini light night of the intelligent illuminating system shown in Fig. 1 and the circuit diagram of mini light night switch module;

Figure 12 is the circuit diagram of illuminating lamp/mini light night handover module of the intelligent illuminating system shown in Fig. 1;

Figure 13 is the circuit diagram of the delay time prompting module of the intelligent illuminating system shown in Fig. 1;

Figure 14 is the circuit diagram of the microwave module of the intelligent illuminating system shown in Fig. 1.

Embodiment

In order to solve sound-control energy-saving lamp sensitivity and the low defect of intelligent degree existing in prior art, innovative point of the present utility model is: 1) by microwave probe 300, the mobile human body in its investigative range is carried out to detecting periodically, lamp controller 200 is controlled illuminating lamp 800 according to the result of detection of microwave probe 300 and provided of short duration illumination for mobile human body; 2) support the switching of illuminating lamp 800 light illumination modes/mini light night 700 light illumination modes, to be adapted to different environments for use, and save energy consumption; 3) intelligent illuminating system with environmental light brightness gear function is set, function is set illuminating lamp 800/ mini light night 700 delay time gears and microwave probe 300 distance of reaction gears arrange function; 4) lamp controller 200 is with light-off voice prompting function.

Because the utility model has adopted for surveying the microwave module 300 of mobile human body and for control the design of lamp controller 200 of the illumination work of illuminating lamp 800/ mini light night 700 according to the result of detection of microwave module 300, so solved clever lightness and the low technical problem of intelligent degree of acoustic control lamp of the prior art, realized the object of opening or closing illuminating lamp 800 according to the human motion result of detection under microwave module 300 investigative ranges.

Below in conjunction with drawings and Examples, the utility model is described in further detail:

As shown in Figure 1, the utility model Lighting Control Assembly comprises that lamp controller 200, the microwave module 300, the lighting condition that are electrically connected to lamp controller 200 arrange module 400, illuminating lamp/mini light night handover module 600, mini light night 700, and with the power supply 100 of above-mentioned each parts power supply.The utility model Lighting Control Assembly also comprises the luminous lamp switch module 500 of being powered by power supply 100 and the illuminating lamp 800 being connected by illuminating lamp binding post with this luminous lamp switch module 500.Supply line between power supply 100 and luminous lamp switch module 500 is controlled by lamp controller 200.

Lighting condition arranges module 400 and generates relevant lighting condition set information for inputting according to user, and this lighting condition set information is input to lamp controller 200.This lighting condition set information comprises environmental light brightness scope (being the entry condition of microwave module 300), illuminating lamp threshold value conduction time T1, mini light night threshold value T2 700 conduction time, microwave module 300 distance of reaction gear configuration informations.

In the utility model intelligent illuminating system, microwave module 300 will be in holding state to save power consumption when external environmental condition does not reach its entry condition.Lamp controller 200, under the environmental light brightness scope that module 400 is set at this lighting condition sets, microwave module 300 being sent to wake command, makes microwave module 300 enter into operating state from holding state.

Microwave module 300, for startup work under the environmental light brightness scope in this setting, is surveyed the moving object in its investigative range.The moving object detecting in its investigative range as this microwave module 300 is human body, and this microwave module 300 generates bright light triggering signal, and sends this bright light triggering signal to lamp controller 200.

This lamp controller 200 also when receiving the bright light triggering signal of microwave module 300, is controlled illuminating lamp switch module 500, to connect the supply line between power supply 100 and luminous lamp switch module 500, makes illuminating lamp 800 energising work.As do not detected any movement human in the illuminating lamp threshold value conduction time T1 of microwave module 300 after power supply 100 and illuminating lamp 800 are connected, be not receive the bright light triggering signal from microwave module 300 in the illuminating lamp threshold value conduction time T1 of lamp controller 200 after the connection of power supply 100 and illuminating lamp 800,200 pairs of illuminating lamp switch modules of this lamp controller 500 carry out corresponding control to cut off the supply line between power supply 100 and illuminating lamp 800, thereby close illuminating lamp 800, to save system energy consumption.

The utility model intelligent illuminating system also comprises that the illuminating lamp/mini light night handover module 600(being electrically connected to lamp controller 200 is wall microwave switch) and mini light night 700, this wall microwave switch can be user provides illuminating lamp 800/ mini light night 700 handoff functionalities, to increase user's operation enjoyment, and save system energy consumption.The illuminating lamp 800/ mini light night 700 switch operating principles of the utility model intelligent illuminating system are as follows: user is wall microwave switch by illuminating lamp/mini light night handover module 600() switch towards getting to ON, to lamp controller 200 input illuminating lamp 800 lighting instructions.When lamp controller 200 is received to the illuminating lamp lighting instruction of user by illuminating lamp/mini light night handover module 600 input, open illuminating lamp light illumination mode, and close mini light night 700 light illumination modes; It is wall microwave switch that user also can select illuminating lamp/mini light night handover module 600() switch towards getting to OFF, to lamp controller 200 input mini light night lighting instructions.When lamp controller 200 receives the mini light night lighting instruction of user by illuminating lamp/mini light night handover module 600 input, open mini light night light illumination mode, and close illuminating lamp light illumination mode.Because mini light night 700 can only be worked at night, and can be user of short duration illumination (user can arrange by lighting condition the electrical working time threshold value T2 of the default mini light nights 700 of module 400) is provided.As gradually late in the colour of sky, user can open mini light night 700 light illumination modes to reduce system energy consumption in advance by illuminating lamp/mini light night handover module 600, saves electric power resource.

The utility model wall microwave switch also has manual lighting pattern/automatic illuminating mode tuning function.User can (in the utility model preferred embodiment, being 5 seconds) carry out double switching manipulation to wall microwave switch in setting-up time, and finally make the switch of wall microwave switch towards pointing to ON position, can make intelligent illuminating system enter manual lighting pattern.When intelligent illuminating system enters into manual lighting pattern, manual lighting pattern indicator light D2 integrated on lamp controller 200 will light automatically, and send ruddiness.Treat that the continuous working period of intelligent illuminating system under manual lighting pattern meets or exceeds default manual lighting pattern and lift a ban the time (being 4 hours) in the utility model preferred embodiment, automatic illuminating pattern will be lifted a ban and be switched to this intelligent illuminating system automatically.

Microwave module 300 of the present utility model works in energy saver mode.Below in conjunction with Fig. 6, Fig. 7 and Figure 14, to this microwave module 300, the signal under energy saver mode flows to and describes: when external environment brightness is no more than the luminance threshold that user arranges by environmental light brightness setting unit 401, environmental light brightness setting unit 401 starts control signals by the 4th pin of MCU to lamp controller 200 input microwave modules.MCU receives that this microwave module starts after control signal, the 8th pin output low level of MCU, the 6th pin output high level of MCU, triode Q1 and triode Q4 conducting, microwave module power supply control module 201 for microwave module 300 provides supply power voltage is+the DC power supply of 5V.After microwave module 300 powers on, take 1 millisecond as a signal acquisition periods, periodically carry out the work of IF signals collecting.

Power supply duration until 200 pairs of microwave modules 300 of lamp controller reaches after 20 microseconds, IF on/off(microwave module 300 signal input control ends) open, microwave module 300 gathers the IF signal from microwave probe 300, by intermediate frequency amplifying signal processor (model is LM258D), this IF signal is amplified the 1st pin that outputs to lamp controller 200 after processing.When the IF of microwave module 300 signals collecting duration reaches 20 microsecond, the 8th pin output high level of MCU, its the 6th pin output low level, make triode Q1 and triode Q4 all in cut-off state, power supply between lamp controller 200 and microwave module 300 is cut off, the IF signal input part of microwave module 300 is closed, and microwave module 300 stops the work of IF signals collecting.After 1 millisecond, the 8th pin output low level of MCU, its the 6th pin output high level, triode Q1 and field effect transistor Q4 are by conducting again, lamp controller 200 is 300 power supplies of microwave module by microwave module power supply control module 201 again, makes microwave module 300 cyclically carry out the work of IF signals collecting according to above-mentioned steps.

Illuminating lamp 800 of the present utility model works in energy saver mode equally.When microwave module 300 detects the human body of motion in its investigative range, the AF signal of processing and exporting through microwave module 300 can make illuminating lamp 800 automatically light, for moving object provides of short duration illumination.As the duration time of this lamp controller 200 reaches default illuminating lamp threshold value conduction time T1, and microwave module 300 do not detect any movement human in this illumination threshold value conduction time T1, illuminating lamp 800 automatic distinguishings.The utility model intelligent illuminating system can greatly reduce the power consumption of microwave module 300 and illuminating lamp 800 under the prerequisite that meets user's lighting requirement, extends the useful life of illuminating lamp 800.

Below in conjunction with Fig. 6, Fig. 7 and Fig. 8, to illuminating lamp 800, the signal under energy saver mode flows to and describes:

When microwave module 300 detects movement human in its effective scope of detection, microwave module 200 is in its RF signal output part (being RF SIN OUT end) output bright light triggering signal.When the 1st pin of MCU is received this bright light triggering signal, the 16th pin output high level of MCU, make triode Q2 conducting, the coil two ends of relay energising, relay contact switch is in on-state, power supply 100 is illuminating lamp 800 power supply by terminal LS1, and illuminating lamp 800 is lighted and provided illumination for movement human.Meet or exceed default illuminating lamp threshold value conduction time T1 the turn-on time for the treatment of power supply 100 and illuminating lamp 800, and the 1st pin of MCU does not receive bright light triggering signal yet, the 16th pin output low level of MCU, make triode Q2 cut-off, the relay coil two ends no power of luminous lamp switch module 500, relay contact switch is closed, and the supply line between power supply 100 and illuminating lamp 800 is cut off, and illuminating lamp extinguishes.

As shown in Figure 2, lighting condition arrange module 400 comprise for microwave module 300 is set start the environmental light brightness setting unit 401 of the environmental light brightness scope of work, for delay time setting unit 402, the microwave module distance of reaction gear setting unit 403 of illuminating lamp threshold value conduction time T1 and mini light night threshold value T2 700 conduction time are set.

The environmental light brightness gear that Fig. 3 to Fig. 5 is respectively the utility model preferred embodiment to be provided arranges table, table is set delay time gear and microwave module distance of reaction gear arranges table.

As shown in Figure 6, lamp controller 200 comprises MCU, the microwave module power supply control module 201, manual lighting pattern indicator light 202 and the delay time prompting module 203(that are electrically connected to described MCU be loud speaker).In the of short duration energising lighting process of illuminating lamp 800 or mini light night 700, as the continuous working period of illuminating lamp 800 or mini light night 700 approached illuminating lamp 800 energising by time threshold T1 or mini light night 700 electrical working time threshold value T2(in the utility model preferred embodiment, these illuminating lamp 800 energisings are 30 seconds by time threshold T1 and mini light night 700 electrical working time threshold value T2), lamp controller 200 will send by delay time prompting module 203 the function of lamp out reminding voice of " bleep ".Should " bleep " play the Suggestion that illuminating lamp 800 or mini light night 700 are about to extinguish.When pedestrian's approach corridor, passageway, lavatory etc. are provided with the region of the utility model intelligent illuminating system, illuminating lamp 800 or mini light night 700 will automatically light up as user of short duration illumination will be provided.When the investigative range of user in microwave module 300, and user is when remain static within a period of time, and user will hear the function of lamp out reminding voice of " bleep ".Now, user can send bright light triggering signal to intelligent illuminating system by walking about, rock the actions such as health.The utility model intelligent illuminating system detects after user's shift action by microwave module 300, by lamp controller 200, close " bleep " of delay time prompting module 203 and remind voice, and in default illuminating lamp threshold value conduction time T1 or mini light night threshold value conduction time T2 for user provides of short duration illumination service.

The model of the MCU of lamp controller 200 of the present utility model is HT46R064B.This MCU has 16 pins; Wherein

The RF SIN OUT(that the 1st pin of this MCU connects microwave module 300 is RF signal output part);

The 2nd pin of this MCU connects the output of microwave module distance of reaction gear setting unit 403;

The 3rd pin of this MCU connects the output of delay time setting unit 402;

The output of the 4th pin JA(junction ambient) brightness setting unit 401 of this MCU;

The 5th pin ground connection of this MCU;

The 6th pin of this MCU connects the IF on/off end (being IF signal input control end) of microwave module 300;

The 7th pin of this MCU connects the output of illuminating lamp/mini light night handover module 600;

The 8th pin of this MCU connects microwave module power supply control module 201;

The 9th pin of this MCU connects manual lighting pattern indicator light 202;

The 10th pin of this MCU connects by resistance R 33 ground connection;

The 11st pin of this MCU connects the output of mini light night 700;

The 12nd pin of this MCU connects power supply 100;

The 13rd pin of this MCU is connected to resistance R 5 and capacitor C 7 one end, the other end ground connection of capacitor C 7;

The 14th pin of this MCU is connected to resistance R 4 and capacitor C 6 one end, the other end ground connection of capacitor C 6;

The 15th pin of this MCU connects delay time prompting module 203;

The 16th pin of this MCU connects the input of luminous lamp switch module 500.

This manual lighting pattern indicator light 202 comprises light-emitting diode D2, resistance R 6; One end of resistance R 6 connects power supply 100, the positive pole of its other end connecting luminous diode D2, and the negative pole of light-emitting diode D2 connects the 9th pin of MCU.

This microwave module power supply control module 201 comprises capacitor C 5, triode Q1, resistance R 3; The emitter of triode Q1 connects power supply 100+5V feeder ear, and the base stage of triode Q1 is connected to one end of resistance R 3, and the other end of resistance R 3 connects the 8th pin of MCU.The feeder ear of microwave module 300 is connected to collector electrode and capacitor C 5 one end of triode Q1, other one end ground connection of capacitor C 5.

As shown in Figure 7, luminous lamp switch module 500 comprises illuminating lamp binding post LS1, relay, diode D3, triode Q2, capacitor C 9, resistance R 7; The 16th pin of MCU connects the base stage of described triode Q2 by described resistance R 7, the grounded emitter of triode Q2, and its collector electrode connects the positive pole of diode D2.Wherein one end of the contact switch S9 of relay connects described illuminating lamp binding post LS1, the other end of the contact switch S9 of relay connects alternating current input L1, coil two ends and the diode D3 of relay are connected in parallel, and the negative pole of diode D3 connects capacitor C 9, the other end ground connection of capacitor C 9.

As shown in Figure 8, environmental light brightness setting unit 401 comprises phototriode Q3, switch S 1, switch S 2, the resistance R 15 being connected in series, resistance R 16, resistance R 17, resistance R 18; The collector electrode of phototriode Q3 connects power supply 100+5V end, its emitter is connected between resistance R 15 and resistance R 16, one end of resistance R 15 connects power supply 100+5V end and capacitor C 11 one end, the other end ground connection of capacitor C 11, the other end contact resistance R16 of resistance R 15; Switch S 1, switch S 2 are connected in parallel successively with resistance R 16 and resistance R 17, one end contact resistance R17 of resistance R 18, the other end ground connection of resistance R 18.The sensitization intensity gear (see figure 3) that user sets by environmental light brightness setting unit 401 determines by the both end voltage of phototriode Q3, and the both end voltage of phototriode Q3 (being the both end voltage of resistance R 15) is determined by the closed condition of switch S 1 and switch S 2.User can be by switch S 1 and switch S 2 the setting that simply arranges to realize sensitization intensity gear of open and-shut mode.For example, when switch S 1 is closed, when switch S 2 is opened, resistance R 15, resistance R 17, resistance 18 are connected in series, and the supply power voltage of resistance R 15, resistance R 17 and resistance 18 is+5V that the both end voltage of phototriode is VQ3=5V*R15/(R17+R18).

As shown in Figure 9, delay time setting unit 402 comprises the resistance R 19 that is connected in series, resistance R 20, resistance R 21, resistance R 22, is connected in parallel successively with resistance R 20, resistance R 21 and resistance R 22 switch S 5, switch S 3, switch S 4; One end of capacitor C 12 is connected between resistance R 19 and power supply 100, the other end ground connection of capacitor C 12, one end contact resistance R21 of resistance R 22, the other end ground connection of resistance R 22.The delay time gear (see figure 4) that user sets by delay time setting unit 402 is determined by the closed condition of switch S 3, switch S 4 and switch S 5.

As shown in figure 10, microwave module distance of reaction gear setting unit 403 comprises the resistance R 8 that is connected in series, resistance R 23, resistance R 24, resistance R 25, is connected in parallel successively with resistance R 23, resistance R 24 and resistance R 25 switch S 8, switch S 6, switch S 7; One end of capacitor C 13 is connected between power supply 100 and resistance R 8, the other end ground connection of capacitor C 13, one end contact resistance R24 of resistance R 25, the other end ground connection of resistance R 25.The microwave module distance of reaction gear (see figure 5) that user sets by microwave module distance of reaction gear setting unit 403 is determined by the closed condition of switch S 6, switch S 7 and switch S 8.

As shown in figure 11, mini light night 700 comprises the resistance R 41 that is connected in parallel and resistance R 42, the LED 1 being connected in series and LED 2, triode Q5, resistance R 39; One end of resistance R 41 and resistance R 42 is all connected to power supply 100, the other end of resistance R 41 and resistance R 42 is all connected to LED 1, the grounded emitter of triode Q5, the base stage of triode Q5 is connected to the 11st pin of MCU, the negative pole of the collector electrode connecting luminous diode LED2 of triode Q5 by resistance R 39.

As shown in figure 12, illuminating lamp/mini light night handover module 600 comprises luminous lamp switch SWITCH1 and the mini light night interrupteur SW ITCH2 being comprised of fixed contact P0, moving contact P1 and moving contact P2, fixed contact P0 connects the 7th pin of MCU, moving contact P1 ground connection, moving contact P2 is connected between resistance R 38 and capacitor C 28, the other end ground connection of capacitor C 28, the other end of resistance R 38 connects power supply 100.When fixed contact PO and moving contact P1 connection, luminous lamp switch SWITCH1 opens, and mini light night 700 interrupteur SW ITCH1 close, and the utility model intelligent illuminating system will be switched to illuminating lamp light illumination mode from mini light night light illumination mode.When fixed contact PO and moving contact P2 connection, mini light night interrupteur SW ITCH1 opens, and luminous lamp switch SWITCH1 closes, and the utility model intelligent illuminating system will be switched to mini light night 700 light illumination modes by illuminating lamp 800 light illumination modes.

As shown in figure 13, delay time prompting module 203 comprises resistance R 43, resistance R 44, triode Q6, buzzer, voltage stabilizing didoe Z2; One end of resistance R 43 connects the 15th pin of MCU, the base stage of other end connecting triode Q6, the grounded emitter of triode Q6, its collector electrode is connected to one end of buzzer H, the other end of buzzer H is contact resistance R44 and voltage stabilizing didoe Z2 simultaneously, the other end of resistance 44 connects power supply 100, the other end ground connection of voltage stabilizing didoe Z2.

By reference to the accompanying drawings embodiment of the present utility model is described above; but the utility model is not limited to above-mentioned embodiment; above-mentioned embodiment is only schematic; rather than restrictive; those of ordinary skill in the art is under enlightenment of the present utility model; not departing from the scope situation that the utility model aim and claim protect, also can make a lot of forms, within these all belong to protection of the present utility model.

Claims (10)

1. an intelligent illuminating system, comprise power supply (100), illuminating lamp (800), it is characterized in that, also comprise lamp controller (200), the microwave module (300) being electrically connected to described lamp controller (200) and lighting condition module (400) is set and be connected to described lamp controller (200) and described illuminating lamp (800) between luminous lamp switch module (500); Described illuminating lamp (800), described lamp controller (200), described microwave module (300) and described lighting condition arrange module (400) and are all electrically connected to described power supply (100);

Described lamp controller (200) arranges for receiving by described lighting condition the lighting condition parameters that module (400) is inputted, and within the scope of the environmental light brightness limiting at this lighting condition parameters, starts described microwave module (300);

Described microwave module (300) carries out timing for the moving object in its investigative range to be surveyed, and generates bright light triggering signal, and this bright light triggering signal is input to described lamp controller (200) according to result of detection;

Described lamp controller (200) also when receiving bright light triggering signal, is lighted described illuminating lamp (800) by described luminous lamp switch module (500); The movement human detecting for described microwave module (300) in the illuminating lamp threshold value conduction time T1 that described illuminating lamp (800) limits for the lighting condition parameters after lighting provides of short duration illumination.

2. intelligent illuminating system according to claim 1, it is characterized in that, also comprise mini light night (700), the illuminating lamp/mini light night handover module (600) being electrically connected to described lamp controller (200) and be connected to described lamp controller (200) and described mini light night (700) between mini light night switch module (900); Described mini light night (700) and described illuminating lamp/mini light night handover module (600) are all electrically connected to described power supply (100); Described lamp controller (200) is also when receiving the luminous lamp switch SWICHT1 start signal by described illuminating lamp/mini light night handover module (600) input, by described mini light night switch module (900), close mini light night intelligent lighting pattern, open illuminating lamp intelligent lighting pattern, or while receiving the mini light night interrupteur SW ITCH2 start signal of being inputted by described illuminating lamp/mini light night handover module (600), by described mini light night switch module (900), open mini light night intelligent lighting pattern, close illuminating lamp intelligent lighting pattern.

3. intelligent illuminating system according to claim 2, it is characterized in that, described lighting condition arrange module (400) comprise the environmental light brightness setting unit (401) that starts the environmental light brightness scope of work for setting microwave module (300), for setting the delay time setting unit (402) of illuminating lamp threshold value conduction time T1 and mini light night threshold value conduction time T2, for setting the microwave module distance of reaction gear setting unit (403) of the distance of reaction gear of described microwave module (300).

4. intelligent illuminating system according to claim 3, it is characterized in that, described lamp controller (200) comprises the MCU that simultaneously connects the signal output part of described microwave module (300) and the input of described luminous lamp switch module (500), the microwave module power supply control module (201) being electrically connected to described MCU, manual lighting pattern indicator light (202) and for sending the delay time prompting module (203) of light-off prompting message.

5. intelligent illuminating system according to claim 4, is characterized in that, described luminous lamp switch module (500) comprises illuminating lamp binding post, relay, diode D3, triode Q2, capacitor C 9, resistance R 7; The 16th pin of described MCU connects the base stage of described triode Q2 by described resistance R 7, the grounded emitter of triode Q2, its collector electrode connects the positive pole of diode Q2, one end of the contact of described relay connects described illuminating lamp binding post, the other end of the contact of described relay connects power supply (100), the coil of described relay and diode D3 are connected in parallel, and the negative pole of diode D3 connects capacitor C 9 one end, the other end ground connection of capacitor C 9.

6. intelligent illuminating system according to claim 5, is characterized in that, described environmental light brightness setting unit (401) comprises phototriode Q3, switch S 1, switch S 2, the resistance R 15 being connected in series, resistance R 16, resistance R 17, resistance R 18; The collector electrode of phototriode Q3 connects power supply (100), its emitter is connected between resistance R 15 and resistance R 16, one end of resistance R 15 is connected between power supply (100) and capacitor C 11, capacitor C 11 ground connection, the other end contact resistance R16 of resistance R 15; Switch S 1, switch S 2 are in parallel successively with resistance R 16 and resistance R 17, one end contact resistance R17 of resistance R 18, the other end ground connection of resistance R 18;

Switch S 5, switch S 3, switch S 4 that described delay time setting unit (402) comprises the resistance R 19 that is connected in series, resistance R 20, resistance R 21, resistance R 22, is connected in parallel successively with resistance R 20, resistance R 21 and resistance R 22; One end of capacitor C 12 is connected between resistance R 19 and power supply (100), the other end ground connection of capacitor C 12, one end contact resistance R21 of resistance R 22, the other end ground connection of resistance R 22;

Switch S 8, switch S 6, switch S 7 that described microwave module distance of reaction gear setting unit (403) comprises the resistance R 8 that is connected in series, resistance R 23, resistance R 24, resistance R 25, is connected in parallel successively with resistance R 23, resistance R 24 and resistance R 25; One end of capacitor C 13 is connected between power supply (100) and resistance R 8, the other end ground connection of capacitor C 13, one end contact resistance R24 of resistance R 25, the other end ground connection of resistance R 25.

7. intelligent illuminating system according to claim 6, is characterized in that, described mini light night (700) comprises the resistance R 41 that is connected in parallel and resistance R 42, the LED 1 being connected in series and LED 2, triode Q5, resistance R 39; One end of resistance R 41 and resistance R 42 is all connected to power supply 100, the other end of resistance R 41 and resistance R 42 is all connected to LED 1, the grounded emitter of triode Q5, the base stage of triode Q5 is connected to the 11st pin of MCU, the negative pole of the collector electrode connecting luminous diode LED2 of triode Q5 by resistance R 39.

8. intelligent illuminating system according to claim 7, it is characterized in that, described illuminating lamp/mini light night handover module (600) comprises luminous lamp switch SWITCH1 and the mini light night interrupteur SW ITCH2 being comprised of fixed contact P0, moving contact P1 and moving contact P2, fixed contact P0 connects the 7th pin of MCU, moving contact P1 ground connection, moving contact P2 is connected between resistance R 38 and capacitor C 28, the other end ground connection of capacitor C 28, and the other end of resistance R 38 connects power supply (100).

9. intelligent illuminating system according to claim 8, is characterized in that, described microwave module power supply control module (201) comprises capacitor C 5, triode Q1, resistance R 3; The emitter of triode Q1 connects power supply (100), the base stage of triode Q1 is connected to one end of resistance R 3, the other end of resistance R 3 connects the 8th pin of MCU, the feeder ear of described microwave module (300) is connected to collector electrode and capacitor C 5 one end of triode Q1, the other end ground connection of capacitor C 5;

Described manual lighting pattern indicator light (202) comprises light-emitting diode D2, resistance R 6; One end of resistance R 6 connects power supply (100), the positive pole of its other end connecting luminous diode D2, and the negative pole of light-emitting diode D2 connects the 9th pin of described MCU;

Described delay time prompting module (203) comprises resistance R 43, resistance R 44, triode Q6, buzzer, voltage stabilizing didoe Z2; One end of resistance R 43 connects the 15th pin of MCU, the base stage of other end connecting triode Q6, the grounded emitter of triode Q6, its collector electrode is connected to one end of buzzer H, the other end of buzzer H is contact resistance R44 and voltage stabilizing didoe Z2 simultaneously, the other end of resistance R 44 connects power supply (100), the other end ground connection of voltage stabilizing didoe Z2.

10. intelligent illuminating system according to claim 9, is characterized in that, the model of described MCU is HT46R064B.