CN106981784A - A kind of energy-saving Zero-power-consumption standby Socket for computor circuit - Google Patents

Abstract

The present invention provides a kind of energy-saving Zero-power-consumption standby Socket for computor circuit, it is related to intelligent power socket field, the circuit is connected on 220V power supplys through zero line L1 and zero line side N1, the 220V power supplys of zero line L1 and zero line side the N1 access are through C1 capacitance decompressions, the bridge rectifier of D1~D4 diodes composition, C2 capacitor filterings, four tunnels of 12V DC voltages point are exported after VD1 voltage-regulator diode voltage stabilizings, 4 pin of IC1 photoelectrical couplers are connected all the way, Q1 transistor collectors are connected all the way, 1 pin of J1 relays is connected all the way, 12V voltages are depressured through R1 resistance all the way simultaneously, VD2 voltage-regulator diode voltage stabilizings, 1 pin that 5V voltages are connected to U1 infrared external reflections switch is exported after C3 capacitor filterings；The invention provides a kind of energy-saving Zero-power-consumption standby Socket for computor circuit, so as to reach the purpose of using electricity wisely, solve when using computer desk without using computer, also reach that computer is in the state of Zero-power-consumption standby under holding state.

Description

A kind of energy-saving Zero-power-consumption standby Socket for computor circuit

Technical field

The present invention relates to intelligent power socket field, and in particular to a kind of energy-saving Zero-power-consumption standby Socket for computor circuit.

Background technology

In people's daily life and work, computer is increasingly becoming an indispensable part of people, every day, people Carry out substantial amounts of work with computer, the operation of computer needs electric energy, but modern society needs us to save little by little The energy, in our traditional routine works, computer usually be in holding state, stand-by time section may proceed to consumption electricity Energy.To solve the deficiencies in the prior art, the invention provides a kind of occulting light detection intelligence electricity when standby with zero consumption Supply socket, when computer is without work, with the standby of zero consumption, so as to save the energy.

The content of the invention

In view of the shortcomings of the prior art, can the invention provides a kind of energy-saving Zero-power-consumption standby Socket for computor circuit Zero consumption it is standby.

To realize object above, the present invention is achieved by the following technical programs：A kind of energy-saving Zero-power-consumption standby electricity Brain socket circuit, the circuit is connected on 220V power supplys through zero line L1 and zero line side N1, the zero line L1 and zero line side Bridge rectifier, C2 capacitor filterings, the VD1 that the 220V power supplys of N1 accesses are constituted through C1 capacitance decompressions, D1~D4 diodes are steady Four tunnels of output 12V DC voltages point after diode voltage stabilizing are pressed, 4 pin of IC1 photoelectrical couplers are connected all the way, the poles of Q1 tri- are connected all the way Pipe collector, all the way connect J1 relays 1 pin, while all the way 12V voltages through the decompression of R1 resistance, the voltage stabilizing of VD2 voltage-regulator diodes, 1 pin that 5V voltages are connected to U1 infrared external reflections switch is exported after C3 capacitor filterings, the 3 pin output of the U1 infrared external reflections switch is high Level is connected to the base stage of Q1 triodes through R2 resistance while being charged to electric capacity C4 simultaneously, the Q1 transistor emitters are through R3 Resistance charges to C5 electric capacity, and the Q1 transistor emitters are connected to the emitter stage of Q2 triodes, the R3 electricity through diode D10 The base stage through R5 resistant series to Q2 triodes is hindered, the colelctor electrode of the Q2 triodes is connected to the base of Q3 triodes through R6 resistance Pole, the colelctor electrode of the Q3 triodes is connected to 2 pin of J1 relays；3 pin of the IC1 photoelectrical couplers are concatenated R9 resistance After be grounded, while connect D12 diodes and R8 resistance are connected to the base stage of Q5 triodes, the D12 Diode series electric capacity C7 Ground connection, the Q4 transistor emitters are connected to the base stage of Q4 triodes through R7 resistance, and the base stage of the Q4 triodes is connected to The colelctor electrode of Q2 triodes, institute are connected to after the colelctor electrode of Q5 triodes, the colelctor electrode series connection D11 diodes of the Q4 triodes State the colelctor electrode series connection C6 capacity earths of the Q4 triodes；The N2 ends and N3 ends connect D5~D8 diodes composition string respectively The side a and b of parallel diode, the voltage that the side a and b produces about 2.4V or so is connected respectively to through the decompression of R10 resistance 1 pin and 2 pin of IC1 photoelectrical coupler internal illumination pipes.

Preferably, the zero line L1 is connected respectively to L2 ends and L3 ends through J1-1 switches.

Preferably, the computer master of the computer monitor of the L2 ends of the circuit and the connection of N2 ends and L3 ends and the connection of N3 ends Machine.

Preferably, the R3 resistor coupled in parallel has D9 diodes, and the Q1 transistor emitters pass through R4 resistance eutral groundings.

Preferably, Q3 transistor emitters and Q5 the transistor emitters ground connection.

Preferably, what the Q1 transistor emitters were connected is the negative pole of D9 diodes, and the Q2 transistor emitters connect What is connect is the negative pole of D10 diodes, and what the Q2 transistor collectors were connected is the negative pole of D11 diodes, the IC1 photoelectricity coupling What 3 pin of clutch were connected is the positive pole of D12 diodes.

The invention provides a kind of energy-saving Zero-power-consumption standby Socket for computor circuit, so that the purpose of using electricity wisely is reached, Solve when using computer desk without using computer, also reach that computer is in the state of Zero-power-consumption standby under holding state.

Brief description of the drawings

In order to illustrate more clearly about the embodiment of the present invention or technical scheme of the prior art, below will be to embodiment or existing There is the accompanying drawing used required in technology description to be briefly described, it should be apparent that, drawings in the following description are only this Some embodiments of invention, for those of ordinary skill in the art, on the premise of not paying creative work, can be with Other accompanying drawings are obtained according to these accompanying drawings.

Fig. 1 is circuit theory diagrams of the invention.

Embodiment

To make the purpose, technical scheme and advantage of the embodiment of the present invention clearer, below in conjunction with the embodiment of the present invention In accompanying drawing, the technical scheme in the embodiment of the present invention is clearly and completely described, it is clear that described embodiment is A part of embodiment of the present invention, rather than whole embodiments.Based on the embodiment in the present invention, those of ordinary skill in the art The every other embodiment obtained under the premise of creative work is not made, belongs to the scope of protection of the invention.

Embodiment：

As shown in figure 1, a kind of energy-saving Zero-power-consumption standby Socket for computor circuit, the circuit is through zero line L1 and zero line side N1 is connected on 220V power supplys, and the 220V power supplys of zero line L1 and zero line side the N1 access are through C1 capacitance decompressions, D1~D4 bis- The bridge rectifier of pole pipe composition, C2 capacitor filterings, four tunnels of output 12V DC voltages point, one after VD1 voltage-regulator diode voltage stabilizings Road connects 4 pin of IC1 photoelectrical couplers, and Q1 transistor collectors are connected all the way, 1 pin of J1 relays is connected all the way, while one Road 12V voltages export 5V voltages after the decompression of R1 resistance, the voltage stabilizing of VD2 voltage-regulator diodes, C3 capacitor filterings, and to be connected to U1 infrared anti- 1 pin of switch is penetrated, the 3 pin output high level of the U1 infrared external reflections switch connects while being charged to electric capacity C4 simultaneously through R2 resistance The base stage of Q1 triodes is connected to, the Q1 transistor emitters charge through R3 resistance to C5 electric capacity, the Q1 transistor emitters The emitter stage of Q2 triodes is connected to through diode D10, base stage of the R3 resistance through R5 resistant series to Q2 triodes is described The colelctor electrode of Q2 triodes is connected to the base stage of Q3 triodes through R6 resistance, and the colelctor electrode of the Q3 triodes is connected to J1 relays 2 pin of device；3 pin of the IC1 photoelectrical couplers are concatenated being grounded after R9 resistance, while connect D12 diodes and R8 resistance company The base stage of Q5 triodes is connected to, the D12 Diode series electric capacity C7 ground connection, the Q4 transistor emitters are connected through R7 resistance To the base stage of Q4 triodes, the base stage of the Q4 triodes is connected to the colelctor electrode of Q5 triodes, the current collection of the Q4 triodes The colelctor electrode of Q2 triodes is connected to after pole series connection D11 diodes, the colelctor electrode series connection C6 electric capacity of the Q4 triodes connects Ground；The N2 ends and N3 ends connect the side a and b that D5~D8 diodes constitute connection in series-parallel diode, the side a and b respectively The voltage for producing about 2.4V or so is depressured 1 pin and 2 pin for being connected respectively to IC1 photoelectrical coupler internal illumination pipes through R10 resistance.

Preferably, the zero line L1 is connected respectively to L2 ends and L3 ends through J1-1 switches.

Preferably, the computer master of the computer monitor of the L2 ends of the circuit and the connection of N2 ends and L3 ends and the connection of N3 ends Machine.

Preferably, the R3 resistor coupled in parallel has D9 diodes, and the Q1 transistor emitters pass through R4 resistance eutral groundings.

Preferably, Q3 transistor emitters and Q5 the transistor emitters ground connection.

Preferably, what the Q1 transistor emitters were connected is the negative pole of D9 diodes, and the Q2 transistor emitters connect What is connect is the negative pole of D10 diodes, and what the Q2 transistor collectors were connected is the negative pole of D11 diodes, the IC1 photoelectricity coupling What 3 pin of clutch were connected is the positive pole of D12 diodes.

Circuit operation principle：U1 infrared external reflections switch is installed and computer desk front position first, then by L2 ends and N2 End is connected on the power supply of computer monitor, and L3 and N3 are connected on host computer, and L1 ends and N1 ends are connected into 220V electricity On source, after the bridge rectifier that 220V voltage L1 terminal voltages are constituted after C1 capacitance decompressions through D1~D4 after VD1 voltage-regulator diodes Four tunnels of 12V DC voltages point are exported after C2 capacitor filterings, connect respectively 4 pin of IC1 photoelectrical couplers, Q1 transistor collectors, 1 pin of J1 relays, while 12V voltages are exported after the decompression of R1 resistance, the voltage stabilizing of VD2 voltage-regulator diodes, C3 capacitor filterings all the way 5V voltages be connected to U1 infrared external reflections switch 1 pin, make U1 infrared external reflections switch be in holding state, 3 pin without high level output, It is not turned on Q1 triodes, Q2 triodes are not turned on, J1 relay not adhesives.Computer monitor and host computer are in without electric shape State.

When people is sat on computer desk position, human body is blocked after U1 infrared external reflections switch, and 3 pin output high level is simultaneously to electric capacity Make Q1 triode ONs through R2 resistance while C4 charges, colelctor electrode output high level charges to C5 electric capacity through R3 resistance, makes Q2 Triode is in low level, and Q2 triode ONs, colelctor electrode output base stage of the high level through R6 resistance to Q3 triodes makes Q3 tri- Pole pipe triggering and conducting, colelctor electrode output low level, makes J1 relays obtain electric adhesive, and J1 often uses the closing of contact, makes L2 ends and L3 ends Electricity output 220V voltages are obtained, the computer monitor that L2 ends and N2 ends are connected and the host computer that L3 ends and N3 ends are connected is obtained electric place In holding state.Now press after the key on host computer, will be in D5~D8 diode groups after host computer is normally-open The voltage that the side a and b of bunchiness parallel diode produces about 2.4V or so is connected respectively to IC1 photoelectricity couplings through the decompression of R10 resistance 1 pin and 2 pin of clutch internal illumination pipe, make its luminous tube obtain electroluminescence, obtain the phototriode inside IC1 photoelectrical couplers Turned on after to illumination, 3 pin output high level, after R9 resistance clampers, while charging after D12 diode current flows to electric capacity C7 The base stage of Q5 triodes is connected to through 8 resistance, makes Q5 triode ONs, makes Q4 triode ONs, colelctor electrode export high level to Electric capacity C6 is connected to the colelctor electrode of Q2 triodes after D11 diode current flows while charging, Q3 triodes is held on shape State, J1 relays keep attracting state, host computer and computer monitor is kept working condition.

Now through after a period of time, after C5 electric capacity is fully charged, making Q2 transistor bases be in high level, making the poles of Q2 tri- In cut-off, but now, host computer is in normal operating conditions to pipe.Still there is about 2.4V left at D5~D8 diode A and B ends Right voltage, makes IC1 photoelectrical couplers in running order, and now as people is left after computer desk, host computer is still in work State.

After normal switching-off host computer, by connection computer host power supply N3 ends D5~D8 diode A and B ends because Voltage step-down, about only 1V or so voltages after host computer shutdown, it is impossible to IC1 photoelectrical coupler internal illuminations pipe is lighted, make Phototriode cut-off inside IC1 photoelectrical couplers, 3 pin output low level, ends Q5 and Q4 triodes, now C6 electric capacity institute Charging voltage through D11 diodes to R6 resistance to Q3 triodes to colelctor electrode to discharge, be held on Q3 triodes, make J1 after Electrical equipment keeps adhesive, after C6 electric capacity is discharged within a certain period of time, ends Q3 triodes, and J1 relay not adhesives, J1 is normal Contact disconnection is opened, host computer and computer monitor is disconnected all power supplies a little while in standby rear delay after shutdown electric Source, so as to reach using electricity wisely purpose.

After infra-red radiation switch is artificially blocked, infrared external reflection switchs 3 pin output high level, makes the same of Q1 triode ONs When, R3 resistance charges to electric capacity C5, although now Q3 is turned on, and with regard to relay adhesive, J1 closures show host computer and computer Device is in holding state, keeps off when not opening host computer, and the voltage produced at A the and B ends of D5~D8 diodes can not make IC1 Photoelectrical coupler works, and is turned off Q5, Q4 triode, and after C5 electric capacity is fully charged after now result some time, makes Q2 Triode ends, and Q3 triodes cut-off, J1 relay not adhesives, J1-1 disconnects, and host computer and display are fully powered-off, so that The purpose of using electricity wisely is reached, is solved when using computer desk without using computer, also reaches that computer is under holding state The state of Zero-power-consumption standby.

The above embodiments are merely illustrative of the technical solutions of the present invention, rather than its limitations；Although with reference to the foregoing embodiments The present invention is described in detail, it will be understood by those within the art that：It still can be to foregoing each implementation Technical scheme described in example is modified, or carries out equivalent substitution to which part technical characteristic；And these modification or Replace, the essence of appropriate technical solution is departed from the spirit and scope of various embodiments of the present invention technical scheme.

Claims (6)

1. a kind of energy-saving Zero-power-consumption standby Socket for computor circuit, it is characterised in that the circuit is through zero line L1 and zero line side N1 is connected on 220V power supplys, and the 220V power supplys of zero line L1 and zero line side the N1 access are through C1 capacitance decompressions, D1~D4 bis- The bridge rectifier of pole pipe composition, C2 capacitor filterings, four tunnels of output 12V DC voltages point, one after VD1 voltage-regulator diode voltage stabilizings Road connects 4 pin of IC1 photoelectrical couplers, and Q1 transistor collectors are connected all the way, 1 pin of J1 relays is connected all the way, while one Road 12V voltages export 5V voltages after the decompression of R1 resistance, the voltage stabilizing of VD2 voltage-regulator diodes, C3 capacitor filterings, and to be connected to U1 infrared anti- 1 pin of switch is penetrated, the 3 pin output high level of the U1 infrared external reflections switch connects while being charged to electric capacity C4 simultaneously through R2 resistance The base stage of Q1 triodes is connected to, the Q1 transistor emitters charge through R3 resistance to C5 electric capacity, the Q1 transistor emitters The emitter stage of Q2 triodes is connected to through diode D10, base stage of the R3 resistance through R5 resistant series to Q2 triodes is described The colelctor electrode of Q2 triodes is connected to the base stage of Q3 triodes through R6 resistance, and the colelctor electrode of the Q3 triodes is connected to J1 relays 2 pin of device；3 pin of the IC1 photoelectrical couplers are concatenated being grounded after R9 resistance, while connect D12 diodes and R8 resistance company The base stage of Q5 triodes is connected to, the D12 Diode series electric capacity C7 ground connection, the Q4 transistor emitters are connected through R7 resistance To the base stage of Q4 triodes, the base stage of the Q4 triodes is connected to the colelctor electrode of Q5 triodes, the current collection of the Q4 triodes The colelctor electrode of Q2 triodes is connected to after pole series connection D11 diodes, the colelctor electrode series connection C6 electric capacity of the Q4 triodes connects Ground；The N2 ends and N3 ends connect the side a and b that D5~D8 diodes constitute connection in series-parallel diode, the side a and b respectively The voltage for producing about 2.4V or so is depressured 1 pin and 2 pin for being connected respectively to IC1 photoelectrical coupler internal illumination pipes through R10 resistance.

2. energy-saving Zero-power-consumption standby Socket for computor circuit as claimed in claim 1, it is characterised in that the zero line L1 warps J1-1 switches are connected respectively to L2 ends and L3 ends.

3. energy-saving Zero-power-consumption standby Socket for computor circuit as claimed in claim 1, it is characterised in that the L2 ends of the circuit The computer monitor connected with N2 ends and the host computer of L3 ends and N3 ends connection.

4. energy-saving Zero-power-consumption standby Socket for computor circuit as claimed in claim 1, it is characterised in that the R3 resistor coupled in parallel There are D9 diodes, the Q1 transistor emitters pass through R4 resistance eutral groundings.

5. energy-saving Zero-power-consumption standby Socket for computor circuit as claimed in claim 1, it is characterised in that the Q3 triodes hair Emitter-base bandgap grading and Q5 transistor emitters ground connection.

6. energy-saving Zero-power-consumption standby Socket for computor circuit as claimed in claim 1, it is characterised in that the Q1 triodes hair What emitter-base bandgap grading was connected is the negative pole of D9 diodes, and what the Q2 transistor emitters were connected is the negative pole of D10 diodes, the Q2 tri- Pole pipe colelctor electrode connection be D11 diodes negative pole, the IC1 photoelectrical couplers 3 pin connection be D12 diodes just Pole.