CN204616149U - A kind of LED infrared induction lamp with emergency function - Google Patents

Abstract

The utility model relates to a kind of LED infrared induction lamp with emergency function, comprising: lighting control module, emergency flight control module and AC/DC change-over circuit; Described AC/DC change-over circuit is used for alternating current to be converted to direct current, and is respectively lighting control module and emergency flight control module for power supply; When AC/DC change-over circuit normal power supply, described lighting control module work, emergency flight control module is ended; When the power-off of AC/DC change-over circuit, described emergency flight control module work, described lighting control module cut-off.Compared to prior art, the utility model, by increasing emergency function on infrared induction lamp, when normal power supply, starts infrared induction lamp, when power-off, starts emergency light.Can both save resource, and beautify again operational environment, and light fixture usefulness performed to maximum, simultaneously the cost of light fixture of the present utility model is far below the cost of original two kinds of light fixtures.

Description

A kind of LED infrared induction lamp with emergency function

Technical field

The utility model relates to a kind of LED, particularly a kind of LED infrared induction lamp with emergency function.

Background technology

In Lighting control field, popular light fixture comprises human body inductive lamp and emergency light on the market at present.Whether existing human body inductive lamp is in the induction region of human body inductive lamp the position of human body judges, if when human body is in induction zone, start human body inductive lamp; If when human body leaves induction zone, then this human body inductive lamp is then closed.In addition, existing emergency light is used for when external power failure, is powered, realize illumination work by the power supply of emergency light inside.

But existing human body inductive lamp and emergency light, owing to being all separate product, are independently installed.If desired possess the function of both light fixtures simultaneously, then need, in same region, two kinds of light fixtures are installed respectively.So, then installation procedure can be caused loaded down with trivial details, and cause area shared by light fixture and space large, make user installation inconvenience, nor attractive in appearance.

Therefore, be badly in need of providing a kind of light fixture, it comprises the function and effect of emergence lighting lamp and human body sensing lighting simultaneously.

Utility model content

The utility model is that the shortcoming overcoming prior art is with not enough, provides a kind of LED infrared induction lamp with emergency function.

The utility model is realized by following technical scheme: a kind of LED infrared induction lamp with emergency function, comprising: lighting control module, emergency flight control module and AC/DC change-over circuit; Described AC/DC change-over circuit is used for alternating current to be converted to direct current, and is respectively lighting control module and emergency flight control module for power supply; When AC/DC change-over circuit normal power supply, described lighting control module work, emergency flight control module is ended; When the power-off of AC/DC change-over circuit, described emergency flight control module work, described lighting control module cut-off.

Compared to prior art, the utility model, by increasing emergency function on infrared induction lamp, when normal power supply, starts infrared induction lamp, when power-off, starts emergency light.Can both save resource, and beautify again operational environment, and light fixture usefulness performed to maximum, simultaneously the cost of light fixture of the present utility model is far below the cost of original two kinds of light fixtures.

Further, described lighting control module comprises illuminating LED lamp, illuminating LED lamp electronic switch, control chip and infrared induction circuit; Described AC/DC change-over circuit is connected with illuminating LED lamp, illuminating LED lamp electronic switch, control chip and infrared induction circuit respectively; Described illuminating LED lamp electronic switch is connected with this control chip respectively with infrared induction circuit, described control chip is for receiving the signal of infrared induction circuit, and output signal to described illuminating LED lamp electronic switch, control conducting and the cut-off of this illuminating LED lamp electronic switch;

Described emergency flight control module comprises charging control circuit, lithium battery, emergency LED lamp electronic switch and emergency LED lamp; Described AC/DC change-over circuit is connected with charging control circuit and emergency LED lamp electronic switch respectively; Described charging control circuit is used for charging to lithium battery; Described lithium battery is connected with described emergency LED lamp by described emergency LED lamp electronic switch; When AC/DC change-over circuit no current exports, this emergency LED lamp electronic switch conducting, and be that emergency LED lamp is powered by this lithium battery.Further in lighting control module, use infrared induction circuit and electronic switch, realize opening and closing automatically of infrared illumination function.Meanwhile, by detecting change in voltage, can corresponding startup corresponding function; When power-off, by emergency LED lamp electronic switch, automatically start emergency LED lamp; When normal power supply, can be charged to lithium battery by charging control circuit, to ensure enough electricity.

Further, described infrared induction control circuit comprises inductive head and at least one amplifier; Described inductive head produces voltage signal, carries out, after voltage signal amplification, this voltage signal being transferred to control chip through amplifier; After described control chip receives this voltage signal, if when reaching trigger condition, then send control voltage signal to illuminating LED lamp electronic switch, make this illuminating LED lamp electronic switch conducting.Increase amplifier further by infrared induction circuit, can will increase the voltage signal of infrared induction circuit generation.

Further, described lighting control module also comprises a sensitivity adjusting circuit, and it comprises a potentiometer; Described potentiometer is for generation of voltage signal and be sent to control chip, is compared by the voltage signal that this voltage signal and infrared induction control circuit send by this control chip, and controls the operating state of illuminating LED lamp electronic switch according to comparative result.By sensitivity adjusting circuit, can according to the sensitivity realizing situation and regulate at any time infrared induction, the Distance geometry scope etc. such as responded to.

Further, described lighting control module also comprises an illuminance regulating circuit, and it is for receiving extraneous intensity of illumination, and the concurrent voltage signal that send is to control chip; Described control chip, according to this voltage signal, controls the operating state of illuminating LED lamp electronic switch.By illuminance regulating circuit, when realizing by day, close infrared induction lamp, when night, illuminance was lower, open infrared induction lamp.

Further, described illuminance regulating circuit is connected successively by resistance, potentiometer and photodiode and is formed.

Further, described lighting control module also comprises a time adjustment circuit, and it comprises a potentiometer; Described potentiometer is for generation of voltage signal and be sent to control chip, is arranged the lighting time of illuminating LED lamp by this control chip according to the voltage signal received.Further by time adjustment circuit, the opening time after illuminating LED lamp triggers can be regulated, facilitate the application of actual conditions, can avoid opening the waste caused for a long time.

Further, described illuminating LED lamp electronic switch comprises transistor circuit and field effect transistor circuit; Described transistor circuit is connected with the output of AC/DC change-over circuit, and during for preventing from opening, LED occurs glittering; Described field effect transistor circuit is connected with the output of control chip, for controlling the operating state of illuminating LED lamp.Further, the glittering situation owing to causing illuminating LED lamp during initiating switchup can be prevented by this transistor circuit.

Further, described charging control circuit comprises the first LED light, the second LED light and charging chip; Described charging chip is connected with lithium battery with AC/DC change-over circuit, two LED light respectively; When lithium battery is in charged state, this first LED light is bright; When showing lithium battery and being in electricity full state, this second LED light is bright.Further, by this indicator light, user can be facilitated to observe the charge condition of lithium battery.

As preferably, described control chip is single-chip microcomputer.

In order to understand better and implement, describe the utility model in detail below in conjunction with accompanying drawing.

Accompanying drawing explanation

Fig. 1 is the connection block diagram of the LED infrared induction lamp of band emergency function of the present utility model.

Fig. 2 is the circuit diagram of the LED infrared induction lamp of band emergency function of the present utility model.

Fig. 3 is the circuit diagram of illuminating LED lamp electronic switch of the present utility model.

Fig. 4 is the circuit diagram of infrared induction circuit of the present utility model.

Fig. 5 is the circuit diagram of sensitivity adjusting circuit of the present utility model.

Fig. 6 is the circuit diagram that illuminance regulates.

Fig. 7 is the circuit diagram of Timing.

Fig. 8 is the circuit diagram of charging control circuit.

Fig. 9 is the circuit connection diagram of emergency LED lamp electronic switch.

Figure 10 is the control program flow chart of the LED infrared induction lamp of band emergency function of the present utility model.

Embodiment

Please refer to Fig. 1 and Fig. 2, it is respectively connection block diagram and the circuit diagram of the LED infrared induction lamp of band emergency function of the present utility model.

A kind of LED infrared induction lamp with emergency function of the present utility model, comprises lighting control module 1, emergency flight control module 2 and AC/DC change-over circuit 3.Described AC/DC changes electric 3 tunnels and is used for alternating current to be converted to direct current, and is respectively lighting control module 1 and emergency flight control module 2 is powered; When AC/DC change-over circuit 3 normal power supply, described lighting control module 1 works, and emergency flight control module 2 is in cut-off state.When 3 power-off of AC/DC change-over circuit, described emergency flight control module 2 works, and described lighting control module 1 is in cut-off state.

Concrete, described lighting control module 1 comprises illuminating LED lamp 11, illuminating LED lamp electronic switch 12, control chip 13 and infrared induction circuit 14.

Described AC/DC change-over circuit 3 is connected 14 with illuminating LED lamp 11, illuminating LED lamp electronic switch 12, control chip 13 and infrared induction circuit respectively.Concrete, in the present embodiment, 220V/AC is converted to 5V/DC and 33V/DC by described AC/DC change-over circuit respectively, and wherein 33V/DC is that illuminating LED lamp 11 is powered, and 5V/DC powers for other chips and circuit.

Described illuminating LED lamp electronic switch 12 and infrared induction circuit 14 are connected with this control chip 13 respectively, described control chip 13 is for receiving the signal of infrared induction circuit 14, and output signal to described illuminating LED lamp electronic switch 12, control conducting and the cut-off of this illuminating LED lamp electronic switch 12.Concrete, in this enforcement, described control chip 13 is preferably single-chip microcomputer.

Please refer to Fig. 3, it is the circuit diagram of illuminating LED lamp electronic switch of the present utility model.Concrete, described illuminating LED lamp electronic switch 12 comprises transistor circuit and field effect transistor circuit; Described transistor circuit is connected with the output of AC/DC change-over circuit, glittering for preventing occurring when opening that illuminating LED lamp occurs; Described field effect transistor circuit is connected with the output of control chip, for controlling the operating state of illuminating LED lamp.

Concrete, described transistor circuit comprises triode Q1, electric capacity C13, resistance R23, resistance R24; Described field effect transistor circuit comprises field effect transistor Q4, resistance R1, electric capacity C1, resistance R2 and diode D33.

The positive pole of described electric capacity C13 is connected with the output of AC/DC change-over circuit 3, and negative pole is connected with the base stage of triode Q1 by resistance R23; One end of described resistance R23 is connected with the base stage of triode Q1, other end ground connection; The grounded emitter of described triode Q1, the collector electrode of this triode Q1 is connected with the grid of field effect transistor Q4; Second pin of described single-chip microcomputer is connected with the grid of field effect transistor Q4 by resistance R1; The grid of described field effect transistor Q4 is connected with one end of electric capacity C1 and resistance R2 respectively, the other end ground connection of this electric capacity C1 and resistance R2; The source electrode of described field effect transistor Q4 is connected with the drain electrode of field effect transistor by diode D33, and the source electrode of this field effect transistor Q4 is connected with the positive pole of diode D33, and drain electrode is connected with the negative pole of this diode D33.

When electric power starting, single-chip microcomputer needs certain start-up time, if namely now directly by Single-chip Controlling LED electronic switch, then cannot control within start-up time.Therefore, in the utility model, add transistor circuit, prevent electric power starting from being the glittering of the illuminating LED lamp caused.Concrete principle is as follows: when starting power supply, and the 5V/DC that AC/DC change-over circuit exports charges to electric capacity C13.Now, because the base stage of triode Q1 is in low level, therefore triode Q1 is in cut-off state, i.e. not conducting.Now, the grid of field effect transistor Q4 is also in low level, and therefore field effect transistor Q4 is also in cut-off state, and now illuminating LED lamp does not work.

And when after electric capacity C13 charging complete, the base stage of triode Q1 is in high level, now triode is in conducting state.And within this time, single-chip microcomputer 13 also completes startup, therefore now control the conducting of field effect transistor Q4 and the state of cut-off by the output level of single-chip microcomputer 13.

Wherein, the source electrode of field effect transistor Q4 is connected with drain electrode by diode D33, and field effect transistor Q4 can be prevented breakdown.Because when the source electrode of field effect transistor produces electrostatic, electric current can reverse flow.And now, by diode D33, the electrostatic of generation can be discharged, therefore, the effect of protection field effect transistor can be played.And the grid of field effect transistor Q4 is connected with electric capacity C1 and resistance R2 respectively, the effect of stabilizing circuit can be played.

Concrete, described infrared induction control circuit comprises inductive head and at least one amplifier; Described inductive head produces voltage signal, carries out, after voltage signal amplification, this voltage signal being transferred to control chip through amplifier; After described control chip receives this voltage signal, if when reaching trigger condition, then send control voltage signal to illuminating LED lamp electronic switch, make this illuminating LED lamp electronic switch conducting.

Please refer to Fig. 4, it is the circuit diagram of infrared induction control circuit.In the present embodiment, described infrared induction control circuit comprises inductive head, the first amplifier IC3A and the second amplifier IC3D.Wherein, the output port 1 of inductive head is connected with the negative input of the first amplifier IC3A by resistance R22, electric capacity C3, and output port 2 is connected with the negative input of the first amplifier IC3A by electric capacity C7, resistance R22, electric capacity C3.The output port 1 of described inductive head exports as stable voltage signal, and output port 2 exports as voltage of transformation signal.The 5V/DC of AC/DC change-over circuit is connected with the electrode input end of the first amplifier IC3A.The output of described first amplifier IC3A is connected with the negative input of the first amplifier with electric capacity C11, resistance R20 respectively, forms negative feedback amplifier circuit.Now, the voltage signal of the millivolt level produced by inductive head carries out first order amplification.

Meanwhile, the output of the first amplifier IC3A is connected with the negative input of the second amplifier IC3D with resistance R19 by electric capacity C4.The 5V/DC of AC/DC change-over circuit is connected with the electrode input end of this second amplifier IC3D.The output of this second amplifier IC3D is connected with the negative input of the second amplifier IC3D with resistance R21 respectively by electric capacity C12, forms negative feedback amplifier circuit.The voltage signal of output, after the secondary of the second amplifier amplifies, is sent to the 7th pin of single-chip microcomputer by the voltage signal now produced by inductive head.

Please refer to Fig. 5, it is the circuit diagram of sensitivity adjusting circuit.Further, described lighting control module 1 also comprises a sensitivity adjusting circuit 17, and it comprises a potentiometer VR3.Described potentiometer VR3 is for generation of voltage signal and be sent to control chip, is compared by the voltage signal that this voltage signal and infrared induction control circuit send by this control chip, and controls the operating state of illuminating LED lamp electronic switch according to comparative result.Concrete, the voltage signal (i.e. SENS signal) produced by potentiometer VR3 is 0-5V direct voltage.This voltage is through the input of single-chip microcomputer the 5th pin, and single-chip microcomputer arranges the differentiation window of the output signal (i.e. PIR signal) of infrared induction control circuit according to its magnitude of voltage, thus changes the sensitivity of PIR.

Please refer to Fig. 6, its circuit diagram regulated for illuminance.Further, described lighting control module 1 also comprises an illuminance regulating circuit 15, and it is for receiving extraneous intensity of illumination, and the concurrent voltage signal that send is to control chip 13; Described control chip 13, according to this voltage signal, controls the operating state of illuminating LED lamp electronic switch 12.

Wherein, described illuminance regulating circuit is connected successively by resistance R25, potentiometer VR1 and photodiode CDS2 and is formed.Produce illumination voltage signal (i.e. CDS signal) by R25, VR1, CDS2 circuit, by this Signal transmissions to single-chip microcomputer the 3rd pin, single-chip microcomputer judges daytime or evening according to the DC voltage value on this pin.Make trouble, CDS2 element is photodiode, is rendered as low resistance state when being under illumination, and is increase state with the reduction resistance of brightness.

Refer to Fig. 7, it is the circuit diagram of Timing.Further, described lighting control module 1 also comprises a time adjustment circuit 15, and it comprises a potentiometer VR2.Described potentiometer is for generation of voltage signal and be sent to control chip, is arranged the lighting time of illuminating LED lamp by this control chip according to the voltage signal received.Concrete, producing voltage signal (i.e. TIME signal) by this potentiometer VR2, is 0-5V direct voltage.This voltage signal is through the input of single-chip microcomputer the 6th pin, and single-chip microcomputer arranges the lighting time after each induction triggering according to its magnitude of voltage.

Described emergency flight control module 2 comprises charging control circuit 21, lithium battery 22, emergency LED lamp electronic switch 23 and emergency LED lamp 24; Described AC/DC change-over circuit 3 is connected with charging control circuit 21 and emergency LED lamp electronic switch 23 respectively.Described charging control circuit 21 is for charging to lithium battery 22.Described lithium battery 22 is connected with described emergency LED lamp 24 by described emergency LED lamp electronic switch 23; When AC/DC change-over circuit 21 no current exports, this emergency LED lamp electronic switch 23 conducting, and powered for emergency LED lamp 24 by this lithium battery 22.

Please refer to Fig. 8, it is the circuit diagram of charging control circuit.Further, described charging control circuit comprises the first LED light, the second LED light and charging chip.In the present embodiment, described first LED light is red light, and the second LED light is green light.Described charging chip is connected with lithium battery with AC/DC change-over circuit, two LED light respectively; When lithium battery is in charged state, this first LED light is bright; When showing lithium battery and being in electricity full state, this second LED light is bright.

Concrete, in order to realize above-mentioned functions of indicator light, the utility model realizes especially by following circuit: the charging control circuit in the present embodiment comprises: the first LED light, the second LED light, charging chip IC2, resistance R3, resistance R4, resistance R5, resistance R6 and triode Q2.The positive pole of described second LED light is connected with 5V/DC, and negative pole is connected with the collector electrode of triode Q2 by resistance R3; The positive pole of described first LED light is connected with 5V/DC, and negative pole is connected with the base stage of triode Q2 by resistance R4, resistance R5 successively, the grounded emitter of this triode Q2.In the present embodiment, the preferred model of described charging chip IC2 is BL4054B.The VCC end of this charging chip IC2 is connected with 5V/DC, and CHR end connects and between resistance R4 and resistance R5, BATT end is connected with lithium battery, and PROG end is by resistance R6 ground connection, and GND holds ground connection.

When charging chip is in charged state, now CHR holds output low level.Now, the base electrode of triode Q2 is low level, triode Q2 not conducting.The coating-forming voltage at the first LED (i.e. red light) two ends is poor, conducting bright light.And the second LED (i.e. green light) is in cut-off state, not conducting.

After charging chip completes charging, now CHR end exports high level.Now, the base electrode of triode Q2 is high level, is in conducting state.First LED (i.e. red light) two ends are all high level, so there is no coating-forming voltage difference, are in cut-off state.And the second LED (i.e. green light), due to triode Q2 conducting, therefore green light conducting.

Please refer to Fig. 9, it is the circuit connection diagram of emergency LED lamp electronic switch.Described emergency LED lamp electronic switch 23 comprises triode Q3, resistance R7, resistance R8 and diode D32.The 5V/DC output of AC/DC change-over circuit is by being connected with the base electrode of triode Q3 by diode D22, resistance R7 successively.The collector electrode of this triode Q3 is connected with the positive pole of lithium battery, and the emitter of this triode Q3 is connected with emergency LED lamp 24.The 5V/DC output of AC/DC change-over circuit is by being connected to ground by diode D22, resistance R8 successively, and resistance R8 plays the effect of dividing potential drop and protective circuit.

Refer to Figure 10, it is the control program flow chart of the LED infrared induction lamp of band emergency function of the present utility model.Below introduce the program circuit of the LED infrared induction lamp of band emergency function of the present utility model:

S1: initialization MCU: to initialization such as the timer internal of MCU, I/O port, each function register and RAM, cause product function abnormal because the state such as port status, function register is indefinite after avoiding powering on.

S2: heat engine bright light 40 seconds, makes the electric capacity in hardware circuit complete discharge and recharge and crosses into, be in stable state.

S3: setting program runs beat, every 10mS to each road signal sampling once.

S4: detect AC power source signal, have AC then to close function of emergency illumination, and start automatic inducing function.

S5: detect battery voltage signal, if cell voltage is lower than setting, start battery Cross prevention function.

S6: detect CDS signal (voltage signal namely produced by illuminance regulating circuit), if then close lighting daytime.

S7: detect SENS knob signal (voltage signal namely produced by sensitivity adjusting circuit), and the sensitivity of PIR signal monitoring is set according to its magnitude of voltage.

S8: detect TIME knob signal (voltage signal namely produced by time adjustment circuit), and the lighting time after each induction is set according to its magnitude of voltage.

S9: detect PIR signal (voltage signal namely produced by infrared induction control circuit), when PIR signal is effective and CDS is in state in evening, lights lighting and arranges TIME lighting time.

S10: if without bright light timing, then turn next cyclic program, if there is bright light timing, then timing successively decreases.

S11: bright light timing is not arrived, then turn next cyclic program, otherwise closes lighting.

Compared to prior art, the utility model, by increasing emergency function on infrared induction lamp, when normal power supply, starts infrared induction lamp, when power-off, starts emergency light.Can both save resource, and beautify again operational environment, and light fixture usefulness performed to maximum, simultaneously the cost of light fixture of the present utility model is far below the cost of original two kinds of light fixtures.

The utility model is not limited to above-mentioned execution mode, if do not depart from spirit and scope of the present utility model to various change of the present utility model or distortion, if these are changed and distortion belongs within claim of the present utility model and equivalent technologies scope, then the utility model is also intended to comprise these changes and distortion.

Claims (10)

1. the LED infrared induction lamp with emergency function, is characterized in that: comprise lighting control module, emergency flight control module and AC/DC change-over circuit; Described AC/DC change-over circuit is used for alternating current to be converted to direct current, and is respectively lighting control module and emergency flight control module for power supply; When AC/DC change-over circuit normal power supply, described lighting control module work, emergency flight control module is ended; When the power-off of AC/DC change-over circuit, described emergency flight control module work, described lighting control module cut-off.

2. the LED infrared induction lamp according to claim 1 with emergency function, is characterized in that: described lighting control module comprises illuminating LED lamp, illuminating LED lamp electronic switch, control chip and infrared induction circuit; Described AC/DC change-over circuit is connected with illuminating LED lamp, illuminating LED lamp electronic switch, control chip and infrared induction circuit respectively; Described illuminating LED lamp electronic switch is connected with this control chip respectively with infrared induction circuit, described control chip is for receiving the signal of infrared induction circuit, and output signal to described illuminating LED lamp electronic switch, control conducting and the cut-off of this illuminating LED lamp electronic switch;

Described emergency flight control module comprises charging control circuit, lithium battery, emergency LED lamp electronic switch and emergency LED lamp; Described AC/DC change-over circuit is connected with charging control circuit and emergency LED lamp electronic switch respectively; Described charging control circuit is used for charging to lithium battery; Described lithium battery is connected with described emergency LED lamp by described emergency LED lamp electronic switch; When AC/DC change-over circuit no current exports, this emergency LED lamp electronic switch conducting, and be that emergency LED lamp is powered by this lithium battery.

3. the LED infrared induction lamp according to claim 2 with emergency function, is characterized in that: described infrared induction control circuit comprises inductive head and at least one amplifier; Described inductive head produces voltage signal, carries out, after voltage signal amplification, this voltage signal being transferred to control chip through amplifier; After described control chip receives this voltage signal, if when reaching trigger condition, then send control voltage signal to illuminating LED lamp electronic switch, make this illuminating LED lamp electronic switch conducting.

4. the LED infrared induction lamp according to claim 3 with emergency function, it is characterized in that: described lighting control module also comprises a sensitivity adjusting circuit, it comprises a potentiometer; Described potentiometer is for generation of voltage signal and be sent to control chip, is compared by the voltage signal that this voltage signal and infrared induction control circuit send by this control chip, and controls the operating state of illuminating LED lamp electronic switch according to comparative result.

5. the LED infrared induction lamp according to claim 2 with emergency function, is characterized in that: described lighting control module also comprises an illuminance regulating circuit, and it is for receiving extraneous intensity of illumination, and the concurrent voltage signal that send is to control chip; Described control chip, according to this voltage signal, controls the operating state of illuminating LED lamp electronic switch.

6. the LED infrared induction lamp according to claim 5 with emergency function, is characterized in that: described illuminance regulating circuit is connected successively by resistance, potentiometer and photodiode and formed.

7. the LED infrared induction lamp according to claim 2 with emergency function, it is characterized in that: described lighting control module also comprises a time adjustment circuit, it comprises a potentiometer; Described potentiometer is for generation of voltage signal and be sent to control chip, is arranged the lighting time of illuminating LED lamp by this control chip according to the voltage signal received.

8. the LED infrared induction lamp according to claim 2 with emergency function, is characterized in that: described illuminating LED lamp electronic switch comprises transistor circuit and field effect transistor circuit; Described transistor circuit its be connected with the output of AC/DC change-over circuit, for prevent open time LED occur glittering; Described field effect transistor circuit is connected with the output of control chip, for controlling the operating state of illuminating LED lamp.

9. the LED infrared induction lamp according to claim 2 with emergency function, is characterized in that: described charging control circuit comprises the first LED light, the second LED light and charging chip; Described charging chip is connected with lithium battery with AC/DC change-over circuit, two LED light respectively; When lithium battery is in charged state, this first LED light is bright; When showing lithium battery and being in electricity full state, this second LED light is bright.

10. the LED infrared induction lamp with emergency function according to claim 2-9 any one, is characterized in that: described control chip is single-chip microcomputer.