CN203748049U - Acousto-optic delay control energy saving lamp - Google Patents

Abstract

The utility model relates to an energy saving lamp, and especially relates to an acousto-optic delay control energy saving lamp. The acousto-optic delay control energy saving lamp comprises a power circuit, a light control circuit and a voice control circuit; the power circuit comprises a ac power source, a bulb, a bidirectional triode thyristor, a sixth capacitor, an eleventh resistor, a first diode, an eighth resistor, a fourth capacitor and a voltage-regulator tube; the light control circuit comprises a light sensitive resistor, a fifth resistor and an SM9100 integrated chip; and the voice control circuit comprises a microphone, a first triode, a second triode, a third triode, an adjustable resistor, a first resistor, a second resistor, a third resistor, a fourth resistor, a seventh resistor, a ninth resistor, a tenth resistor, a first capacitor, a second capacitor and a fifth capacitor. The acousto-optic delay control energy saving lamp can be automatically turned off by daylight, and is automatically turned on when people make sounds at night, and the technical problem that an existing street lamp is turned on for a long time, and the power resource is wasted is solved.

Description

Acousto-optic time delay control electricity-saving lamp

Technical field

The utility model relates to a kind of electricity-saving lamp, relates in particular to a kind of acousto-optic time delay control electricity-saving lamp.

Background technology

For convenience of pedestrian and the vehicle of night trip, road both sides is all provided with street lamp, and street lamp is to carry out break-make according to the time setting under normal circumstances, is generally and arrives morning 6 points at 8 in evening, and in the meantime, street lamp will be always in opening.In fact, particularly at dead of night, basic nobody's trip, the street lamp of these light yellows is the waste to electric power resource beyond doubt, if close in advance street lamp, runs into the people of trip in the late into the night, cannot provide illumination for it again.

Utility model content

Technical problem to be solved in the utility model is to provide one and can automatically closes by day, the acousto-optic time delay control electricity-saving lamp of automatically opening when night, people sent the sound.

In order to solve the problems of the technologies described above, the utility model provides following technical scheme:

Acousto-optic time delay control electricity-saving lamp, comprises power circuit, light-operated circuit and sound control circuit;

Described power circuit comprises AC power, bulb, bidirectional triode thyristor, electric capacity six, resistance 11, diode one, resistance eight, electric capacity four and voltage-stabiliser tube;

Described bulb is connected with bidirectional triode thyristor, described resistance 11 is also connected with electric capacity six, described electric capacity four is in parallel with voltage-stabiliser tube, described voltage-stabiliser tube plus earth, negative pole is connected with resistance Aug. 1st end, and described diode one negative pole is connected with resistance eight other ends, and positive pole is connected with electric capacity six, described AC power one end is connected with bulb and electric capacity six, and the other end is connected with bidirectional triode thyristor and ground connection;

Described light-operated circuit comprises photo resistance, resistance five and SM9100 integrated chip; Described photo resistance is connected with resistance five, and 6 pin of described photo resistance, SM9100 integrated chip are connected with described voltage-stabiliser tube negative pole with 7 pin, and 2 pin of described SM9100 integrated chip are connected between photo resistance and resistance five, and 1 pin is connected with ground;

Described sound control circuit comprises that microphone, triode one, triode two, triode three, adjustable resistance, resistance one are to resistance four, resistance seven, resistance nine, resistance ten, electric capacity one, electric capacity two and electric capacity five;

Described resistance one is connected with microphone, described resistance four is connected with adjustable resistance coil, described triode one collector electrode is connected with resistance three, described resistance one, resistance three is connected with described voltage-stabiliser tube negative pole with resistance four, described microphone, triode one emitter is connected with ground with adjustable resistance coil, described triode one base stage is connected between resistance one and microphone by electric capacity one, collector electrode is connected between resistance four and adjustable resistance coil by electric capacity two, described resistance two one end are connected with triode one base stage, the other end is connected with triode one collector electrode, 8 pin of described SM9100 integrated chip are connected with adjustable resistance sliding end, 9 pin are connected with triode two base stages by resistance seven, triode two grounded emitters, collector electrode is connected with triode three base stages by resistance nine, described triode two collector electrodes are also by electric capacity five ground connection, described triode three collector electrodes are connected with bidirectional triode thyristor control end by resistance ten, described triode three emitters are connected with voltage-stabiliser tube negative pole.

Operation principle of the present utility model:

1, power circuit

220V alternating voltage one tunnel adds to each one end of bulb and bidirectional triode thyristor, by lighting bulb after bidirectional triode thyristor conducting, another road is through electric capacity six and resistance 11 step-downs, diode one halfwave rectifier, resistance eight current limlitings, electric capacity four filtering, and voltage-stabiliser tube voltage stabilizing offers subsequent conditioning circuit after being 8V.

2, light-operated circuit

Light-operated circuit is made up of photo resistance and resistance five, by day, photo resistance is subject to illumination resistance below 100K Ω, supply power voltage is added to 2 pin of SM9100 integrated chip after photo resistance and resistance five dividing potential drops, due to this voltage >0.7V, therefore its 9 pin output cut-off, makes the input signal of 8 pin invalid.When night, shine resistance more than mega-ohms because photo resistance is unglazed, 2 pin current potential <0.7V of SM9100 integrated chip, its 9 pin output conducting, now, SM9100 integrated chip is subject to the control of its 8 pin input signal.

3, sound control circuit

At night, if the voice signal such as footsteps, clapping is picked up by microphone, amplify through triode one, trigger 8 pin of SM9100 integrated chip, make the signal that SM9100 integrated chip 9 pin output duty cycles are 3:2, then through triode two, electric capacity five is discharged, triode three conductings, trigger bidirectional triode thyristor conducting, bulb is lighted.

Adjustable resistance is used for regulating sound control circuit trigger sensitivity, and bulb is determined by resistance nine and electric capacity five time of delay.

Adopt the utility model to have following technique effect:

This acousto-optic time delay control electricity-saving lamp, can not open because illumination is more intense, evening light dimmed after, when people need to be thrown light on, as long as send the sound, will trigger street lamp automatic control and open, to the dead of night's automatic distinguishing again, the lighting problem that therefore can solve people is simultaneously very energy-conservation again.

Brief description of the drawings

Fig. 1 is the circuit theory diagrams of the utility model acousto-optic time delay control electricity-saving lamp.

Embodiment

As shown in Figure 1, acousto-optic time delay control electricity-saving lamp, comprises power circuit, light-operated circuit and sound control circuit;

Described power circuit comprises AC power, bulb HL, bidirectional triode thyristor VS, electric capacity six C6, resistance 11 R11, diode one VD1, resistance eight R8, electric capacity four C4 and voltage-stabiliser tube VD;

Described bulb HL connects with bidirectional triode thyristor VS, described resistance 11 R11 are also connected with electric capacity six C6, described electric capacity four C4 are in parallel with voltage-stabiliser tube VD, described voltage-stabiliser tube VD plus earth, negative pole is connected with resistance eight R8 one end, and described diode one VD1 negative pole is connected with the resistance eight R8 other ends, and positive pole is connected with electric capacity six C6, described AC power one end is connected with bulb HL and electric capacity six C6, and the other end is connected with bidirectional triode thyristor VS and ground connection;

Described light-operated circuit comprises photo resistance RG, resistance R 5 five and SM9100 integrated chip IC; Described photo resistance RG connects with resistance five R5,6 pin of described photosensitive electric RG, SM9100 integrated chip IC are connected with described voltage-stabiliser tube VD negative pole with 7 pin, 2 pin of described SM9100 integrated chip IC are connected between photo resistance RG and resistance five R5, and 1 pin is connected with ground;

Described sound control circuit comprises that microphone MIC, triode one VT1, triode two VT2, triode three VT3, adjustable resistance RP, resistance one are to resistance four R1～R4, resistance seven R7, resistance nine R9, resistance ten R10, electric capacity one C1, electric capacity two C2 and electric capacity five C5;

Described resistance one R1 connects with microphone MIC, described resistance four R4 connect with adjustable resistance RP coil, described triode one VT1 collector electrode is connected with resistance three R3, described resistance one R1, resistance three R3 are connected with described voltage-stabiliser tube VD negative pole with resistance four R4, described microphone MIC, triode one VT1 emitter is connected with ground with adjustable resistance RP1 coil, described triode one VT1 base stage is connected between resistance one R1 and microphone MIC by electric capacity one C1, collector electrode is connected between resistance four R4 and adjustable resistance RP coil by electric capacity two C2, described resistance two R2 one end are connected with triode one VT1 base stage, the other end is connected with triode one VT1 collector electrode, 8 pin of described SM9100 integrated chip IC are connected with adjustable resistance RP sliding end, 9 pin are connected with triode two VT2 base stages by resistance seven R7, triode two VT2 grounded emitters, collector electrode is connected with triode three VT3 base stages by resistance nine R9, described triode two VT2 collector electrodes are also by electric capacity five C5 ground connection, described triode three VT3 collector electrodes are connected with bidirectional triode thyristor VS control end by resistance ten R10, described triode three VT3 emitters are connected with voltage-stabiliser tube VD negative pole.

Device is selected: this circuit adopts 220V ac power supply, triode one VT1 and triode two VT2 select 9014 types, triode three VT3 select 9012 types, diode one VD1 selects IN4148 type, electric capacity one C1 and electric capacity two C2 select 0.1 μ F, electric capacity four C4 select 220 μ F, electric capacity five C5 select 100 μ F, adjustable resistance RP selects 100K Ω, resistance one is selected 10K Ω, resistance two R2 select 220 K Ω, resistance three R3 select 2.2 K Ω, resistance four R4 select 1 K Ω, resistance five R5 select 100 K Ω, resistance seven R7 select 1.1 K Ω, resistance eight R8 select 4.7 Ω, resistance nine R9 select 200K Ω.

Above-described is only preferred implementation of the present utility model, it should be pointed out that for a person skilled in the art, not departing under the prerequisite of the utility model structure, can also make some distortion and improvement.These also should be considered as protection range of the present utility model, and these can not affect effect and practical applicability that the utility model is implemented.

Claims (1)

1. acousto-optic time delay control electricity-saving lamp, is characterized in that: comprise power circuit, light-operated circuit and sound control circuit;

Described power circuit comprises AC power, bulb, bidirectional triode thyristor, electric capacity six, resistance 11, diode one, resistance eight, electric capacity four and voltage-stabiliser tube;

Described bulb is connected with bidirectional triode thyristor, described resistance 11 is also connected with electric capacity six, described electric capacity four is in parallel with voltage-stabiliser tube, described voltage-stabiliser tube plus earth, negative pole is connected with resistance Aug. 1st end, and described diode one negative pole is connected with resistance eight other ends, and positive pole is connected with electric capacity six, described AC power one end is connected with bulb and electric capacity six, and the other end is connected with bidirectional triode thyristor and ground connection;

Described light-operated circuit comprises photo resistance, resistance five and SM9100 integrated chip; Described photo resistance is connected with resistance five, and 6 pin of described photo resistance, SM9100 integrated chip are connected with described voltage-stabiliser tube negative pole with 7 pin, and 2 pin of described SM9100 integrated chip are connected between photo resistance and resistance five, and 1 pin is connected with ground;

Described sound control circuit comprises that microphone, triode one, triode two, triode three, adjustable resistance, resistance one are to resistance four, resistance seven, resistance nine, resistance ten, electric capacity one, electric capacity two and electric capacity five;

Described resistance one is connected with microphone, described resistance four is connected with adjustable resistance coil, described triode one collector electrode is connected with resistance three, described resistance one, resistance three is connected with described voltage-stabiliser tube negative pole with resistance four, described microphone, triode one emitter is connected with ground with adjustable resistance coil, described triode one base stage is connected between resistance one and microphone by electric capacity one, collector electrode is connected between resistance four and adjustable resistance coil by electric capacity two, described resistance two one end are connected with triode one base stage, the other end is connected with triode one collector electrode, 8 pin of described SM9100 integrated chip are connected with adjustable resistance sliding end, 9 pin are connected with triode two base stages by resistance seven, triode two grounded emitters, collector electrode is connected with triode three base stages by resistance nine, described triode two collector electrodes are also by electric capacity five ground connection, described triode three collector electrodes are connected with bidirectional triode thyristor control end by resistance ten, described triode three emitters are connected with voltage-stabiliser tube negative pole.