CN206806631U - A kind of energy-saving Zero-power-consumption standby Socket for computor circuit - Google Patents

Abstract

The utility model 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 voltage 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 utility model provides a kind of energy-saving Zero-power-consumption standby Socket for computor circuit, so as to reach the purpose of using electricity wisely, solves using computer desk and during without using computer, also reaches the state that computer is in Zero-power-consumption standby under holding state.

Description

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

Technical field

It the utility model is related to intelligent power socket field, and in particular to a kind of energy-saving Zero-power-consumption standby Socket for computor electricity Road.

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 is usually in holding state, stand-by time section may proceed to consumption electricity Energy.To solve the deficiencies in the prior art, the utility model provides a kind of occulting light with zero consumption when standby and detects intelligence Energy power outlet, when computer is without work, there is the standby of zero consumption, so as to save the energy.

Utility model content

In view of the shortcomings of the prior art, the utility model provides a kind of energy-saving Zero-power-consumption standby Socket for computor circuit, It is capable of the standby of zero consumption.

To realize object above, the utility model is achieved by the following technical programs：A kind of energy-saving zero-power is treated Electromechanical brain socket circuit, the circuit are connected on 220V power supplys through zero line L1 and zero line side N1, the zero line L1 and zero Line end N1 access 220V power supplys through C1 capacitance decompressions, D1~D4 diodes form bridge rectifier, C2 capacitor filterings, Four tunnels of 12V DC voltage point are exported after VD1 voltage-regulator diode voltage stabilizings, 4 pin of IC1 photoelectrical couplers is connected all the way, connects all the way Q1 transistor collectors, all the way connect J1 relays 1 pin, while all the way 12V voltages through R1 resistance decompression, the pole of VD2 voltage stabilizings two Export 1 pin that 5V voltages are connected to U1 infrared external reflections switch after pipe voltage stabilizing, C3 capacitor filterings, the 3 of U1 infrared external reflections switch Pin output high level is connected to the base stage of Q1 triodes, the Q1 triodes through R2 resistance while being charged to electric capacity C4 simultaneously Emitter stage charges through R3 resistance to C5 electric capacity, and the Q1 transistor emitters are connected to the transmitting of Q2 triodes through diode D10 Pole, base stage of the R3 resistance through R5 resistant series to Q2 triodes, the colelctor electrode of the Q2 triodes are connected to through R6 resistance The base stage of Q3 triodes, the colelctor electrode of the Q3 triodes are connected to 2 pin of J1 relays；The 3 of the IC1 photoelectrical couplers Pin is grounded after being concatenated R9 resistance, while connects D12 diodes and R8 resistance is connected to the base stages of Q5 triodes, the D12 bis- Pole pipe series capacitance C7 is grounded, and the Q4 transistor emitters are connected to the base stage of Q4 triodes, the poles of Q4 tri- through R7 resistance The base stage of pipe is connected to the colelctor electrode of Q5 triodes, and Q2 tri- is connected to after the colelctor electrode series connection D11 diodes of the Q4 triodes The colelctor electrode of pole pipe, the colelctor electrode series connection C6 capacity earths of the Q4 triodes；The N2 ends and N3 ends connect D5~D8 respectively Diode forms the side a and b of connection in series-parallel diode, and the voltage that the side a and b produces about 2.4V or so drops through R10 resistance Pressure is connected respectively to 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 that the computer monitor and L3 ends that the L2 ends of the circuit connect with N2 ends connect with 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 connected is the negative pole of D9 diodes, and the Q2 transistor emitters connect What is connect is the negative pole of D10 diodes, Q2 transistor collectors connection be D11 diodes negative pole, the IC1 photoelectricity coupling What 3 pin of clutch connected is the positive pole of D12 diodes.

The utility model provides a kind of energy-saving Zero-power-consumption standby Socket for computor circuit, so as to reach the mesh of using electricity wisely , solve using computer desk and during without using computer, also reach the state that computer is in Zero-power-consumption standby under holding state.

Brief description of the drawings

, below will be to embodiment in order to illustrate more clearly of the utility model embodiment or technical scheme of the prior art Or the required accompanying drawing used is briefly described in description of the prior art, it should be apparent that, drawings in the following description are only It is some embodiments of the utility model, for those of ordinary skill in the art, is not paying the premise of creative work Under, other accompanying drawings can also be obtained according to these accompanying drawings.

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

Embodiment

It is new below in conjunction with this practicality to make the purpose, technical scheme and advantage of the utility model embodiment clearer Accompanying drawing in type embodiment, the technical scheme in the embodiment of the utility model is clearly and completely described, it is clear that is retouched The embodiment stated is the utility model part of the embodiment, rather than whole embodiments.Based on the implementation in the utility model Example, the every other embodiment that those of ordinary skill in the art are obtained under the premise of creative work is not made, is belonged to The scope of the utility model protection.

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, export four tunnels of 12V DC voltage point after VD1 voltage-regulator diode voltage stabilizings, one Road connects 4 pin of IC1 photoelectrical couplers, connects Q1 transistor collectors all the way, connects 1 pin of J1 relays, while one all the way 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, through R2 resistance while the 3 pin output high level of the U1 infrared external reflections switch charges to electric capacity C4 simultaneously The base stage of Q1 triodes is connected to, the Q1 transistor emitters charge through R3 resistance to C5 electric capacity, the Q1 triode emissions Pole is connected to the emitter stage of Q2 triodes through diode D10, base stage of the R3 resistance through R5 resistant series to Q2 triodes, The colelctor electrode of the 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 2 pin of J1 relays；3 pin of the IC1 photoelectrical couplers are grounded after being concatenated R9 resistance, while connect D12 diodes and R8 Resistance is connected to the base stage of Q5 triodes, and the D12 Diode series electric capacity C7 ground connection, the Q4 transistor emitters are through R7 electricity Resistance is connected to the base stage of Q4 triodes, and the base stage of the Q4 triodes is connected to the colelctor electrode of Q5 triodes, the Q4 triodes Colelctor electrode series connection D11 diodes after be connected to the colelctor electrodes of Q2 triodes, the colelctor electrode series connection C6 electric capacity of the Q4 triodes Ground connection；The N2 ends and N3 ends connect the side a and b of D5~D8 diodes composition connection in series-parallel diode, the A ends and B respectively The voltage that end produces about 2.4V or so is depressured 1 pin and 2 for being connected respectively to IC1 photoelectrical coupler internal illumination pipes through R10 resistance Pin.

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

Preferably, the computer master that the computer monitor and L3 ends that the L2 ends of the circuit connect with N2 ends connect with 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 connected is the negative pole of D9 diodes, and the Q2 transistor emitters connect What is connect is the negative pole of D10 diodes, Q2 transistor collectors connection be D11 diodes negative pole, the IC1 photoelectricity coupling What 3 pin of clutch connected is the positive pole of D12 diodes.

Circuit operation principle：U1 infrared external reflections are switched into installation 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, 220V voltage L1 terminal voltages are after C1 capacitance decompressions after the bridge rectifier of D1~D4 compositions after VD1 voltage-regulator diodes Four tunnels of 12V DC voltage point are exported after C2 capacitor filterings, connect 4 pin, the Q1 triode current collections of IC1 photoelectrical couplers respectively Pole, 1 pin of J1 relays, while 12V voltages are defeated after the decompression of R1 resistance, the voltage stabilizing of VD2 voltage-regulator diodes, C3 capacitor filterings all the way Go out 1 pin that 5V voltages are connected to U1 infrared external reflections switch, U1 infrared external reflections switch is in holding state, 3 pin are defeated without high level Go out, be not turned on Q1 triodes, Q2 triodes are not turned on, J1 relay not adhesives.Computer monitor and host computer are in nothing Electricity condition.

When people is sat on computer desk position, after human body blocks U1 infrared external reflections switch, 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, charged through R3 resistance to C5 electric capacity, make Q2 Triode is in low level, Q2 triode ONs, and colelctor electrode exports base stage of the high level through R6 resistance to Q3 triodes, makes Q3 Triode triggering and conducting, colelctor electrode output low level, makes J1 relays obtain electric adhesive, J1 often uses contact closure, makes L2 ends and L3 Electricity output 220V voltages are held to obtain, L2 ends is obtained with the computer monitor that N2 ends connect with L3 ends with the host computer that N3 ends connect electric In holding state., will be in D5~D8 diodes after host computer is normally-open after now pressing the key on host computer The voltage that the side a and b of composition connection in series-parallel diode produces about 2.4V or so is connected respectively to IC1 photoelectricity through the decompression of R10 resistance 1 pin and 2 pin of coupler internal illumination pipe, make its luminous tube obtain electroluminescence, make the phototriode inside IC1 photoelectrical couplers Turn on, 3 pin output high level, after R9 resistance clampers, charged after D12 diode current flows to electric capacity C7 after obtaining illumination The base stage of Q5 triodes is connected to through 8 resistance simultaneously, makes Q5 triode ONs, makes Q4 triode ONs, the high electricity of colelctor electrode output The colelctor electrode that Q2 triodes are connected to after D11 diode current flows while charging to electric capacity C6 is put down, makes Q3 triodes keep leading Logical 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- Pipe is in cut-off, but now host computer is in normal operating conditions.Still there is about 2.4V left at D5~D8 diode A and B ends Right voltage, makes IC1 photoelectrical couplers in running order, after now leaving computer desk such as people, host computer is still in work State.

After normal switching-off host computer, by D5~D8 diode A and B ends at the N3 ends of connection computer host power supply Voltage step-down after being shut down because of host computer, about only 1V or so voltages, it is impossible to IC1 photoelectrical coupler internal illumination pipes is lighted, Make phototriode cut-off inside IC1 photoelectrical couplers, 3 pin output low level, end Q5 and Q4 triodes, now C6 electric capacity It is charged pressure through D11 diodes to R6 resistance to Q3 triodes to colelctor electrode to discharge, be held on Q3 triodes, make J1 relays keep adhesive, after C6 electric capacity is discharged within a certain period of time, end Q3 triodes, J1 relay not adhesives, J1 normally opened contacts disconnect, and host computer and computer monitor is disconnected all power supplies a little while in standby rear delay after shutdown Power supply, 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 Q1 triode ONs Meanwhile R3 resistance charges to electric capacity C5, although now Q3 is turned on, with regard to relay adhesive, J1 closures, show host computer and computer Show that device is in holding state, keep off when not opening host computer, can not make in voltage caused by A the and B ends of D5~D8 diodes IC1 photoelectrical couplers work, and are turned off Q5, Q4 triode, and after C5 electric capacity is fully charged after now result some time, End Q2 triodes, the cut-off of Q3 triodes, J1 relay not adhesives, J1-1 disconnections, host computer and display are fully powered-off, So as to reach the purpose of using electricity wisely, solve using computer desk and during without using computer, also reach computer and be in standby shape The state of Zero-power-consumption standby under state.

Above example is only to illustrate the technical solution of the utility model, rather than its limitations；Although with reference to foregoing reality Example is applied the utility model is described in detail, it will be understood by those within the art that：It still can be to preceding State the technical scheme described in each embodiment to modify, or equivalent substitution is carried out to which part technical characteristic；And these Modification is replaced, and the essence of appropriate technical solution is departed from the spirit and model of various embodiments of the utility model technical scheme Enclose.

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, export four tunnels of 12V DC voltage point after VD1 voltage-regulator diode voltage stabilizings, one Road connects 4 pin of IC1 photoelectrical couplers, connects Q1 transistor collectors all the way, connects 1 pin of J1 relays, while one all the way 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 grounded after being concatenated R9 resistance, while connect D12 diodes and R8 resistance company The base stage of Q5 triodes, the D12 Diode series electric capacity C7 ground connection are connected to, Q4 transistor emitters are connected to Q4 through R7 resistance The base stage of triode, the base stage of the Q4 triodes are connected to the colelctor electrode of Q5 triodes, the colelctor electrode string of the Q4 triodes The colelctor electrode of Q2 triodes, the colelctor electrode series connection C6 capacity earths of the Q4 triodes are connected to after connection D11 diodes；N2 ends and N3 ends connect the side a and b of D5~D8 diodes composition connection in series-parallel diode respectively, and the side a and b produces about 2.4V or so Voltage be connected respectively to 1 pin and 2 pin of IC1 photoelectrical coupler internal illumination pipes through the decompression of 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 host computer that the computer monitor and L3 ends connected with N2 ends connects with N3 ends.

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 Emitter-base bandgap grading connection be D9 diodes negative pole, Q2 transistor emitters connection be D10 diodes negative pole, 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.