CN104167720B - Power-saving controller for automatically detecting states of power device and supply network and delaying outage - Google Patents
Power-saving controller for automatically detecting states of power device and supply network and delaying outage Download PDFInfo
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- CN104167720B CN104167720B CN201410394912.1A CN201410394912A CN104167720B CN 104167720 B CN104167720 B CN 104167720B CN 201410394912 A CN201410394912 A CN 201410394912A CN 104167720 B CN104167720 B CN 104167720B
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Abstract
The invention discloses a power-saving controller for delaying outage. The power-saving controller is capable of automatically detecting shutdown or abnormal power-off signals of a power device with high power and enables the power device to be disconnected with a supply network in the set time, and the requirement of users for using a power device with small power in a short time can be met while the power is saved and used safely. After being triggered, at first, the power-saving controller connects the supply network with the power device, and meanwhile, an outage delay progress in the power-saving controller starts working; the outage delay progress is used for timing, and in the timing process, if the power of a supply line is smaller than a preset threshold value all the time, the power device and the supply network are disconnected when the delay time t is reached; if the power is larger than the threshold value, the outage delay progress is automatically stopped; hereafter, the power of the supply line continues to be detected, and once the power is smaller than the threshold, the outage delay progress is restarted again.
Description
Technical field
The present invention relates to safety utilization of electric power, energy-conserving and environment-protective field are and in particular to a kind of automatic detection power device and electrical network shape
State simultaneously can the electricity-saving controller that automatically powers off of time delay.
Background technology
If the power devices such as TV, computer, audio amplifier, printer, game machine are not cut off the electricity supply when not working, use Denso
Put and be in holding state throughout the year.The equipment such as LCD TV, game machine, computer, printer, audio amplifier when standby power consumption in 1W
Between~7W, such as it is in the electric energy that holding state then consumes surprising throughout the year.And, although some electrical equipments close power supply,
Its internal circuit is not all isolated with electrical network, if being keeped in repair it may occur that Danger Electric shock risk in the case of not pulling out plug,
Additionally, some electronic components work long hours can accelerated ageing, or even unexpected damage thus the security incident such as initiation fire.
Some low power power devices (as electric cautery, charger) do not use with charging complete after long-time energising deposit
In very big potential safety hazard.For example, the power that charger consumes when to battery (as battery of mobile phone) quick charge within 7W,
But charge and can complete at 2~3 hours, if long-time not power-off after charging complete, rechargeable battery can be caused damage or carry
Carry out the potential safety hazards such as battery explosion.The electric cautery power of soldered circuit board, in 16W~50W, about 250 DEG C of Trimeresurus mucrosquamatus (Cantor). temperature, leads to
Electricity works, and people, using usually having forgotten to pull up plug after complete, bring very big potential safety hazard.
The area often having a power failure at some, after power failure, electrical appliance does not shut power supply, once incoming call, be just voluntarily energized work,
Cause electric energy to waste, shortened equipment life, or even the major accidents such as electric shock, fire can be caused.
Content of the invention
In view of this, the invention provides a kind of automatic detection power device and electric network state can time delay automatically power off
Electricity-saving controller, can automatically detect power device shutdown, standby or abnormal power cut signal, using electric installation through setting when
Between automatically disconnect connection with supply network, thus avoid the electric energy being likely to occur to waste, shortened equipment life, or even cause tactile
The problem of the major accidents such as electricity, fire.
This electricity-saving controller is placed in, inside 220V alternating current power supply transducer or power device, also to become connection power supply network
The self-contained unit of network.
This automatic detection power device and electric network state and can delay cut-off electricity-saving controller, be arranged at power device
In supply line;After electricity-saving controller is triggered, electricity-saving controller connects the connection between electrical network and power device first, simultaneously
Delay cut-off process within electricity-saving controller is started working;Delay cut-off process is used for into line delay timing, in timing course
In, the power of electricity-saving controller real time automatic detection supply line, it is more than or equal to the situation of pre-set threshold value if there is power,
Then determine that power device enters normal operating conditions, delay cut-off process is automatically stopped, and keeps between electrical network and power device
Connect;If described power is less than pre-set threshold value always, when delay time t reaches, between cut-out power device and electrical network
Connection;After delay cut-off process is automatically stopped, electricity-saving controller continues the power of detection supply line, when emergent power is less than
The situation of pre-set threshold value, then restart delay cut-off process.
Preferably, described electricity-saving controller includes gate-controlled switch, power supply circuits, power-sensing circuit, timing circuit, switch
Control circuit and double-pole switch S;It is identical with the on off state of S-2 terminal that double-pole switch S includes S-1 terminal;
Accessing original state on electrical network is to the supply line of power device is the gate-controlled switch disconnecting, the two of gate-controlled switch
End S-1 terminal in parallel;
Power supply circuits, the electric energy for producing sends to power-sensing circuit, ON-OFF control circuit and timing circuit, supplies
S-2 terminal is accessed on the supply line between circuit and timing circuit;
Power-sensing circuit, for detecting the power of supply line that electrical network is powered to electrical equipment, if power is more than
Or be equal to pre-set threshold value, then extract, from supply line, the storage capacitor energy storage that electric power is timing circuit, otherwise, do not provide energy storage
Energy;
Timing circuit, for when power supply circuits or power-sensing circuit provide electric energy, storing electrical energy;Using power supply electric energy
Or storage capacitor provides break-make control voltage to ON-OFF control circuit;Do not provide electric energy in power supply circuits and power-sensing circuit
When, the storing electrical energy of storage capacitor is consumed in the delay time t setting;
ON-OFF control circuit, for only existing in the power supply of power supply circuits and the break-make control voltage of timing circuit simultaneously
When, control described gate-controlled switch to connect, the break-make control voltage of the power supply of power supply circuits and timing circuit any one do not provide,
Described gate-controlled switch is then controlled to disconnect.
Preferably, described power supply circuits obtain electricity further the supply line between gate-controlled switch and power device
Source, and be converted to DC voltage, it is supplied to power-sensing circuit, ON-OFF control circuit and timing circuit.
Preferably, described power supply circuits are current rectifying and wave filtering circuit, include mains transformer T1, the first bridge rectifier, surely
Pressure diode VD9 and filter capacitor C1;
The input of mains transformer T1 is terminated at electrical network, and the outfan of mains transformer T1 connects the input of bridge rectifier
End, constitutes blood pressure lowering, rectification circuit;The outfan of bridge rectifier is in parallel with filter capacitor C1, Zener diode VD2 to constitute filter
Ripple, mu balanced circuit;Thus providing blood pressure lowering, rectifying and wave-filtering, the low-voltage DC Va after voltage stabilizing, examine to power as the electric energy producing
Slowdown monitoring circuit, ON-OFF control circuit and timing circuit send.
Preferably, described timing circuit includes the storage capacitor C2 and bleeder resistor R1 of parallel connection;The anode of storage capacitor C2
As charge-discharge end, power supply circuits, the electric energy of power-sensing circuit offer are provided, provide break-make control to ON-OFF control circuit simultaneously
Voltage processed.
Preferably, described bleeder resistor R1 is rheostat, for adjusting the length of described delay time t.
Preferably, described power-sensing circuit include current transformer T2, the second bridge rectifier, filter capacitor C3, by
Operational amplifier A and its scaling circuit in the same direction of external balancing resistance R3, resistance R4, feedback resistance R5 composition, play switch
The light emitting diode VD12 of effect;Operational amplifier A provides electric energy by power supply circuits, forms single supply and powers;
Current transformer T2 accesses electrical network live wire, and access point is located between gate-controlled switch and power device, current transformer
The current signal of T2 sensing is filtered by filter capacitor C3 after the second bridge rectifier carries out rectification;Filter capacitor C3
Anode be connected with the positive input terminal of operational amplifier A through balancing resistance R3, through resistance R4 after the minus earth of filter capacitor C3
It is connected with the negative input end of operational amplifier A, feedback resistance R5 is in parallel with the negative input end of operational amplifier A and outfan;Fortune
Calculate the anode of the outfan sending and receiving optical diode VD12 of amplifier A, the negative electrode of light emitting diode VD12 provides electricity for timing circuit
Energy.
Preferably, described feedback resistance R5 is rheostat, for adjusting described pre-set threshold value.
Preferably, described ON-OFF control circuit includes audion V1, audion V2, base resistance R2, colelctor electrode afterflow two
Pole pipe VD11 and AC relay K;
The one end of the break-make control voltage that one end of base resistance R2 provides as reception timing circuit, base resistance R2's
Other end connecting triode V1 base stage, the emitter stage of audion V1 is directly coupled to the base stage of audion V2, and audion V2 sends out
Emitter grounding, after the coils from parallel connection of coils of fly-wheel diode VD11 and AC relay K, the colelctor electrode of one end connecting triode V1, V2,
The other end is drawn as accepting feeder ear, connects the feeder ear of power supply circuits;
Meanwhile, the switch contact K-1 of AC relay K is as described gate-controlled switch.
Preferably, described accept to connect further for indicating the light-emitting diodes whether electricity-saving controller works on feeder ear
Pipe VD10.
Beneficial effect:
(1) whether power device closes and whether electrical network has a power failure, and all can be reflected on power, therefore can design
A kind of power of electricity-saving controller automatic detection power device, then thinks user when power device power drop is to a certain threshold values
Shut down or electric network fault, start-up study power down function, the time through setting cuts off the supply of 220V alternating current.If section
Electric controller connects small-power power device for example:Charger, electric cautery etc., its operating power starts already below delay cut-off
Valve value rate, then, after starting electricity-saving controller, also start its delayed-breaking-off function, user can disconnect in electricity-saving controller simultaneously
The quick charge of small-power power device or complete battery pair is normally used before 220V ac circuit.Ensure that using electricity wisely, peace
Also the demand using small-power power device in user's short time is met while full electricity consumption.
(2) power supply circuits obtain power supply from the supply line between double-pole switch S and power device.So, work as double-pole
After switching off, power supply circuits are also disconnected the charging process to storage capacitor C2 immediately and enter it is ensured that proceeding to delay cut-off at once
Journey.Wherein it is possible to be powered using transformer coupled blood pressure lowering, using current transformer detection device power consumption, with Alternating Current Power Supply
Network security is isolated.
(3) the electricity-saving controller simple circuit that the embodiment of the present invention is provided, effect is good.Delay cut-off startup threshold values T, prolong
When time t all can voluntarily arrange, thus ensure that, different power devices are suitable for.
The present invention can be used for that family, office, the power device in Factory Building be internal or power supply changeover device inside, also can make
Become independent control to be connected in supply network, play economize on electricity and the effect of safety, market prospect is huge.
Brief description
Fig. 1 is electricity-saving controller workflow of the present invention.
Fig. 2 is the theory diagram of electricity-saving controller of the present invention.
Fig. 3 and Fig. 4 is that one kind of electricity-saving controller of the present invention is embodied as circuit diagram.
Specific embodiment
The embodiment that develops simultaneously below in conjunction with the accompanying drawings describes in detail to the present invention.
The invention provides a kind of automatic detection power device and electric network state and can delay cut-off electricity-saving controller, if
It is placed in the supply line of power device, for controlling whether electrical network accesses power device.As shown in figure 1, controlling when pressing economize on electricity
After the button switch of device processed, electricity-saving controller is triggered, and it connects the connection between electrical network and power device first so that economizing on electricity
Controller and power device are both powered up work.Delay cut-off process within electricity-saving controller is started working simultaneously.Delay cut-off
Process is used for into line delay timing, in timing course, the power of electricity-saving controller real time automatic detection supply line, and power can
Whether working properly to embody electrical equipment, or whether electrical network power normally, the power general if all gone well, on electrical network
Reach a certain height, if too small then it is assumed that with the presence of abnormal factor.Therefore, electricity-saving controller judges whether power is more than
Or it is equal to pre-set threshold value, once this situation it is determined that power device enters normal operating conditions, delay cut-off process is automatic
Stop, and keep the connection between electrical network and power device, to continue to the normal operating conditions of power device.If in meter
When the time in, power on electrical network is less than pre-set threshold value always, then when delay time reaches, cut-out power device and electrical network it
Between connection.
After delay cut-off process is automatically stopped, electricity-saving controller continues the power of detection supply line, when emergent power is little
In the situation of pre-set threshold value, then restart delay cut-off process.
When using low power electric appliance or when charging to rechargeable battery:After pressing controller switches, delay cut-off process is opened
Beginning work, small-power power device is energized, and timing arrives, and automatically cuts off the connection between power device and electrical network, such as wants to prolong
Long timing, can timing to before press switch again, delay cut-off process reclocking works.
During using high-power power device:When pressing controller switches, delay cut-off process is started working, high-power electricity consumption
Device is energized;Hereafter, if power device is constantly in standby or off-mode, timing arrives, and just automatically cuts off and uses Denso
Put the connection and electrical network between.If timing does not arrive, when power device enters working condition, delay cut-off process can be automatically
Stop, after power device enters back into holding state or unexpected power failure by working condition, delay cut-off process reopens, regularly
Time arrives, the connection between cut-out electrical equipment and electrical network.
It can be seen that, the present invention can solve the problem that the various problems being related in background technology.
In order to realize above-mentioned electricity-saving controller, Fig. 2 gives a kind of implementation of electricity-saving controller, as shown in Fig. 2 should
Electricity-saving controller includes gate-controlled switch, power supply circuits, power-sensing circuit, timing circuit, ON-OFF control circuit and double-pole switch
S.Double-pole switch S includes two terminals linking:S-1 terminal and S-2 terminal, the on off state of this two terminals is identical.
Accessing original state on electrical network is to the supply line of power device is the gate-controlled switch disconnecting, the two of gate-controlled switch
The S-1 terminal of end double-pole switch S in parallel.
Power supply circuits, the electric energy for producing provides to power-sensing circuit, ON-OFF control circuit and timing circuit, supplies
S-2 terminal is accessed on the supply line between circuit and timing circuit.
Power-sensing circuit, for detecting the power of supply line that electrical network is powered to power device, if power is more than
Or be equal to pre-set threshold value, then extract, from supply line, the storage capacitor energy storage that electric power is timing circuit, otherwise, do not provide energy storage
Energy.
Timing circuit, for when power supply circuits or power-sensing circuit provide electric energy, storing electrical energy;Using carrying out self-powered
The power supply electric energy of circuit or power-sensing circuit or storage capacitor provide break-make control voltage to ON-OFF control circuit;In power supply electricity
When road and power-sensing circuit do not provide electric energy, the storing electrical energy of storage capacitor is consumed in the delay time t setting.Should
Power supply circuits can be independent current source, such as battery it is also possible to obtain supply line between gate-controlled switch and power device
Power taking source, and be converted to DC voltage, it is supplied to power-sensing circuit, ON-OFF control circuit and timing circuit.Work as gate-controlled switch
K-1 disconnects, and double-pole switch S is also at normally open simultaneously, and power supply circuits are stopped power supply at once, relay K dead electricity, its contact K-
1 maintains a normally open state.When in power device running, electrical network has a power failure suddenly, relay K dead electricity, its contact is restored immediately to often
Open state, double-pole switch S is also at normally open, once incoming call, because K-1 and S switchs all in normally open, in electrical network
Electric current will not impact to power device, and it also will not be made to rework.
ON-OFF control circuit, for only existing in the power supply of power supply circuits and the break-make control voltage of timing circuit simultaneously
When, control described gate-controlled switch to connect, the break-make control voltage of the power supply of power supply circuits and timing circuit any one do not provide,
Described gate-controlled switch is then controlled to disconnect.
The operation principle of electricity-saving controller shown in Fig. 2 is:
When switch S is pressed, S-1 terminal is switched on, and electrical network is powered to power device, meanwhile because linkage is closed
System, switch S-2 is also pressed simultaneously, then power supply circuits provide instantaneous electric energy to timing circuit, and timing circuit is in storing electrical energy
While provide break-make control voltage to ON-OFF control circuit, after the controlled loop conducting in ON-OFF control circuit, gate-controlled switch
Closure, now electrical network is lasting powers to power device.
When switch S is released, S-1 terminal and S-2 terminal are all cut-off, terminate because storage capacitor has charged, because
This can continue as ON-OFF control circuit using stored energy and power, then the closure state of gate-controlled switch is maintained, electrical network
Continue to power to power device.Assume that power device leads to the power in electrical network supply line to be less than because of dormancy, failure and other reasons
Pre-set threshold value, then not to storage capacitor charging, then storage capacitor loses power supply circuits to power-sensing circuit and power detection is electric
This two supply sources of road, can only lean on itself energy storage to provide break-make control voltage for ON-OFF control circuit, thus maintaining gate-controlled switch
Closure, reach the delay time t of setting when the power consumption time of timing circuit, and power-sensing circuit do not have between
Electrical network supply line is detected and recover power, then because energy storage exhausts, the power supply source of ON-OFF control circuit disappears, on-off control electricity
Road disconnects gate-controlled switch, thus having cut off the connection between electrical network and power device it is achieved that time delay disconnects.
After switch S is released, if power device normal work always, or just recover from dormancy, failure and other reasons
Often, as long as occurring in that normal operating conditions, then power-sensing circuit can lead to overpowering change-detection at once to this state, thus
There is provided electric energy for storage capacitor in timing circuit, make storage capacitor stored energy and provide break-make to control electricity to ON-OFF control circuit
Pressure, ON-OFF control circuit connects the connection between electrical network and power device.When power device dormancy or after fault again, it is fixed to rely on
When circuit provide time delay disconnect service.
Based on above-mentioned principle, Fig. 3 and Fig. 4 gives a kind of circuit realiration of electricity-saving controller, its simple circuit and effect
Preferably.As shown in Figure 3,4, this circuit is by double-pole switch S, current rectifying and wave filtering circuit (i.e. power supply circuits), power-sensing circuit, regularly
Circuit, ON-OFF control circuit composition.Wherein,
Current rectifying and wave filtering circuit includes:The first bridge rectifier that mains transformer T1, commutation diode VD1~VD4 is constituted
Or bridge heap, Zener diode VD9, filter capacitor C1.
Power-sensing circuit includes:The second bridge rectifier that current transformer T2, commutation diode VD5~VD8 is constituted
Or bridge heap, filter capacitor C3, the scaling circuit in the same direction being made up of operational amplifier A and its outer meeting resistance R3, R4, R5,
Play the light emitting diode VD12 of on-off action.Feedback resistance R5 is rheostat, for adjusting described pre-set threshold value.
Timing circuit includes:Storage capacitor C2 and bleeder resistor R1.
ON-OFF control circuit includes:Audion V1 and V2 of composite joint and its external base resistance R2, colelctor electrode afterflow
Diode VD11, AC relay K, the coil in this AC relay is arranged in ON-OFF control circuit, its switch contact K-1
It is connected on supply line's live wire that electrical network is powered to power device as described gate-controlled switch.This ON-OFF control circuit is also further
Circuit work indication light diode VD10 can be included.
Double-pole switch S can adopt double-pole self-resetting button switch.
The annexation of above-mentioned each electronic devices and components is as follows:
The S-1 terminal parallel connection of the switch contact K-1 of AC relay K and double-pole self-resetting button switch S is followed by live wire,
And it is sequentially connected current transformer T2, power device, transformator T1 input;Transformator T1 outfan is connected in parallel bridge rectifier
The input of circuit VD1~VD4 constitutes blood pressure lowering, rectification circuit;Bridge rectifier VD1~VD4 outfan and filter capacitor C1,
Zener diode VD2 is in parallel to constitute filtering, mu balanced circuit, thus providing blood pressure lowering, rectifying and wave-filtering, the low-voltage DC after voltage stabilizing
Va, sends to power-sensing circuit, ON-OFF control circuit and timing circuit as the electric energy producing.
The two ends of the S-2 terminal of double-pole self-resetting button switch S connect the anode of filter capacitor C1 and storage capacitor C2;Storage
Can electric capacity C2 minus earth;RC discharge loop is constituted after storage capacitor C2 and bleeder resistor R1 parallel connection.The anode of storage capacitor C2
As charge-discharge end, power supply circuits, the electric energy of power-sensing circuit offer are provided, provide break-make control to ON-OFF control circuit simultaneously
Voltage processed.It is preferred that bleeder resistor R1 is rheostat, for adjusting the length of described delay time t.
One end of base resistance R2 as receive timing circuit in storage capacitor C2 provided break-make control voltage one end,
It is connected with the anode of storage capacitor C2, the other end connecting triode V1 base stage of base resistance R2, the emitter stage of audion V1 is straight
Connect the base stage being coupled to audion V2, the grounded emitter of audion V2, the colelctor electrode of audion V1, V2 connects fly-wheel diode
The anode of VD11, and by negative electrode, fly-wheel diode VD11 and the light emitting diode VD10 of relay K sending and receiving optical diode VD10
Negative electrode be connected, the anode of light emitting diode VD10, as accepting feeder ear, is connected with the anode of filter capacitor C1 and (is connected confession
The feeder ear of circuit), meanwhile, the switch contact K-1 of AC relay K is as described gate-controlled switch.
Current transformer T2 is in parallel with the second bridge rectifier VD5~VD8 input to constitute electric current sensing and rectification circuit,
Bridge rectifier VD5~VD8 outfan and filter capacitor C3 composition in parallel filter circuit.Wherein current transformer T2 accesses electrical network
Live wire, access point is located between gate-controlled switch and power device, and the current signal of current transformer T2 sensing passes through bridge rectifier
Device VD5~VD8 is filtered by filter capacitor C3 after carrying out rectification.The anode of filter capacitor C3 is through balancing resistance R3 and computing
The positive input terminal of amplifier A is connected, the negative input end phase through resistance R4 and operational amplifier A after the minus earth of filter capacitor C3
Even, feedback resistance R5 is in parallel with the negative input end of operational amplifier A and outfan, operational amplifier A and its outer meeting resistance R3,
R4, R5 constitute scaling circuit in the same direction, and the running voltage of operational amplifier A is provided by filter capacitor C1, form single supply and supply
Circuit, the power supply positive input of operational amplifier A terminates the anode of filter capacitor C1, the power supply negative input end of operational amplifier A
Connect the negative electrode of filter capacitor C1, that is, be grounded, the anode of the outfan sending and receiving optical diode VD12 of operational amplifier A, light-emitting diodes
The negative electrode of pipe VD12 connects the anode of storage capacitor C2, thus providing electric energy for timing circuit.
The operation principle of circuit shown in Fig. 3 is:
Electricity-saving controller will be started working, and needs first to press double-pole self-resetting button switch S (S-1, S-2 are also turned on),
Now 220V alternating current through transformator T, the first bridge rectifier VD1~VD4, filter capacitor C1, Zener diode VD9 blood pressure lowering,
Low-voltage DC Va is obtained after rectifying and wave-filtering, voltage stabilizing.This low-voltage DC Va provides the same of running voltage for operational amplifier A
When, the S-2 that passes through in a flash pressing in double-pole self-resetting button switch S charges for storage capacitor C2, low-voltage DC Va also warp
Resistance R2 makes audion V1, V2 turn on, and relay K is energized, and its contact K-1 is converted to adhesive shape by the off-state before being energized
State.
After release double-pole self-resetting button switch S (i.e. S-1, S-2 disconnect), storage capacitor C2 charges and terminates, and starts through letting out
Leakage resistance R1 discharges, and now still in conducting state, then contact K-1 is still in closure state for audion V1, V2.Assume in electric discharge
During, power device does not have normal work, then after C2 discharge off, audion V1, V2, relay K quit work, double-pole
The K-1 contact of the S-1 terminal of self-resetting button switch S and relay K all disconnects, and is disconnected the connection with 220V alternating current, whole
Individual circuit quits work, that is, stop powering for power device.Light emitting diode VD10 is used for circuit work instruction, lights expression and uses
Electric installation is energized, and extinguishes and represents power device power-off.Bleeder resistor R1 is used for timing length adjustment.Fly-wheel diode VD11
For the protection to audion V1, V2.
If after release S, electric normal work on power device, current transformer T2 is by induced potential through VD5~VD8 rectification
Backward filter capacitor C3 charges, after operational amplifier A gathers and amplifies filter capacitor C3 both end voltage, through light emitting diode VD12
Charge to storage capacitor C2, the power positive correlation of the both end voltage of filter capacitor C3 and the power device accessing, operational amplifier A
Powered using single supply, supply voltage is derived from filter capacitor C1, filter capacitor C1 is fortune under relay contact K-1 attracting state
Calculate amplifier A, relay K, audion V1, V2 filtered DC voltage Va of offer, filter capacitor C1 capacity is much smaller than energy storage
The capacity of electric capacity C2, when timing arrives, after the contact K-1 of relay K disconnects, filter capacitor C1 two ends instant power-down.
If after release S, when power device is standby or closes, its power significantly declines, current transformer T2 senses
The induced electromotive force arriving charges to filter capacitor C3 through the second bridge rectifier VD5~VD8, the voltage pole at filter capacitor C3 two ends
Low or be zero, output voltage after amplifying through the operational amplifier A conduction voltage drop also below light emitting diode VD12, light-emitting diodes
Pipe VD12 is not turned on, and has interrupted the charging to storage capacitor C2, and storage capacitor C2 starts to discharge through bleeder resistor R1, when energy storage electricity
After holding C2 discharge off, audion V1, V2 end, and relay K dead electricity quits work, the contact K-1 of relay K disconnects, entirely
Circuit quits work.As want extend timing, can timing to before press double-pole self-resetting button switch S again,
The then reclocking work of delay cut-off process.
Before electricity-saving controller uses or is supplied to user for the first time, need to come for the electric energy that connected power device consumes
Determine threshold voltage.Concrete grammar is:First bleeder resistor R1 is turned down, to ensure the brightness of light emitting diode VD12, in electricity consumption
Device start working after adjust feedback resistance R5, when light emitting diode VD12 by turn off turn to turn on and reach naked eyes it is observed that
Brightness, adjustment finishes, and thus obtains the threshold values power consumption of monitored power device and has certain safety coefficient, when with Denso
Put power significantly decline enter standby or off-mode after delay cut-off process just can work.Mix up in feedback resistance R5
Afterwards, heighten bleeder resistor R1 to determine delay cut-off time, the resistance of bleeder resistor R1 and the positive correlation of delay cut-off time.Send out
Optical diode VD10 is controller itself working station indicator, and after pressing double-pole self-resetting button switch S-1, circuit obtains electric
Work, light emitting diode VD10 lights, after relay contact disconnects 220V exchange electrical connection, circuit dead electricity, light emitting diode
VD10 extinguishes.VD12 mainly helps out when circuit is demarcated and debugs.
In sum, these are only automatic detection power device and electric network state and can delay cut-off electricity-saving controller
A certain concrete methods of realizing, is not intended to limit protection scope of the present invention.All within the spirit and principles in the present invention, made
Any modification, equivalent substitution and improvement etc., should be included within the scope of the present invention.For example, the bridge-type in controller
Rectification circuit VD1~VD4 and VD5~VD8 can be replaced by voltage doubling rectifing circuit;By mains transformer T1, commutation diode VD1~
The current rectifying and wave filtering circuit that VD4, Zener diode VD9, filter capacitor C1 are constituted can be replaced by battery or set of cells;Double-pole runback
Position button switch S can be replaced by common double-pole switch, and so when switch is in ON state, electricity-saving controller does not play a role,
After switch is by ON state shift OFF state, electricity-saving controller start the off signal of detection device and delay cutoff with
220V exchange electrical connection, this also implies that and electricity-saving controller will be allowed to work, and need to even double-click switch, press as ON for the first time,
Press for the second time as OFF.
This controller is placed in inside 220V alternating current power supply transducer or electrical equipment, also can become and connect supply network
Self-contained unit.
Claims (9)
1. a kind of can delay cut-off electricity-saving controller, it is characterized in that, described electricity-saving controller is arranged at the power supply of power device
On circuit;After electricity-saving controller is triggered, electricity-saving controller connects the connection between electrical network and power device first, economizes on electricity simultaneously
Delay cut-off process within controller is started working;Delay cut-off process is used for into line delay timing, in timing course, section
The power of electric controller real time automatic detection supply line, is more than or equal to the situation of pre-set threshold value, then really if there is power
Determine power device and enter normal operating conditions, delay cut-off process is automatically stopped, keep the connection between electrical network and power device;
If described power is less than pre-set threshold value always, the company when delay time t reaches, between cut-out power device and electrical network
Connect;After delay cut-off process is automatically stopped, electricity-saving controller continues the power of detection supply line, presets when emergent power is less than
The situation of threshold values, then restart delay cut-off process;
Described electricity-saving controller include gate-controlled switch, power supply circuits, power-sensing circuit, timing circuit, ON-OFF control circuit and
Double-pole switch S;The S-1 terminal that double-pole switch S includes is identical with the on off state of S-2 terminal;
Accessing original state on electrical network is to the supply line of power device is the gate-controlled switch disconnecting, and the two ends of gate-controlled switch are simultaneously
Connection S-1 terminal;
Power supply circuits, the electric energy for producing sends to power-sensing circuit, ON-OFF control circuit and timing circuit, power supply electricity
S-2 terminal is accessed on the supply line between road and timing circuit;
Power-sensing circuit, for detecting the power of supply line that electrical network is powered to electrical equipment, if power is more than or waits
In pre-set threshold value, then extract, from electrical network to the supply line of power device, the storage capacitor energy storage that electric power is timing circuit, no
Then, do not provide energy storage energy;
Timing circuit, for when power supply circuits or power-sensing circuit provide electric energy, storing electrical energy;Using power supply electric energy or storage
Break-make control voltage can be provided to ON-OFF control circuit by electric capacity;When power supply circuits and power-sensing circuit do not provide electric energy, storage
The storing electrical energy of energy electric capacity is consumed in the delay time t setting;
ON-OFF control circuit, for only the power supply of power supply circuits and timing circuit break-make control voltage simultaneously in the presence of, control
Make described gate-controlled switch to connect, the break-make control voltage of the power supply of power supply circuits and timing circuit any one do not provide, then control
Make described gate-controlled switch to disconnect.
2. electricity-saving controller as claimed in claim 1 is it is characterised in that described power supply circuits are further from gate-controlled switch and use
Obtain power supply in supply line between electric installation, and be converted to DC voltage, be supplied to power-sensing circuit, on-off control electricity
Road and timing circuit.
3. electricity-saving controller as claimed in claim 2 it is characterised in that described power supply circuits be current rectifying and wave filtering circuit, including
Mains transformer T1, the first bridge rectifier, Zener diode VD9 and filter capacitor C1;
The input of mains transformer T1 is terminated at electrical network, and the outfan of mains transformer T1 connects the input of bridge rectifier,
Constitute blood pressure lowering, rectification circuit;The outfan of bridge rectifier composition in parallel with filter capacitor C1, Zener diode VD2 filters, surely
Volt circuit;Thus providing blood pressure lowering, rectifying and wave-filtering, the low-voltage DC Va after voltage stabilizing, as the electric energy producing to power detection electricity
Road, ON-OFF control circuit and timing circuit send.
4. electricity-saving controller as claimed in claim 1 is it is characterised in that described timing circuit includes the storage capacitor C2 of parallel connection
With bleeder resistor R1;The anode of storage capacitor C2, as charge-discharge end, accepts power supply circuits, the electricity of power-sensing circuit offer
Can, provide break-make control voltage to ON-OFF control circuit simultaneously.
5. electricity-saving controller as claimed in claim 4 is it is characterised in that described bleeder resistor R1 is rheostat, for adjusting
The length of described delay time t.
6. electricity-saving controller as claimed in claim 1 is it is characterised in that described power-sensing circuit includes current transformer
T2, the second bridge rectifier, filter capacitor C3, by operational amplifier A and its external balancing resistance R3, resistance R4, feedback resistance
The scaling circuit in the same direction that R5 is constituted, plays the light emitting diode VD12 of on-off action;Operational amplifier A is provided by power supply circuits
Electric energy, forms single supply and powers;
Current transformer T2 accesses electrical network live wire, and access point is located between gate-controlled switch and power device, and current transformer T2 feels
The current signal answered is filtered by filter capacitor C3 after the second bridge rectifier carries out rectification;The sun of filter capacitor C3
Pole is connected with the positive input terminal of operational amplifier A through balancing resistance R3, through resistance R4 and fortune after the minus earth of filter capacitor C3
The negative input end calculating amplifier A is connected, and feedback resistance R5 is in parallel with the negative input end of operational amplifier A and outfan;Computing is put
The anode of the outfan sending and receiving optical diode VD12 of big device A, the negative electrode of light emitting diode VD12 provides electric energy for timing circuit.
7. electricity-saving controller as claimed in claim 6 is it is characterised in that described feedback resistance R5 is rheostat, for adjusting
Described pre-set threshold value.
8. electricity-saving controller as claimed in claim 1 it is characterised in that described ON-OFF control circuit include audion V1, three
Pole pipe V2, base resistance R2, colelctor electrode fly-wheel diode VD11 and AC relay K;
As the one end receiving the break-make control voltage that timing circuit provides, base resistance R2's is another for one end of base resistance R2
End connecting triode V1 base stage, the emitter stage of audion V1 is directly coupled to the base stage of audion V2, the emitter stage of audion V2
Ground connection, after the coils from parallel connection of coils of fly-wheel diode VD11 and AC relay K, the colelctor electrode of one end connecting triode V1, V2, another
End is drawn as accepting feeder ear, connects the feeder ear of power supply circuits;
Meanwhile, the switch contact K-1 of AC relay K is as described gate-controlled switch.
9. electricity-saving controller as claimed in claim 8 is it is characterised in that described accept to connect further for referring on feeder ear
Show the light emitting diode VD10 whether electricity-saving controller works.
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CN113641132B (en) * | 2021-08-18 | 2022-09-20 | 珠海格力电器股份有限公司 | Robot timing energy-saving circuit and automatic machine |
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