CN204291506U - A kind of illuminating lamp energy-saving control device - Google Patents

Abstract

The utility model provides a kind of illuminating lamp energy-saving control device, comprise infrared control circuit, lighting control circuit and photosensitive control circuit, infrared control circuit is by human body pyroelectricity infrared sensor, rpyroelectric infrared transducing signal integrated circuit, first triode, the coil of the first relay and peripheral circuit composition thereof, lighting control circuit is by the 14 resistance and the first relay, the normally opened contact composition of the second relay, photosensitive control circuit is by the second triode, the coil of the second relay, 15 resistance, photo resistance and diode composition, the utility model detects whether have people by infrared control circuit, detect room brilliancy by photosensitive control circuit simultaneously, control the closed of lighting control circuit, structure is simple, safe and reliable, be active in one's movements, can maximum saves energy.

Description

A kind of illuminating lamp energy-saving control device

Technical field

The utility model relates to lighting lamp control field, particularly relates to a kind of illuminating lamp energy-saving control device.

Background technology

Along with the develop rapidly of science and technology, the living standard of people improves constantly, and grows with each passing day to the demand of the energy, and energy savings has become people's question of common concern.But in real life, to the wasting phenomenon ubiquity of the energy, especially in school, the phenomenon of the lighting apparatus ubiquity waste of energy of teaching building, office.No one in a classroom, or only have a few individual to be gathered in a panel region, but in classroom, all lamps are all in open mode, and simultaneously when indoor light is fine, the lamp in classroom is still opened, and accumulates over a long period and just wastes huge electric energy.

Utility model content

The purpose of this utility model is to provide a kind of illuminating lamp energy-saving control device, can detect room brilliancy, and whether according to someone controls the light on and off of illuminating lamp, saves energy.

For achieving the above object, the utility model adopts following technical scheme:

A kind of illuminating lamp energy-saving control device, comprise infrared control circuit, photosensitive control circuit, lighting control circuit, described infrared control circuit is by human body pyroelectricity infrared sensor, rpyroelectric infrared transducing signal integrated circuit and peripheral circuit thereof, first triode, the coil composition of the first relay, the output of human body pyroelectricity infrared sensor connects the input of rpyroelectric infrared transducing signal integrated circuit, the output of rpyroelectric infrared transducing signal integrated circuit connects the base stage of the first triode, the emitter of the first triode connects coil one end of the first relay, the coil other end ground connection of the first relay,

Lighting control circuit is made up of the normally opened contact of the 14 resistance and the first relay, the second relay, the normally opened contact of described 14 resistance and the first relay, the second relay becomes series circuit with lighting lamp group, series circuit one termination power, other end ground connection;

Photosensitive control circuit is made up of the coil of the second triode, the second relay, the 15 resistance, photo resistance and diode, the emitter of the second triode connects one end of the second relay coil, the other end of the second relay coil connects one end of photo resistance, the other end of photo resistance connects the base stage of the second relay, the collector electrode of the second relay connects power supply, the other end of photo resistance also connects one end of ground 15 resistance, another termination power of 15 resistance, diodes in parallel is at the two ends of the second relay coil.

The peripheral circuit annexation of described rpyroelectric infrared transducing signal integrated circuit is as follows: the power end of human body pyroelectricity infrared sensor connects power supply by the second resistance and the first resistance, by the second capacity earth between second resistance and the first resistance, the earth terminal ground connection of human body pyroelectricity infrared sensor, output connects the in-phase input end of the first order operational amplifier of rpyroelectric infrared transducing signal integrated circuit by the 7th resistance, the output of human body pyroelectricity infrared sensor is also connected with first electric capacity one end, the other end ground connection of the first electric capacity, the 3rd resistance is also parallel with at the two ends of the first electric capacity, the triggering of rpyroelectric infrared transducing signal integrated circuit forbids that end is empty, operational amplifier bias current arranges end by the 4th grounding through resistance, second level operational amplifier output terminal is by the 6th resistance, 5th resistance, the series circuit of the 8th resistance composition connects the reverse input end of first order operational amplifier, the two ends of the 6th resistance are also parallel with the 3rd electric capacity, 6th resistance is also connected the reverse input end of second level operational amplifier in the one end be connected with the 5th resistance, the two ends of the 8th resistance are parallel with the 4th electric capacity, the reverse input end of first order operational amplifier is also by the 9th resistance, 5th capacity earth, output is linked together by the reverse input end of the 8th resistance and first order operational amplifier, output also connects the output of human body pyroelectricity infrared sensor, the RESET input of rpyroelectric infrared transducing signal integrated circuit and the positive termination power of working power, working power negativing ending grounding, first triggering blocking time adjustable side is triggered blocking time adjustable side by the tenth resistance and second and is connected together, second triggers blocking time adjustable side also by the 7th capacity earth, first output delay time adjustable side is connected together by the 11 resistance and the second output delay time adjustable side, second output delay time adjustable side is also by the 6th capacity earth, control signal output connects the base stage of the first triode by the 12 resistance, the collector electrode of the first triode connects power supply by the 13 resistance, emitter connects coil one end of the first relay, the coil other end ground connection of the first relay, triggering mode selecting side connects working mode selection switch, one termination power of switch, other end ground connection.

The utility model carrys out light luminance in sensing chamber by photo resistance, and comes whether have people in sensing chamber by human body pyroelectricity infrared sensor, thus controls the light on and off of illuminating lamp, by automatically controlling the object reaching saves energy; The peripheral circuit of chip is simple, only just can be realized by diode, electric capacity and resistance, with low cost; Lighting control circuit has Control, safe and reliable, is active in one's movements, can maximum saves energy.

Accompanying drawing explanation

Fig. 1 is circuit theory diagrams of the present utility model.

Embodiment

As shown in Figure 1, the utility model comprises infrared control circuit, lighting control circuit and photosensitive control circuit, described infrared control circuit is by human body pyroelectricity infrared sensor PIR, rpyroelectric infrared transducing signal integrated circuit BISS0001 and peripheral circuit composition thereof, its annexation is as follows: 1 pin (power end) of human body pyroelectricity infrared sensor PIR connects 5V power supply by resistance R2 and R1, by electric capacity C2 ground connection between resistance R1 and R2, 3 pins (earth terminal) ground connection of PIR, 2 pins (output) connect 14 pins (first order operational amplifier in-phase input end) of rpyroelectric infrared transducing signal integrated circuit BISS0001 by resistance R7, 2 pins (output) of PIR are also connected with electric capacity C1 one end, the other end ground connection of electric capacity C1, resistance R3 is also parallel with at the two ends of electric capacity C1, 9 pins (end is forbidden in triggering) of rpyroelectric infrared transducing signal integrated circuit BISS0001 are empty, 10 pins (operational amplifier bias current arranges end) are by resistance R4 ground connection, 12 pins (second level operational amplifier output terminal) are by resistance R6, R5, the series circuit of R8 composition connects 15 pins (first order operational amplifier reverse input end), the two ends of resistance R6 are also parallel with electric capacity C3, one end that resistance R6 is being connected with resistance R5 is also connected 13 pins (second level operational amplifier reverse input end), the two ends of resistance R8 are parallel with electric capacity C4, 15 pins (first order operational amplifier reverse input end) are also by resistance R9, electric capacity C5 ground connection, 16 pins (output) are linked together by resistance R8 and 15 pins (first order operational amplifier reverse input end), 16 pins (output) also connect 2 pins (output) of PIR, 8 pins (the RESET input) and 11 pins (working power anode) of rpyroelectric infrared transducing signal integrated circuit BISS0001 connect 5V power supply, 7 pins (working power negative terminal) ground connection, 6 pins (first triggers blocking time adjustable side) are connected together by resistance R10 and 5 pins (second triggers blocking time adjustable side), 5 pins (second triggers blocking time adjustable side) are also by electric capacity C7 ground connection, 3 pins (the first output delay time adjustable side) are connected together by resistance R11 and 4 pins (the second output delay time adjustable side), 4 pins (the second output delay time adjustable side) are also by electric capacity C6 ground connection, 2 pins (control signal output) are by the base stage of resistance R12 connecting triode VT1, the collector electrode of VT1 connects 5V power supply by resistance R13, coil one end of emitter contact relay J1, the coil other end ground connection of J1, 1 pin connects working mode selection interrupteur SW 1, 1 termination 5V power supply of interrupteur SW 1, 2 end ground connection of interrupteur SW 1.When SW1 is communicated with 1 end, chip is in can repeated trigger working method; When SW1 is communicated with 2 ends, chip is then in not reproducible triggered mode of operation.

Lighting control circuit is made up of the normally opened contact of resistance R14 and relay J 1, J2, and normally opened contact and the illuminating lamp L of resistance R14 and relay J 1, J2 form series circuit, series circuit one termination AC power, other end ground connection.

Photosensitive control circuit comprises triode VT2, the coil of relay J 2, resistance R15, photo resistance RG and diode D1 and forms, the emitter of triode VT2 connects one end of relay J 2 coil, the other end of J2 coil connects photo resistance RG and resistance R15 respectively, the collector electrode of the other end connecting triode VT2 of resistance R15, the base stage of triode VT2 is connected between resistance R15 and photo resistance RG, and diode D1 is connected in parallel on the two ends of relay J 2 coil.

When indoor light is brighter, photo resistance RG is low resistive state, and VT2 ends, and the coil of relay J 2 must not be electric, and its normally opened contact is failure to actuate, and illuminating lamp L does not work.

When indoor light is darker, photo resistance RG resistance increases, VT2 conducting, and the coil of relay J 2 obtains electric, the normally opened contact of J2 closes, if now there is people to export the signal of telecommunication near 2 pins (output) of human body pyroelectricity infrared sensor PIR, PIR, 2 pins (control signal output) of rpyroelectric infrared transducing signal integrated circuit BISS0001 export high level, triode VT1 conducting, thus the coil of relay J 1 obtains electric, the normally opened contact of J1 closes, and illuminating lamp L lights.After people leaves, the delay circuit of rpyroelectric infrared transducing signal integrated circuit BISS0001 inside is started working, triode VT1 maintains conducting state, illuminating lamp L time delay is lighted, after delay time terminates, 2 pins (control signal output) of rpyroelectric infrared transducing signal integrated circuit BISS0001 become low level, and triode VT1 ends, and illuminating lamp L extinguishes.

The probe of human body pyroelectricity infrared sensor PIR is generally arranged on the height of overhead 2-2.2 rice, simultaneously in order to improve the sensitivity of this device, can add the paraboloidal of assembly set or hemispheric Fresnel lens before human body pyroelectricity infrared sensor PIR.

The utility model also can be used on the places such as study, corridor, hotel, reaches the object of saves energy.

Claims (2)

1. an illuminating lamp energy-saving control device, it is characterized in that: comprise infrared control circuit, photosensitive control circuit, lighting control circuit, described infrared control circuit is by human body pyroelectricity infrared sensor, rpyroelectric infrared transducing signal integrated circuit and peripheral circuit thereof, first triode, the coil composition of the first relay, the output of human body pyroelectricity infrared sensor connects the input of rpyroelectric infrared transducing signal integrated circuit, the output of rpyroelectric infrared transducing signal integrated circuit connects the base stage of the first triode, the emitter of the first triode connects coil one end of the first relay, the coil other end ground connection of the first relay,

Lighting control circuit is made up of the normally opened contact of the 14 resistance and the first relay, the second relay, the normally opened contact of described 14 resistance and the first relay, the second relay becomes series circuit with lighting lamp group, series circuit one termination power, other end ground connection;

Photosensitive control circuit is made up of the coil of the second triode, the second relay, the 15 resistance, photo resistance and diode, the emitter of the second triode connects one end of the second relay coil, the other end of the second relay coil connects one end of photo resistance, the other end of photo resistance connects the base stage of the second relay, the collector electrode of the second relay connects power supply, the other end of photo resistance also connects one end of ground 15 resistance, another termination power of 15 resistance, diodes in parallel is at the two ends of the second relay coil.

2. a kind of illuminating lamp energy-saving control device as claimed in claim 1, it is characterized in that: the peripheral circuit annexation of described rpyroelectric infrared transducing signal integrated circuit is as follows: the power end of human body pyroelectricity infrared sensor connects power supply by the second resistance and the first resistance, by the second capacity earth between second resistance and the first resistance, the earth terminal ground connection of human body pyroelectricity infrared sensor, output connects the in-phase input end of the first order operational amplifier of rpyroelectric infrared transducing signal integrated circuit by the 7th resistance, the output of human body pyroelectricity infrared sensor is also connected with first electric capacity one end, the other end ground connection of the first electric capacity, the 3rd resistance is also parallel with at the two ends of the first electric capacity, the triggering of rpyroelectric infrared transducing signal integrated circuit forbids that end is empty, operational amplifier bias current arranges end by the 4th grounding through resistance, second level operational amplifier output terminal is by the 6th resistance, 5th resistance, the series circuit of the 8th resistance composition connects the reverse input end of first order operational amplifier, the two ends of the 6th resistance are also parallel with the 3rd electric capacity, 6th resistance is also connected the reverse input end of second level operational amplifier in the one end be connected with the 5th resistance, the two ends of the 8th resistance are parallel with the 4th electric capacity, the reverse input end of first order operational amplifier is also by the 9th resistance, 5th capacity earth, output is linked together by the reverse input end of the 8th resistance and first order operational amplifier, output also connects the output of human body pyroelectricity infrared sensor, the RESET input of rpyroelectric infrared transducing signal integrated circuit and the positive termination power of working power, working power negativing ending grounding, first triggering blocking time adjustable side is triggered blocking time adjustable side by the tenth resistance and second and is connected together, second triggers blocking time adjustable side also by the 7th capacity earth, first output delay time adjustable side is connected together by the 11 resistance and the second output delay time adjustable side, second output delay time adjustable side is also by the 6th capacity earth, control signal output connects the base stage of the first triode by the 12 resistance, the collector electrode of the first triode connects power supply by the 13 resistance, emitter connects coil one end of the first relay, the coil other end ground connection of the first relay, triggering mode selecting side connects working mode selection switch, one termination power of switch, other end ground connection.