CN201479017U - Static zero power safety energy-saving control device - Google Patents

Static zero power safety energy-saving control device Download PDF

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Publication number
CN201479017U
CN201479017U CN2009201732209U CN200920173220U CN201479017U CN 201479017 U CN201479017 U CN 201479017U CN 2009201732209 U CN2009201732209 U CN 2009201732209U CN 200920173220 U CN200920173220 U CN 200920173220U CN 201479017 U CN201479017 U CN 201479017U
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CN
China
Prior art keywords
circuit
electric appliance
energy
power
latching relay
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Expired - Lifetime
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CN2009201732209U
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Chinese (zh)
Inventor
李声沛
冯松云
余寿庆
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BEIJING CLAMBER ELECTRONIC TECHNOLOGY Co Ltd OF CAS
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BEIJING CLAMBER ELECTRONIC TECHNOLOGY Co Ltd OF CAS
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Priority to CN2009201732209U priority Critical patent/CN201479017U/en
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    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02BCLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO BUILDINGS, e.g. HOUSING, HOUSE APPLIANCES OR RELATED END-USER APPLICATIONS
    • Y02B70/00Technologies for an efficient end-user side electric power management and consumption
    • Y02B70/10Technologies improving the efficiency by using switched-mode power supplies [SMPS], i.e. efficient power electronics conversion e.g. power factor correction or reduction of losses in power supplies or efficient standby modes

Abstract

The utility model discloses a static zero power safety energy-saving control device, wherein an intelligent control module is arranged on a controlled electric appliance of the safety energy-saving control device, is composed of a magnetic latching relay, a static zero power reset starting circuit and a standby energy-saving automatic shut-off circuit, and is connected on the input end of an inner alternating current power supply in the controlled electric appliance, and the static zero power reset starting circuit and the standby energy-saving automatic shut-off circuit are started to work in turn. The standby energy-saving automatic shut-off circuit can monitor the shut-off operation of the controlled electric appliance and automatically cut off a system power supply of the electric appliance, which enables the electric appliance to realize the 'zero power standby', further saves electric energy, reduces power consumption, and can automatically shut off an energy storage power supply in the shut-off circuit, the restoring starting can be realized only by slightly pressing a 'reset' button specially arranged, the power supply of the controlled electric appliance can be restored, and the energy storage power supply in the reset starting circuit can be transiently cut off. The static zero power safety energy-saving control device enables the electric appliance to realize safety 'zero power standby' through carrying out the static zero power starting and shut-off controls for the electric appliance, and does not change the use habits of users to keying household electric appliances and office electric appliances.

Description

Static zero consumption energy-saving safe control device
Technical field
The utility model relates to the control device of electric equipment products normal power system, relates in particular to a kind of static zero consumption energy-saving safe control device that reduces the electric appliance standby energy consumption.
Background technology
In recent years, along with scientific and technological progress and living standards of the people improve constantly, various modern electrical equipment are popularized in a large number, and this greatly facilitates people's work and life.Along with day by day being rooted in the hearts of the people of global energy-conserving and environment-protective consciousness, the consumer proposes higher energy-conserving and environment-protective requirement to the energy that electronic equipments such as household electrical appliance, audio-visual products, automated office equipment and networking products consume when the holding state.
There is following shortcoming at least in electric equipment of the prior art:
Electric equipment does not have to turn-off the unsafe problems that always has " standby energy consumption " and " online standby " because of power supply during standby.
The utility model content
The purpose of this utility model provide a kind of safe, the economize on electricity static zero consumption energy-saving safe control device.
The purpose of this utility model is achieved through the following technical solutions:
Static zero consumption energy-saving safe control device of the present utility model, comprise controlled electric appliance, it is characterized in that, comprise intelligent control module, described intelligent control module comprises static zero consumption reset boot-strap circuit, stand-by energy-saving automatic shutdown circuitry, magnetic latching relay;
Described magnetic latching relay is the twin coil magnetic latching relay of pulse excitation control, and its resetting coil is connected with the output of the described boot-strap circuit that resets, and its actuation coil is connected with the output of described stand-by energy-saving automatic shutdown circuitry;
The L line of described controlled electric appliance is connected with the L line of electrical network by the contact of described magnetic latching relay, and the N line of controlled electric appliance is connected with the N line of electrical network by described stand-by energy-saving automatic shutdown circuitry;
The described boot-strap circuit that resets receives the starting-up signal that resets, and sends driving pulse according to this signal to the resetting coil of described magnetic latching relay, the contacting of magnetic latching relay, and described controlled electric appliance powers on;
Described stand-by energy-saving automatic shutdown circuitry detects the shutdown voltage signal of the N line of described controlled electric appliance, when this voltage signal is lower than preset threshold, then the actuation coil to described magnetic latching relay sends driving pulse, and the contact of magnetic latching relay disconnects, described controlled electric appliance outage.
The technical scheme that provides by above-mentioned the utility model as can be seen, static zero consumption energy-saving safe control device described in the utility model comprises static zero consumption reset boot-strap circuit, stand-by energy-saving automatic shutdown circuitry, magnetic latching relay; The boot-strap circuit that resets receives the starting-up signal that resets, and sends driving pulse according to this signal to the resetting coil of magnetic latching relay, the contacting of magnetic latching relay, and controlled electric appliance powers on; The stand-by energy-saving automatic shutdown circuitry detects the shutdown voltage signal of the N line of controlled electric appliance, and when this voltage signal is lower than preset threshold, then the actuation coil to magnetic latching relay sends driving pulse, and the contact of magnetic latching relay disconnects, the controlled electric appliance outage.Static safe energy-saving converter with zero power consumption of the present utility model can be eliminated the unsafe problems of controlled electric appliance " standby energy consumption " and " online standby ", and self static zero consumption, safety, economize on electricity.
Description of drawings
Fig. 1 is the structure principle chart of the utility model static zero consumption energy-saving safe control device specific embodiment one;
Fig. 2 is the structure principle chart of the utility model static zero consumption energy-saving safe control device specific embodiment two.
Embodiment
Static zero consumption energy-saving safe control device of the present utility model, its preferable embodiment is:
Comprise controlled electric appliance, intelligent control module, described intelligent control module can comprise static zero consumption reset boot-strap circuit, stand-by energy-saving automatic shutdown circuitry, magnetic latching relay etc.;
Described magnetic latching relay can be the twin coil magnetic latching relay of pulse excitation control, and its resetting coil is connected with the output of the described boot-strap circuit that resets, and its actuation coil is connected with the output of described stand-by energy-saving automatic shutdown circuitry;
The L line of described controlled electric appliance is connected with the L line of electrical network by the contact of described magnetic latching relay, the N line of controlled electric appliance is connected with the N line of electrical network by described stand-by energy-saving automatic shutdown circuitry, concrete controlled electric appliance can comprise the internal communication power supply, and is connected with electrical network by this internal communication power supply;
The described boot-strap circuit that resets receives the starting-up signal that resets, and sends driving pulse according to this signal to the resetting coil of described magnetic latching relay, the contacting of magnetic latching relay, and described controlled electric appliance powers on;
Described stand-by energy-saving automatic shutdown circuitry detects the shutdown voltage signal of the N line of described controlled electric appliance, when this voltage signal is lower than preset threshold, then the actuation coil to described magnetic latching relay sends driving pulse, and the contact of magnetic latching relay disconnects, described controlled electric appliance outage.
Specifically can be:
Described stand-by energy-saving automatic shutdown circuitry can comprise off signal sample circuit, idle power-off supervisory circuit, power driving circuit and shutdown accumulation power supply etc.;
The input of described off signal sample circuit is connected with the N line of described controlled electric appliance, and output is connected with the input of described idle power-off supervisory circuit;
The output of described idle power-off supervisory circuit is connected with the input of described power driving circuit, and the output of described power driving circuit is connected with the actuation coil of described magnetic latching relay;
The input of described shutdown accumulation power supply is connected with the L line of electrical network by the contact of described magnetic latching relay, and output is connected respectively with power driving circuit with described idle power-off supervisory circuit;
Described off signal sample circuit detects the shutdown voltage signal of the N line of described controlled electric appliance, and this signal delivered to described idle power-off supervisory circuit comparison process, if be lower than preset threshold, high level of then described idle power-off supervisory circuit output makes described power driving circuit conducting, and described shutdown accumulation power supply sends driving pulse to the actuation coil of described magnetic latching relay.
After described controlled electric appliance powered on, time-delay was to the time of setting, and the shutdown voltage signal of the N line of described controlled electric appliance does not rise to preset threshold yet, and then described shutdown accumulation power supply sends driving pulse to the actuation coil of described magnetic latching relay.
Described idle power-off supervisory circuit can comprise voltage comparator and the voltage amplifier of mainly being made up of the integrated dual operational amplifier of CMOS, maybe can comprise the trigger impulse control circuit of mainly being made up of 7555 chips;
Described off signal sample circuit mainly comprises the high-power metallic sheet resistor, and the N line of described controlled electric appliance can be connected with the N line of electrical network by this off signal sample circuit; Described power driving circuit can comprise one-way SCR.
Described shutdown accumulation power supply can comprise high-voltage capacitance, resistance, rectifier diode, voltage stabilizing didoe and storage capacitor etc. for the resistance-capacitance depressurization energy storage stabilized voltage power supply of ultra-micro power consumption;
The power supply of described shutdown accumulation power supply can divide two-stage, and the first order is directly supplied with described power driving circuit, and described idle power-off supervisory circuit is supplied with after passing through divider resistance step-down and filter capacitor filtering in the second level.
The described boot-strap circuit that resets comprises pulse generation unit, reset button etc.Described reset button can be for often opening/the normally-closed contact change over switch, and its common is connected with described pulse generation unit, and normally-closed contact is connected with the resetting coil of described magnetic latching relay, and normally opened contact is connected with the power input of the boot-strap circuit that resets.Can be in series with rectifier diode and current-limiting resistance between the power input of the normally opened contact of described reset button and the boot-strap circuit that resets.
Described pulse generation unit can comprise the energy storage capacitor that is connected in parallel and voltage stabilizing didoe etc.
The contact of above-mentioned magnetic latching relay can be normally-closed contact, and the power input of the boot-strap circuit that resets directly is connected with the L line of electrical network;
The contact of magnetic latching relay also can be for often opening/normally closed conversion hysteria contact, and its normally opened contact is connected with the power input of the described boot-strap circuit that resets, and normally-closed contact is connected with the L line of described controlled electric appliance, and common is connected with the L line of electrical network.
Below by specific embodiment the utility model is explained in detail, as shown in Figure 1:
Static zero consumption energy-saving safe control device is provided with intelligent control module, and intelligent control module comprises the boot-strap circuit 1 that resets, stand-by energy-saving automatic shutdown circuitry 2, magnetic latching relay K etc.
Static zero consumption energy-saving safe control device comprises controlled electric appliance (internal communication power supply), and the L line (live wire) of controlled electric appliance is connected with the L line of electrical network by the contact of magnetic latching relay K; The N line (zero line) of controlled electric appliance is connected with the N line of electrical network by intelligent control module.
Magnetic latching relay K is a high-power twin coil magnetic latching relay that only needs pulse excitation control, and its resetting coil L1 is connected with the output of the boot-strap circuit 1 that resets, and actuation coil L2 is connected with the output of stand-by energy-saving automatic shutdown circuitry 2.
Specifically comprise:
Stand-by energy-saving automatic shutdown circuitry 2 comprises the off signal sample circuit, the idle power-off supervisory circuit, power driving circuit and shutdown accumulation power supply, wherein, the N line of the input of off signal sample circuit and controlled electric appliance is connected, the output of off signal sample circuit is connected with the input of idle power-off supervisory circuit, the output of idle power-off supervisory circuit is connected with the input of power driving circuit, the output of power driving circuit is connected with the actuation coil L2 of magnetic latching relay, shutdown accumulation power supply input is connected with the normally-closed contact K-L1 of magnetic latching relay, and shutdown accumulation power supply output is connected with power driving circuit with the idle power-off supervisory circuit.
The off signal sample circuit mainly comprises a high-power metallic sheet resistor, and the N line of controlled electric appliance also is connected with the N line of electrical network by the off signal sample circuit.
The idle power-off supervisory circuit is mainly little by static working current, the integrated dual operational amplifier of CMOS of single supply work etc. is formed voltage comparator and voltage amplifier, its power driving circuit is an one-way SCR etc.The idle power-off supervisory circuit also can be the trigger impulse control circuit mainly be made up of 7555 chips etc.
The shutdown accumulation power supply is a kind of resistance-capacitance depressurization energy storage stabilized voltage power supply of ultra-micro power consumption, form by high-voltage capacitance, resistance, rectifier diode, voltage stabilizing didoe and storage capacitor etc., its power supply divides two-stage, the direct supply power drive circuit of the first order, after divider resistance R2 step-down and filter capacitor C2 filtering are passed through in the second level, supply with the idle power-off supervisory circuit.
The boot-strap circuit 1 that resets comprises the pulse generation unit that reset button KB, energy storage capacitor C1 and voltage stabilizing didoe VD1 compose in parallel etc., wherein reset button KB is one and often opens/the normally-closed contact change over switch, its common COM is connected with the pulse generation unit, normally-closed contact NC is connected with the resetting coil L1 of magnetic latching relay K, normally opened contact NO is connected with the L line of electrical network, and rectifier diode D1, current-limiting resistance R1 etc. can connect between the L line of normally opened contact NO and electrical network.Concrete common COM can be connected with voltage stabilizing didoe VD1 "-" end with storage capacitor C1 "+", and "+" end of storage capacitor C1 "-" and voltage stabilizing didoe VD1 can be connected with the N line of AC220V electrical network.
In the above-mentioned specific embodiment, the contact of magnetic latching relay K is a normally-closed contact, and its operation principle is:
When inserting the use of AC220V electrical network and electrical equipment, as shown in Figure 1:
Usually controlled electric appliance (internal communication power supply) and stand-by energy-saving automatic shutdown circuitry 2 all are in off-state, if need " start resets ", only need flicking reset button KB, when normally opened contact NO presses the L line of connection electrical network and the moment of pulse generation unit C1, VD1, normally-closed contact NC disconnects the resetting coil L1 of magnetic latching relay, the highest voltage stabilizing value that boosts to voltage stabilizing didoe VD1 of energy storage capacitor C1 charging energy storage simultaneously; When the moment that reset button KB lifts, normally opened contact NO recovers the off-state with pulse generation unit C1, VD1, the connection of normally-closed contact NC recovery simultaneously and pulse generation unit and magnetic latching relay resetting coil L1, storage capacitor C1 forms discharge pulse to resetting coil L1, make the normally-closed contact K-L1 adhesive of magnetic latching relay be reset to " normally closed " state, and by contact K-L0 and the connection of electrical network L line, at this moment controlled electric appliance and stand-by energy-saving automatic shutdown circuitry 2 are all connected the AC220V power supply.
As seen: except that the instantaneous time that reset button KB presses, normally opened contact NO makes pulse generation unit C1, VD1 be in off-state always at ordinary times, realized on the not only principle of boot-strap circuit 1 of resetting static " zero-power ", and after " keying start ", when 2 operations (dynamically) of stand-by energy-saving automatic shutdown circuitry, boot-strap circuit 1 also " no power consumption " resets.
After " start resets " energising, controlled electric appliance start subsequently operation routinely gets final product operate as normal, and simultaneously, stand-by energy-saving automatic shutdown circuitry 2 must be established beginning ultramicro power-consumption standby operation by cable.
Beginning, power driving circuit is in cut-off state, and the shutdown accumulation power supply begins the energy storage of charging, and time-delay progressively boosts to the DC voltage-stabilizing value; On the other hand, along with the rising of direct voltage, the off signal sample circuit is also started working and is detected sampled signal, send the idle power-off supervisory circuit to monitor comparison process, and the result that will monitor send power driving circuit.The back controlled electric appliance start operate as normal if power on, stand-by energy-saving automatic shutdown circuitry 2 is ultramicro power-consumption standby operation always just;
The shutdown if controlled electric appliance is finished using, or city's net AC220V burst has a power failure, " becoming 0 " unloaded standby signal voltage that the off signal sample circuit will in time detect, send idle power-off supervisory circuit comparison process, if the standard value that is lower than the standby power of setting is (at the standby power grade in electric equipment products such as a large amount of household electrical appliances and office series different application field, can set by demand), then export a high level and make the power driving circuit conducting, the shutdown accumulation power supply forms discharge pulse to the actuation coil L2 of magnetic latching relay K, the normally-closed contact K-L1 of magnetic latching relay is disconnected, thereby cut off the power supply that inserts the system on the controlled electric appliance automatically, also automatic disconnection shutdown accumulation power supply is realized safety " Zero-power-consumption standby ".Again start if desired only needs flicking reset button KB to get final product.
After powering on, if controlled electric appliance fails in time to start shooting operate as normal, the idle power-off supervisory circuit (can be set automatic time delay on demand, time by the charging energy storage of shutdown accumulation power supply is determined) the output high level also makes the power driving circuit conducting, the shutdown accumulation power supply forms discharge pulse to actuation coil L2, magnetic latching relay K-L1 contact is disconnected, thereby cut off the system power supply that inserts on the controlled electric appliance automatically, disconnect because of the K-L1 contact simultaneously, also automatic disconnection shutdown accumulation power supply is realized safety " Zero-power-consumption standby ".Again start if desired, the same needs flicking reset button KB to get final product.
As shown in Figure 2, in the foregoing description, the contact of magnetic latching relay K also often can be and opens/normally closed conversion hysteria contact, wherein normally opened contact K-L2 is connected with the power input of the boot-strap circuit 1 that resets, the input of the L inlet wire of normally-closed contact K-L1 and controlled electric appliance and the shutdown accumulation electrical source of stand-by energy-saving automatic shutdown circuitry 2 is connected, and common K-L0 is connected with the L inlet wire of AC220V electrical network.
Its operating principle and above-mentioned normally-closed contact are similar, but because the input of the boot-strap circuit 1 that resets is connected with the L inlet wire of electrical network by normally opened contact K-L2, have further increased reliability.
Ubiquitous " standby energy consumption " problem during the utility model is extensive use of at present a large amount of household electrical appliances, office electrical equipment, a kind of static zero consumption energy-saving safe control device is provided, by an intelligent control module is set in the energy-saving safe control device, intelligent control module comprises the power magnetic force keeping relay, the static zero consumption that only need pulse excitation control reset boot-strap circuit and stand-by energy-saving automatic shutdown circuitry, and its connects the input of controlled electric appliance; Reset boot-strap circuit and stand-by energy-saving automatic shutdown circuitry of described static zero consumption takes turns starting work, the stand-by energy-saving automatic shutdown circuitry is implemented monitoring and automatic disconnection electric system power supply to the controlled electric appliance standby, realize safety " Zero-power-consumption standby ", simultaneously for further energy-conservation, reduce oneself power consumption, also automatic disconnection shutdown circuit accumulation power supply; The start that resets only needs the ad hoc the Reset button of flicking can recover electric power supply, auto power off is implemented in shutdown to controlled household electrical appliances, office electrical equipment, make electrical equipment be in safety " Zero-power-consumption standby ", do not change the custom that the user uses keying type household electrical appliances, office electrical equipment again.
The above; it only is the preferable embodiment of the utility model; but protection range of the present utility model is not limited thereto; anyly be familiar with those skilled in the art in the technical scope that the utility model discloses; the variation that can expect easily or replacement all should be encompassed within the protection range of the present utility model.

Claims (10)

1. a static zero consumption energy-saving safe control device comprises controlled electric appliance, it is characterized in that, comprises intelligent control module, and described intelligent control module comprises static zero consumption reset boot-strap circuit, stand-by energy-saving automatic shutdown circuitry, magnetic latching relay;
Described magnetic latching relay is the twin coil magnetic latching relay of pulse excitation control, and its resetting coil is connected with the output of the described boot-strap circuit that resets, and its actuation coil is connected with the output of described stand-by energy-saving automatic shutdown circuitry;
The L line of described controlled electric appliance is connected with the L line of electrical network by the contact of described magnetic latching relay, and the N line of controlled electric appliance is connected with the N line of electrical network by described stand-by energy-saving automatic shutdown circuitry;
The described boot-strap circuit that resets receives the starting-up signal that resets, and sends driving pulse according to this signal to the resetting coil of described magnetic latching relay, the contacting of magnetic latching relay, and described controlled electric appliance powers on;
Described stand-by energy-saving automatic shutdown circuitry detects the shutdown voltage signal of the N line of described controlled electric appliance, when this voltage signal is lower than preset threshold, then the actuation coil to described magnetic latching relay sends driving pulse, and the contact of magnetic latching relay disconnects, described controlled electric appliance outage.
2. static zero consumption energy-saving safe control device according to claim 1 is characterized in that described stand-by energy-saving automatic shutdown circuitry comprises off signal sample circuit, idle power-off supervisory circuit, power driving circuit and shutdown accumulation power supply;
The input of described off signal sample circuit is connected with the N line of described controlled electric appliance, and output is connected with the input of described idle power-off supervisory circuit;
The output of described idle power-off supervisory circuit is connected with the input of described power driving circuit, and the output of described power driving circuit is connected with the actuation coil of described magnetic latching relay;
The input of described shutdown accumulation power supply is connected with the L line of electrical network by the contact of described magnetic latching relay, and output is connected respectively with power driving circuit with described idle power-off supervisory circuit;
Described off signal sample circuit detects the shutdown voltage signal of the N line of described controlled electric appliance, and this signal delivered to described idle power-off supervisory circuit comparison process, if be lower than preset threshold, high level of then described idle power-off supervisory circuit output makes described power driving circuit conducting, and described shutdown accumulation power supply sends driving pulse to the actuation coil of described magnetic latching relay.
3. static zero consumption energy-saving safe control device according to claim 2, it is characterized in that, after described controlled electric appliance powers on, time-delay is to the time of setting, the shutdown voltage signal of the N line of described controlled electric appliance does not rise to preset threshold yet, and then described shutdown accumulation power supply sends driving pulse to the actuation coil of described magnetic latching relay.
4. static zero consumption energy-saving safe control device according to claim 3, it is characterized in that, described idle power-off supervisory circuit comprises voltage comparator and the voltage amplifier of mainly being made up of the integrated dual operational amplifier of CMOS, or comprises the trigger impulse control circuit of mainly being made up of 7555 chips;
Described off signal sample circuit mainly comprises the high-power metallic sheet resistor, and the N line of described controlled electric appliance is connected with the N line of electrical network by this off signal sample circuit;
Described power driving circuit comprises one-way SCR.
5. static zero consumption energy-saving safe control device according to claim 2, it is characterized in that, the resistance-capacitance depressurization energy storage stabilized voltage power supply that described shutdown accumulation power supply is a ultra-micro power consumption comprises high-voltage capacitance, resistance, rectifier diode, voltage stabilizing didoe and storage capacitor;
The power supply of described shutdown accumulation power supply divides two-stage, and the first order is directly supplied with described power driving circuit, and described idle power-off supervisory circuit is supplied with after passing through divider resistance step-down and filter capacitor filtering in the second level.
6. static zero consumption energy-saving safe control device according to claim 5 is characterized in that the described boot-strap circuit that resets comprises pulse generation unit, reset button;
Described reset button is for often opening/the normally-closed contact change over switch, and its common is connected with described pulse generation unit, and normally-closed contact is connected with the resetting coil of described magnetic latching relay, and normally opened contact is connected with the power input of the boot-strap circuit that resets.
7. static zero consumption energy-saving safe control device according to claim 6 is characterized in that described pulse generation unit comprises energy storage capacitor and the voltage stabilizing didoe that is connected in parallel;
Be in series with rectifier diode and current-limiting resistance between the power input of the normally opened contact of described reset button and the boot-strap circuit that resets.
8. according to each described static zero consumption energy-saving safe control device of claim 1 to 7, it is characterized in that the contact of described magnetic latching relay is a normally-closed contact;
The power input of the described boot-strap circuit that resets is connected with the L line of electrical network.
9. according to each described static zero consumption energy-saving safe control device of claim 1 to 7, it is characterized in that, the contact of described magnetic latching relay is for often opening/normally closed conversion hysteria contact, its normally opened contact is connected with the power input of the described boot-strap circuit that resets, normally-closed contact is connected with the L line of described controlled electric appliance, and common is connected with the L line of electrical network.
10. according to each described static zero consumption energy-saving safe control device of claim 1 to 7, it is characterized in that described controlled electric appliance comprises the internal communication power supply, and be connected with electrical network by this internal communication power supply.
CN2009201732209U 2009-08-21 2009-08-21 Static zero power safety energy-saving control device Expired - Lifetime CN201479017U (en)

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Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN101635516B (en) * 2009-08-21 2012-05-23 北京中科可来博电子技术有限公司 Static safe energy-saving controller with zero power consumption
CN103207977A (en) * 2013-04-03 2013-07-17 苏家云 Computer no-standby safety protection circuit
CN103499935A (en) * 2013-09-02 2014-01-08 胡润泽 Zero-power-consumption intelligent standby power saver

Cited By (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN101635516B (en) * 2009-08-21 2012-05-23 北京中科可来博电子技术有限公司 Static safe energy-saving controller with zero power consumption
CN103207977A (en) * 2013-04-03 2013-07-17 苏家云 Computer no-standby safety protection circuit
CN103207977B (en) * 2013-04-03 2016-05-18 苏家云 A kind of computer zero standby safety holding circuit
CN103499935A (en) * 2013-09-02 2014-01-08 胡润泽 Zero-power-consumption intelligent standby power saver
CN103499935B (en) * 2013-09-02 2017-03-15 深圳润泽创新能源科技有限公司 Zero-power-consumptiintelligent intelligent standby power saver

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Granted publication date: 20100519

Effective date of abandoning: 20090821