CN2847781Y

CN2847781Y - Multifunction emergency combined lamp

Info

Publication number: CN2847781Y
Application number: CN 200520044504
Authority: CN
Inventors: 李仁良
Original assignee: Individual
Current assignee: Individual
Priority date: 2005-08-25
Filing date: 2005-08-25
Publication date: 2006-12-13
Anticipated expiration: 2015-08-25

Abstract

The utility model discloses a multifunctional emergency combined lamp. The utility model comprises a power supply box, a manual control diode lamp, an acoustic-optic control diode lamp, a manual control cold cathode tube lamp and an acoustic-optic control cold cathode tube lamp, wherein the manual control diode lamp, the acoustic-optic control diode lamp and the acoustic-optic control cold cathode tube lamp are respectively connected with the output end of the power supply box. The utility model charges a battery jar when the power utilization of an electric network is low, the utility model utilizes a DC power supply in the battery jar when the power utilization is peak, and the utility model utilizes light-emitting diodes and cold-cathode tubes as light-emitting devices. The utility model has the advantages of obvious power saving effect, long service life, simple structure and convenient operation, and during emergency power failures, particularly fire protection power failures, the utility model can still illuminate. Therefore, the utility model is particularly suitable for the extensive use in building corridors.

Description

The multi-function emergency Assembled lamp

Technical field

The utility model relates to New Innovational Illumination Lamps and Lanterns, specifically a kind of multi-function emergency Assembled lamp.

Background technology

The design of acousto-optic control lighting lamp circuit can only be used the alternating current bulb in the prior art, can not the various alternating current-direct current electricity-saving lamps of adapted, more can not allow electricity use lamp, particularly can't throw light on when fire-fighting, these have all brought the deficiency of not having illumination when using inconvenience and the fire-fighting the condition of a disaster taking place.

Summary of the invention

The purpose of this utility model is a kind of multi-function emergency Assembled lamp that provides at the deficiencies in the prior art, it can charge to storage battery when the electrical network low power consumption, adopt DC power supply during electricity consumption, can realize manual control, acousto-optic control various ways, simple in structure, easy to use, fire-fighting emergent, power savings is good.

The concrete technical scheme that realizes the utility model purpose is:

A kind of multi-function emergency light emitting diode combined lamp, it comprises power supply box 1, manual diode lights 2, acousto-optic control diode lights 3, manual cold cathode lamp 4 and acousto-optic control cold cathode lamp 5, and described manual diode lights 2, acousto-optic control diode lights 3, manual cold cathode lamp 4 and acousto-optic control cold cathode lamp 5 connect the output of power supply box 1 respectively.

Circuit in the described power supply box 1 comprises power circuit A, timing charge-discharge circuit B, and concrete form is:

Power circuit A: transformer H1 primary side is succeeded appliance contact K1, secondary termination is formed bridge rectifier by diode D1, D2, D3, D4, between power positive cathode and connect capacitor C 10 and storage battery; Timing charge-discharge circuit B: resistance R 16 1 termination power positive poles, a termination voltage-stabiliser tube D16, another terminating diode of voltage-stabiliser tube D16 D19,5 pin of another termination integrated chip of diode D19 IC2, the 6 pin connecting resistance R14 of integrated chip IC2, resistance R 14 another termination triode T2 base stage b, triode T2 collector electrode c meets diode connected in parallel D15, relay H2,3 pin of another termination three terminal regulator of diode D15, relay H2 T3; Triode T2 emitter e connects power cathode, resistance R 22 1 termination voltage-stabiliser tube D16 positive poles, a termination power negative pole; 1 pin of diode D17 one termination power positive pole, a termination voltage-stabiliser tube D18, three terminal regulator T3, voltage-stabiliser tube D18 other end connecting resistance R20,9 pin, the resistance R 21 of resistance R 20 another termination integrated chip IC2, resistance R 21 another termination power cathodes, 7 pin of integrated chip IC2 connect power cathode; Resistance R 23 is attempted by between 2 pin, power cathode of three terminal regulator T3; 8 pin of integrated chip IC2 meet diode D8,11 pin, the diode D11 of another termination integrated chip of diode D8 IC2, diode

11 other end connecting resistance R18,3 pin of resistance R 18 another termination three terminal regulator T3; 11 pin of integrated chip IC2 connect diode connected in parallel D11,

resistance R

19,3 pin of 11 pin of capacitor C 9 one termination integrated chip IC2, another termination three terminal regulator T3; Capacitor C 8, diode D14 also meet afterwards 10 pin, the diode D10 of a termination integrated chip IC2,5 pin of another termination integrated chip IC2, another terminating diode of diode D10 D7,1 pin of another termination integrated chip of diode D7 IC2,2,3 pin of integrated chip IC2 connect 11 pin of integrated chip IC3, the 4 pin connecting resistance R13 of integrated chip IC2, resistance R 13 another terminating diode D7; Between 13,12 pin of integrated chip IC2 and connect potentiometer VR2, the resistance R 17 of series connection, 14 pin of integrated chip IC2 connect 3 pin of three terminal regulator T3; 13 pin of diode D9 one termination integrated chip IC2, a terminating diode D10, D14, capacitor C 8; 13 pin of capacitor C 7 one termination integrated chip IC2, another termination power cathode; 10 pin of resistance R 11 1 termination integrated chip IC3, a termination indicator light L1, another termination power cathode of indicator light L1; 2,3 pin of resistance R 12 1 termination integrated chip IC2, another termination indicator light L2, another termination power cathode of indicator light L2; 3 pin of resistance R 15 1 termination three terminal regulator T3, a termination potentiometer VR1, another termination photo resistance R10 of potentiometer VR1 and parallel resistor R9, diode D6, another termination power cathode of photo resistance R10, capacitor C 6,1 pin of capacitor C 6 other end connecting resistance R9, diode D6 and integrated chip IC2; Timing switch K2 main line l is connected between resistance R 19, the R18, several gears are set on it and are respectively equipped with several contacts, wherein contact f connects 3 pin of integrated chip IC3, contact i and meet diode D12, D13 after connect 1,2 pin of integrated chip IC3 respectively, contact j connects 2 pin of integrated chip IC3, contact g connects 1 pin of integrated chip IC3, and contact p connects 7 pin of integrated chip IC3; 8 pin of integrated chip IC3 connect power cathode; 16 pin of integrated chip IC3 connect 3 pin of three terminal regulator T3.

The physical circuit of described manual diode lights 2 is: the power positive cathode two ends also connect capacitor C 1, diode D1 one termination power positive pole, a termination capacitor C1, LED, capacitor C 1, another termination power cathode of LED.

The physical circuit of described acousto-optic control diode lights 3 is: controllable silicon T1 emitter e connects power cathode, collector electrode c sending and receiving optical diode LED, base stage b connecting resistance R8,3 of resistance R 8 another termination integrated package CD parallel connections, 4 pin, 1 of integrated package CD parallel connection, 2,5,6 pin connecting resistance R7, capacitor C 2 negative poles and diode D5 positive pole, resistance R 7 other ends, capacitor C 2 positive poles connect positive source, diode D5 negative pole connects 11 pin of integrated package CD, the 12 pin connecting resistance R4 of integrated package CD, capacitor C 4, resistance R 4 another termination power cathodes, 10 pin of another termination integrated package CD of capacitor C 4, the 13 pin connecting resistance R5 of integrated package CD, R6, resistance R 5 another termination positive sources, resistance R 6 another termination power cathodes, capacitor C 1 just is being attempted by power supply, negative two interpolars, 8 of integrated package CD parallel connection, between 9 pin and 10 pin and connecting resistance R3,8 of capacitor C 3 one termination integrated package CD parallel connections, 9 pin, other end connecting resistance R2, microphone HT, 10 pin of capacitor C 5 one termination integrated package CD, another termination power cathode, another termination power cathode of microphone HT.

The physical circuit of described manual cold cathode lamp 4 is: capacitor C 1 is attempted by the power positive cathode two ends, diode D1 one termination capacitor C1, a termination power positive pole; Inductance H2 one termination capacitor C1, diode D1, one termination parallel resistor R9, R10, resistance R 9, the tap h of R10 parallel end connection inverter H1 primary side 3, resistance R 9 another termination triode T2 base stage b, one end of inverter H1 primary side 2, resistance R 10 another termination triode T1 base stage b, the other end of inverter H1 primary side 2, triode T2 collector electrode c connects an end of inverter D primary side 3, triode T1 collector electrode c connects the other end of inverter H1 primary side 3, capacitor C 8 is attempted by the two ends of inverter H1 primary side 3, resistance R 12, R11 one end meets triode T2 respectively, triode T1 base stage b, connect power cathode after another termination K switch 1; Be attempted by H1 extreme two ends of inverter after cold cathode lamp CCFL, capacitor C 9 series connection.

Described acousto-optic control cold cathode lamp physical circuit comprises acousto-optic control circuit A and illuminating circuit B, acousto-optic control circuit A is: controllable silicon T1 emitter e connects power cathode, collector electrode c sending and receiving optical circuit B, base stage b connecting resistance R8,3 of resistance R 8 another termination integrated package CD parallel connections, 4 pin, 1 of integrated package CD parallel connection, 2,5,6 pin connecting resistance R7, the negative pole of capacitor C 2 and diode D5 positive pole, resistance R 7 other ends, the positive pole of capacitor C 2 connects positive source, diode D5 negative pole connects 11 pin of integrated package CD, the 12 pin connecting resistance R4 of integrated package CD, capacitor C 4, resistance R 4 another termination power cathodes, 10 pin of another termination integrated package CD of capacitor C 4, the 13 pin connecting resistance R5 of integrated package CD, R6, resistance R 5 another termination positive sources, resistance R 6 another termination power cathodes, capacitor C 1 just is being attempted by power supply, negative two interpolars, 8 of integrated package CD parallel connection, between 9 pin and 10 pin and connecting resistance R3,8 of capacitor C 3 one termination integrated package CD parallel connections, 9 pin, other end connecting resistance R2, microphone HT, 10 pin of capacitor C 5 one termination integrated package CD, another termination power cathode, another termination power cathode of microphone HT;

Illuminating circuit B is: inductance H1 one termination power positive pole, another termination parallel resistor R9, R10, resistance R 9, the tap h of the parallel end connection inverter H2 primary side 1 of R10, resistance R 9 another termination triode T2 base stage b, one end of inverter H2 primary side 2, resistance R 10 another termination triode T3 base stage b, the other end of inverter H2 primary side 2, triode T2 collector electrode c connects an end of inverter H2 primary side 1, triode T3 collector electrode c connects the other end of inverter H2 primary side 1, capacitor C 8 is attempted by the two ends of inverter H2 primary side 1, resistance R 12, R11 one end meets triode T2 respectively, triode T3 base stage b, another termination triode T1 collector electrode c, triode T2, the T3 emitter e meets triode T1 collector electrode c, cold-cathode tube CCFL, be attempted by H2 extreme two ends of inverter after capacitor C 9 series connection.

When the utility model adopts the electrical network low power consumption storage battery is charged, it uses DC power supply in the storage battery when peak of power consumption, and adopt light-emitting diode, cold-cathode tube as luminescent device, power savings is remarkable, long service life, and simple in structure, easy to use, shutting off power in emergency, when particularly fire-fighting has a power failure, still can throw light on, appropriate architecture thing corridor is extensive use of especially.

Description of drawings

Fig. 1 is the utility model structural representation

Fig. 2 is a power supply box circuit diagram in the utility model

Fig. 3 is the circuit diagram of the utility model lamp 2

Fig. 4 is the circuit diagram of the utility model lamp 3

Fig. 5 is the circuit diagram of the utility model lamp 4

Fig. 6 is the circuit diagram of the utility model lamp 5

Embodiment

Consult Fig. 1, the utility model comprises power supply box 1, manual diode lights 2, acousto-optic control diode lights 3, manual cold cathode lamp 4 and acousto-optic control cold cathode lamp 5, power supply box 1 input is the 220V alternating current, output is the 12V direct current, and manual diode lights 2, acousto-optic control diode lights 3, manual cold cathode lamp 4 and acousto-optic control cold cathode lamp 5 connect the output of power supply box 1 respectively.

Consult Fig. 2, the 220V power supply through transformer H1 electricity falls, the bridge rectifier formed through D1～D4 again is by C10 filtering, deliver to storage battery, when voltage was higher than operating voltage, electric current was through resistance R 16, voltage-stabiliser tube D16 voltage stabilizing, low to the high electricity of 5 pin, 6 pin of integrated chip IC2 through diode D19 again, resistance R 14, triode T2 base stage b do not have, collector electrode c, not conducting of emitter e, relay H2 coil is not worked, and relay contact K1 separates, do not have electricity and supply with transformer H1, storage battery is stopped charging.When voltage is lower than operating voltage, electric current is through triode D17, voltage-stabiliser tube D18, resistance R 20 and resistance R 21 are fallen over the ground, make 9 pin of integrated chip IC2 low, 8 pin are high, electric current is supplied with 11 pin of integrated chip IC2 by diode D8,11 pin are high, 10 pin are low, this moment, capacitor C 8 was discharged to 10 pin, make 5 pin of integrated chip IC2 become low, 6 pin are high, electric current gets triode T2 base stage b through resistance R 14, collector electrode c, the emitter e conducting makes relay H2 coil conducting work, makes relay contact KI closure, the 220V electricity is supplied with transformer H1, makes the storage battery charging.Three terminal regulator T3 ensures circuit low-voltage power supply and relay H2 coil operate as normal.

When need not to charge daytime, electric current to potentiometer VR1, has the light time through resistance R 15 daytime, and photo resistance RI0 resistance is little, conducting over the ground, do not have electricity and supply with diode D6, and give photo resistance R10 the electricity through diode C6 through resistance R 9 time-delay discharges, after photo resistance R10 discharges over the ground, 1 pin of integrated chip IC2 is not had, the high electricity of 2 pin, conducting resistance R12, indicator light L1 are bright, and circuit is no charged state.

When evening is unglazed, the not conducting greatly over the ground of photo resistance R10 resistance, current direction diode D6 is to 1 pin of integrated chip IC2,1 pin is high, 1., resistance R 12 do not have electricly this moment, 11 pin of 2 pin, 3 pin and IC3 of IC2 all be low electricity, and the electric current whereabouts has three places:, indicator light L2 does not work; 2., the high electricity of 4 pin of integrated chip IC2, electric current is delivered to the high electricity of 1 pin, the low electricity of 2 pin that capacitor C 6 chargings make integrated chip IC2 after full through resistance R 13, diode D7, makes not to be subjected to photo resistance to see light conducting over the ground in timing, does not influence timing power supply.3., 11 pin of integrated chip IC3 are low, produce the 10 pin internal oscillators counting of integrated chip IC3, regulate timing by resistance R 17, potentiometer VR2,13,12 pin of capacitor C 7, integrated chip IC2 form time-delay regularly arteries and veins fill control, and through 11 couples of indicator light L1 of resistance R arteries and veins fill coruscate shinny.Timing switch K2 is provided with several regularly gears, first grade is regularly usefulness of setting in 28 seconds 13, second grade is regularly 2 hours, third gear is regularly 4 hours, fourth speed is regularly 6 hours, and the 5th grade is regularly 8 hours, and the 6th grade is to be full of automatic stop when day and night hanging down electricity automatically, for example timing switch K2 pushes fourth speed and is regularly 6 hours, begins charging after promptly spending 6 hours.

Consult Fig. 3, Closing Switch K1, LED is luminous.

Consult Fig. 4, it is an acousto-optic control diode lights circuit diagram, when obtaining sound, microphone HT drives

capacitor C

3,8,9 pin of integrated package CD are that electronegative potential, 10 pin are high potential and trigger capacitor C 4 and make pin 12 be all high potential, when unglazed, photo resistance R6 resistance is big, electric current all flows to 13 pin through

resistance R

5,13 pin are high potential, this moment, 11 pin were electronegative potential, and capacitor C 2 is discharged to 11 pin through diode D5, and 1,2,5,6 pin of integrated package CD parallel connection are electronegative potential, making 3,4 pin in parallel is high potential, opens several LEDs by controllable silicon T1; Behind capacitor C 2 charging certain hours, 3,4 pin of integrated package CD parallel connection are electronegative potential, and controllable silicon T1 base stage b does not have electricity, and LED is closed.Adopt the CD4011 integrated package in the circuit; As cancellation photo resistance R6, can realize single acoustic control.12,13 pin connection as cancellation resistance R 2, R3, R4, C3, C4, microphone HT, integrated package CD can realize single light-operated.

Consult Fig. 5; it is manual cold cathode lamp circuit diagram; Closing Switch K1; electric current is through diode D1; inductance H1 protecting against shock; after anti-interference; again through resistance R 9; R10 makes triode T2; the base stage b of T3 gets; collector electrode c advances; the emitter e discharge; capacitor C 8 provides forward bias; make primary inductance and the electric capacity of inverter H1 form positive high-amplitude wave of high frequency of resonance generation; to the secondary output high pressure that makes inverter H1; in order to light cold-cathode tube CCFL; capacitor C 9 can play metering function, makes cold-cathode tube CCFL start the back and reduces both end voltage, resistance R 11; R12 is to triode T2; the base stage b of T3 plays the overcurrent protection effect.

Consult Fig. 6, it is an acousto-optic control cold cathode lamp circuit diagram, when obtaining sound, microphone HT1 drives

capacitor C

resistance R

5,13 pin are high potential, this moment, 11 pin were electronegative potential, and capacitor C 2 is discharged to 11 pin through diode D5, and 1,2,5,6 pin of integrated package CD parallel connection are electronegative potential, making 3,4 pin in parallel is high potential, opens illuminating circuit B by controllable silicon T1; Inductance H1 protecting against shock, anti-interference, make the base stage b of triode T2, T3 get electric, collector electrode c through resistance R 9, R10 to advance electricity, emitter e discharge; capacitor C 8 provides forward bias; make primary inductance and the electric capacity of inverter H2 form positive high-amplitude wave of high frequency of resonance generation; to the secondary output high pressure that makes inverter H2; in order to light cold-cathode tube CCFL; capacitor C 9 can play metering function; make cold-cathode tube CCFL start the back and reduce both end voltage, resistance R 11, R12 play the overcurrent protection effect to the base stage b of triode T2, T3.Behind capacitor C 2 charging certain hours, 3,4 pin of integrated package CD parallel connection are electronegative potential, and controllable silicon T1 base stage b does not have electricity, and cold-cathode tube CCFL closes.Adopt the CD4011 integrated package in the circuit.As cancellation photo resistance R6, can realize single acoustic control.12,13 pin connection as cancellation resistance R 2, R3, R4, C3, C4, microphone HT1, integrated package CD can realize single light-operated.

Claims

1, a kind of multi-function emergency Assembled lamp, it is characterized in that it comprises power supply box (1), manual diode lights (2), acousto-optic control diode lights (3), manual cold cathode lamp (4) and acousto-optic control cold cathode lamp (5), described manual diode lights (2), acousto-optic control diode lights (3), manual cold cathode lamp (4) and acousto-optic control cold cathode lamp (5) connect the output of power supply box (1) respectively.

2, according to the described multi-function emergency Assembled lamp of claim 1, it is characterized in that the circuit in the described power supply box (1) comprises power circuit (A), timing charge-discharge circuit (B), concrete form is:

Power circuit (A): transformer H1 primary side is succeeded appliance contact K1, secondary termination is formed bridge rectifier by diode D1, D2, D3, D4, between power positive cathode and connect capacitor C 10 and storage battery:

Timing charge-discharge circuit (B): resistance R 16 1 termination power positive poles, a termination pressurizer D16, another terminating diode of voltage-stabiliser tube D16 D19,5 pin of another termination integrated chip of diode D19 IC2, the 6 pin connecting resistance R14 of integrated chip IC2, resistance R 14 another termination triode T2 base stage b, triode T2 collector electrode c meets diode connected in parallel D15, relay H2,3 pin of another termination three terminal regulator of diode D15, relay H2 T3; Triode T2 emitter e connects power cathode, resistance R 22 1 termination voltage-stabiliser tube D16 positive poles, a termination power negative pole; 1 pin of diode D17 one termination power positive pole, a termination voltage-stabiliser tube D18, three terminal regulator T3, voltage-stabiliser tube D18 other end connecting resistance R20,9 pin, the resistance R 21 of resistance R 20 another termination integrated chip IC2, resistance R 21 another termination power cathodes, 7 pin of integrated chip IC2 connect power cathode; Resistance R 23 is attempted by between 2 pin, power cathode of three terminal regulator T3; 8 pin of integrated chip IC2 meet diode D8,11 pin, the diode D11 of another termination integrated chip of diode D8 IC2, diode D11 other end connecting resistance R18,3 pin of resistance R 18 another termination three terminal regulator T3; 11 pin of integrated chip IC2 connect diode connected in parallel D11, resistance R 19,3 pin of 11 pin of capacitor C 9 one termination integrated chip IC2, another termination three terminal regulator T3; Capacitor C 8, diode D14 also meet afterwards 10 pin, the diode D10 of a termination integrated chip IC2,5 pin of another termination integrated chip IC2, another terminating diode of diode D10 D7,1 pin of another termination integrated chip of diode D7 IC2,2,3 pin of integrated chip IC2 connect 11 pin of integrated chip IC3, the 4 pin connecting resistance R13 of integrated chip IC2, resistance R 13 another terminating diode D7; Between 13,12 pin of integrated chip IC2 and connect potentiometer VR2, the resistance R 17 of series connection, 14 pin of integrated chip IC2 connect 3 pin of three terminal regulator T3; 13 pin of diode D9 one termination integrated chip IC2, a terminating diode D10, D14, capacitor C 8; 13 pin of capacitor C 7 one termination integrated chip IC2, another termination power cathode; 10 pin of resistance R 11 1 termination integrated chip IC3, a termination indicator light L1, another termination power cathode of indicator light L1; 2,3 pin of resistance R 12 1 termination integrated chip IC2, another termination indicator light L2, another termination power cathode of indicator light L2; 3 pin of resistance R 15 1 termination three terminal regulator T3, a termination potentiometer VR1, another termination photo resistance R10 of potentiometer VR1 and parallel resistor R9, diode D6,1 pin of another termination power cathode of photo resistance R10, capacitor C 6 other end connecting resistance R9, diode D6 and integrated chip IC2; Timing switch K2 main line l is connected between resistance R 19, the R18, several gears are set on it and are respectively equipped with several contacts, wherein contact f connects 3 pin of integrated chip IC3, contact i and meet diode D12, D13 after connect 1,2 pin of integrated chip IC3 respectively, 2 pin of contact j integrated chip IC3, contact g connects 1 pin of integrated chip IC3, and contact p connects 7 pin of integrated chip IC3; 8 pin of integrated chip IC3 connect power cathode; 16 pin of integrated chip IC3 connect 3 pin of three terminal regulator T3.

3, according to the described multi-function emergency Assembled lamp of claim 1, the physical circuit that it is characterized in that manual diode lights (2) is: the power positive cathode two ends also connect capacitor C 1, diode D1 one termination power positive pole, a termination capacitor C1, LED, capacitor C 1, another termination power cathode of LED.

4, according to the described multi-function emergency Assembled lamp of claim 1, it is characterized in that acousto-optic control diode lights (3) physical circuit is: controllable silicon T1 emitter e connects power cathode, collector electrode c sending and receiving optical diode LED, base stage b connecting resistance R8,3 of resistance R 8 another termination integrated package CD parallel connections, 4 pin, 1 of integrated package CD parallel connection, 2,5,6 pin connecting resistance R7, capacitor C 2 negative poles and diode D5 positive pole, resistance R 7 other ends, capacitor C 2 positive poles connect positive source, diode D5 negative pole connects 11 pin of integrated package CD, the 12 pin connecting resistance R4 of integrated package CD, capacitor C 4, resistance R 4 other end power cathodes, 10 pin of another termination integrated package CD of capacitor C 4, the 13 pin connecting resistance R5 of integrated package CD, photo resistance R6, resistance R 5 another termination positive sources, another termination power cathode of photo resistance R6, capacitor C 1 just is being attempted by power supply, negative two interpolars, 8 of integrated package CD parallel connection, between 9 pin and 10 pin and connecting resistance R3, capacitor C 3 one termination integrated package CD parallel connections 8,9 pin, other end connecting resistance R2, microphone HT, 10 pin of capacitor C 5 one termination integrated package CD, another termination power cathode, another termination power cathode of microphone HT.

5, according to the described multi-function emergency Assembled lamp of claim 1, it is characterized in that the physical circuit of manual cold cathode lamp (4) is: capacitor C 1 is attempted by the power positive cathode two ends, diode D1 one termination capacitor C1, a termination power positive pole; Inductance H2 one termination capacitor C1, diode D1, one termination parallel resistor R9, R10, resistance R 9, the tap h of R10 parallel end connection inverter H1 primary side 3, resistance R 9 another termination triode T2 base stage b, one end of inverter H1 primary side 2, resistance R 10 another termination triode T1 base stage b, the other end of inverter H1 primary side 2, triode T2 collector electrode c connects an end of inverter D primary side 3, triode T1 collector electrode c connects the other end of inverter H1 primary side 3, capacitor C 8 is attempted by the two ends of inverter H1 primary side 3, resistance R 12, R11 one end meets triode T2 respectively, triode T1 base stage b, connect power cathode after another termination K switch 1; Be attempted by the two ends of inverter H1 secondary end after cold cathode lamp CCFL, capacitor C 9 series connection.

6, according to the described multi-function emergency Assembled lamp of claim 1, it is characterized in that acousto-optic control cold cathode lamp physical circuit comprises acousto-optic control circuit (A) and illuminating circuit (B), acousto-optic control circuit (A) is: controllable silicon T1 emitter e connects power cathode, collector electrode c sending and receiving optical circuits (B), base stage b connecting resistance R8,3 of resistance R 8 another termination integrated package CD parallel connections, 4 pin, 1 of integrated package CD parallel connection, 2,5,6 pin connecting resistance R7, the negative pole of capacitor C 2 and diode D5 positive pole, resistance R 7 other ends, the positive pole of capacitor C 2 connects positive source, diode D5 negative pole connects 11 pin of integrated package CD, the 12 pin connecting resistance R4 of integrated package CD, capacitor C 4, resistance R 4 another termination power cathodes, 10 pin of another termination integrated package CD of capacitor C 4, the 13 pin connecting resistance R5 of integrated package CD, R6, resistance R 5 another termination positive sources, resistance R 6 another termination power cathodes, capacitor C 1 just is being attempted by power supply, negative two inter-stages, 8 of integrated package CD parallel connection, between 9 pin and 10 pin and connecting resistance R3,8 of capacitor C 3 one termination integrated package CD parallel connections, 9 pin, other end connecting resistance R2, microphone HT, 10 pin of capacitor C 5 one termination integrated package CD, another termination power cathode, another termination power cathode of microphone HT;

Illuminating circuit (B) is: inductance H1 one termination power positive pole, another termination parallel resistor R9, R10, resistance R 9, the tap h of the parallel end connection inverter H2 primary side 1 of R10, resistance R 9 another termination triode T2 base stage b, the other end of inverter H2 primary side 2, resistance R 10 another termination triode T3 base stage b, the other end of inverter H2 primary side 2, one end of triode T2 collector electrode c inverter H2 primary side 1, triode T3 collector electrode c connects the other end of inverter H2 primary side 1, capacitor C 8 is attempted by the two ends of inverter H2 primary side 1, resistance R 12, R11 one end meets triode T2 respectively, triode T3 base stage b, another termination triode T1 collector electrode c, triode T2, the T3 emitter e meets triode T1 collector electrode c, cold-cathode tube CCFL, be attempted by the two ends of inverter H2 secondary end after capacitor C 9 series connection.