CN101963789A

CN101963789A - Standby zero power consumption switch control system

Info

Publication number: CN101963789A
Application number: CN2010102712229A
Authority: CN
Inventors: 周斌; 姚步堂; 唐克勇
Original assignee: CHANGZHOU KAIDI ELECTRIC APPLIANCE Co Ltd
Current assignee: Changzhou Kaidi Electrical Co Ltd
Priority date: 2010-09-02
Filing date: 2010-09-02
Publication date: 2011-02-02
Anticipated expiration: 2030-09-02
Also published as: CN101963789B; WO2012028016A1

Abstract

The invention relates to a standby zero power consumption switch control system, which is used for electrically adjusting civil and industrial electrical appliances. In an automatic switch device for the on/off of a main power supply, a main circuit switch is arranged at the front end of the main circuit; the switch is controlled by a driver in a control circuit, automatically delays for disconnection when being not used by the system and is automatically closed when being used by the system. A control circuit switch is arranged at the front end of the control circuit, is automatically disconnected when being not used by the system and is automatically closed when being used by the system, thereby realizing zero power consumption, that is to say, the main circuit and the control circuit do not consume electric energy in standby; and meanwhile, only once on/off action is needed to be performed on the switch for the on/off of the main power supply when the system is operated in short time for multiple times.

Description

Standby zero-power on-off control system

Technical field

The present invention relates to a kind of power switch device, especially a kind of recloser that is applicable to the control primary power break-make of current drain device is used to cut out the primary power with start-up system, the zero-power when realizing standby.

Background technology

At present, the office furniture of motorized adjustment, sick bed, sofa, household electrical appliance, and the application of industrial electrical equipment equipment is more and more widely.In some cases, we will wish that this class motorized adjustment equipment and primary power keep off-state, used up energy when this can save device standby on the one hand, electric energy during the transformer standby in the system for example, can avoid on the other hand in some special occasions, generating an electromagnetic field, for example the ward.Turn-off the most completely and can carry out manual-lock or directly its attaching plug be dialled realization from electrical network by equipment is installed main power switch, still, this requirement must the manually opened or plug that plugs in when reusing equipment.Therefore, preferably adopt a kind of device to close primary power with starting outfit automatically, need not remember manual operation main power switch when needs are closed in actual the use, also need not when regulating, at first carry out manual operation main power switch.For example, this device can be used on the desk of motorized adjustment height, when need not to regulate, equipment disconnects from main electrical network fully, 0 power consumption when realizing standby, in case when need regulating during equipment the operation element button just can rebulid the electric current supply immediately, this does not just need special manually connection primary power.

Similarly device many places in the document of having announced relate to.The WO001995023450A1 of LINAK, WO002004019463A1, the DE9212599U1 of WO002007107157A1 and DEWERT has all mentioned a kind of recloser of primary power break-make, power by the control circuit that a chargeable electric capacity is recloser, has the characteristic of slight leakage owing to be filled with the electric capacity of electric energy itself, under the long-time obsolete situation of system, 2～3 weeks for example, electric energy can slowly be given out light in the electric capacity, cause dead electricity system of system to start, therefore, be provided with an auxiliary circuit part in the system for chargeable electric capacity charging.The defective of these systems is, in case the attaching plug of system connects electrical network, this auxiliary circuit part will be connected on the primary power always, be the electric capacity charging for a long time or termly, therefore auxiliary circuit will consume the part electric energy, can not realize 0 power consumption truly.Another defective is, under some occasion, repeatedly moves in a short time if desired--during the switching that stops, the switchgear of primary power break-make also can be along with closure--the action of disconnection be carried out in operation each time, and this can reduce the serviceable life of switch.The EP0615667B2 of OKIN mentions a kind of recloser of primary power break-make, power by the control circuit that a chargeable electric capacity is recloser, for prevent on the electric capacity electric energy for a long time not the time spent slowly give out light, be provided with battery in the system into electric capacity charging.And system is provided with a manual pushbutton being used to cut off on the circuit breaker of primary power, when the electric energy of electric capacity and battery all exhausts, can be chargeable electric capacity charging by manually pressing this button, though this device can thoroughly cut off system from electrical network, but owing to use long-acting battery and have the button relay, the meeting of system increases cost, on the other hand, the switchgear of primary power break-make also can be along with closure--the action of disconnection be carried out in operation each time, and this can reduce the serviceable life of switch.

Summary of the invention

The technical problem to be solved in the present invention is: propose a kind of under the situation of not using battery as standby power supply, overcome charging circuit and be connected defective on the electrical network for a long time, solve simultaneously and repeatedly move at short notice--during the switching that stops, the switchgear of primary power break-make also can be along with closure--the problem of disconnection is carried out in operation each time.

The technical solution adopted in the present invention is: a kind of standby zero-power on-off control system, be used for the civilian and industrial electric equipment of motorized adjustment, have main circuit and control circuit, described main circuit front end is provided with main circuit switch, described control circuit front end is provided with the control circuit switch, system is under holding state, start the play button of electric equipment, thereby make control circuit work by control circuit switch driver trigger control circuit switch closure, driving main circuit switch by control circuit again starts, thereby make main circuit and primary power connect, realize the adjustment process of electric equipment; After finishing adjustment process, unclamp the play button of electric equipment, the control circuit switch also disconnects immediately, and control circuit quits work, and described main circuit switch is connected through disconnecting after delaying time and making main circuit disconnect with primary power, and system comes back to holding state.

Specifically, main circuit of the present invention comprises main circuit switch, main circuit transformer, main circuit rectifier bridge, filter capacitor that is connected with the primary power break-make and H bridge switch and the motor of realizing regulating electric equipment, is electrically connected between the described each several part.The H bridge switch is used for regulating the forward or reverse of motor.Described main circuit switch is relay or bidirectional triode thyristor.

And described control circuit comprises manual powered switch, control circuit transformer, control circuit rectifier bridge, the filter capacitor that is electrically connected each other and drives the main circuit switch driver that main circuit switch is closed or disconnect.Described control circuit switch is relay or photoelectrical coupler.

Further, main circuit switch carries out closure and unlatching what do not stop when preventing multi-pass operations play button at short notice, after described main circuit and primary power are connected, primary power is the driver power supply of main circuit switch, thereby form a latching circuit, if there is not its current supply circuit of cut-out of other device, main circuit can not disconnect.

Accordingly, the present invention also is provided with a time-delay disconnecting device in control circuit, the time-delay disconnecting device is triode or photoelectrical coupler or relay, and the current supply circuit of described latching circuit is by cut-outs of delaying time of time-delay disconnecting device, thereby makes main circuit be connected with the primary power disconnection.Like this, unclamping play button after long period of time, the time-delay disconnecting device will cut off main circuit switch driver current supply circuit automatically.The time interval of time-delay disconnecting device of the present invention is adjustable.Adjustable being defined as of the time interval herein: promptly can be by the requirements set time interval of manufacturer according to the user, and the adjustment in the carrying out time interval that the user cannot be voluntarily, also can be by user oneself according to the demand adjustment in the carrying out time interval at any time.The clock control of time-delay disconnecting device can be provided by independent circuits, but for the consideration of cost, the clock control of time-delay disconnecting device is provided by the actuator driven chip usually, need not to add in addition element.

Further, the play button of electric equipment of the present invention is connected with a chargeable electric capacity, and described chargeable electric capacity provides stored electric energy start-up control contactor under the system standby state.Chargeable electric capacity select for use usually capacity big, leak the electric capacity of minimum type, can guarantee that system did not work in 3～4 weeks still can normally start.

Again further, for guaranteeing to reach for a long time the not time spent at the first electrical network that inserts, when no electric energy or electric energy are not enough on the charging capacitor, system still can start, on the control circuit switch, be parallel with a manual powered switch, press, with direct start-up control circuit, it is described chargeable electric capacity charging that thereby startup main circuit, main circuit and primary power are connected the back.This moment, system can normally work by the operation element button.For the purpose of safety, the position corresponding with manual powered switch on the plastic casing of this system is provided with the insulation hand push button, guarantees that the operator is by safe isolation, hand push button directly is configured on the shell when the design plastic casing, does not increase any cost.

The invention has the beneficial effects as follows: in the recloser of a primary power break-make, the front end of main circuit is provided with main circuit switch, the driver control in the controlled circuit of this switch, and automatic time delay disconnects in the time of need not using in system, auto-closing during use.At the control circuit front end, be provided with a control circuit switch, automatic cutout in the time of need not using in system, auto-closing during use, thereby all not consumed power, i.e. zero-power of main circuit, control circuit when realizing standby; When realizing in the short time multi-pass operations system simultaneously, the switch of primary power break-make only needs an on-off action.

Description of drawings

The present invention is further described below in conjunction with drawings and Examples.

Fig. 1 is the electrical schematic diagram of the preferred embodiments of the present invention;

Fig. 2 is the electrical schematic diagram that the relay of main circuit among Fig. 1 is replaced with bidirectional triode thyristor;

Fig. 3 is the electrical schematic diagram that the photoelectrical coupler of control circuit among Fig. 1 is replaced with relay.

Embodiment

The present invention is further detailed explanation with preferred embodiment in conjunction with the accompanying drawings now.These accompanying drawings are the synoptic diagram of simplification, basic structure of the present invention only is described in a schematic way, so it only show the formation relevant with the present invention.

As shown in Figure 1, frame of broken lines I is a main circuit, the 1st, and primary power, 2B and 2C are main circuit switches, select relay herein for use, the 3rd, main circuit transformer, the 4th, main circuit rectifier bridge, the 5th, main circuit filter capacitor, the 6th, the H bridge switching circuit, the driver module 8 that is made of single-chip microcomputer and peripheral cell transmits the control signal of H bridge switch 6 through bus 25, makes different brachium pontis conductings, realizes motor 7 forwards and antiport respectively.When switch 20B is closed, the signal of driver module 8 output motors 7 forwards running, when switch 21B is closed, the signal of driver module 8 output motors 7 antiports.

Empty frame II is a control circuit, and wherein 9 is manual powered switches, and 10B is the switch of a photoelectrical coupler, and 10A is as the driver of 10B, when the luminous utmost point 10A energising of photoelectrical coupler, and the switch 10B conducting of photoelectrical coupler.The 11st, the control circuit transformer, the 12nd, the control circuit rectifier bridge, the 13rd, control circuit filter capacitor, 2A are relay coils, during as the 2A of main circuit switch driver energising, relay switch 2B and 2C closure.Main circuit and primary power are connected, and after driver module 8 obtains operating voltage, transmit trigger voltage through clock cable 14 to triode 15, thereby make triode 15 conductings.The 16th, charging capacitor, diode 17 are used for preventing that the electric energy on the charging capacitor 16 from leaking.Play button 18,19 by hand by operating.20A and 21A are relay coils, switch 20B closure during relay coil 20A energising, switch 21B closure during relay coil 21A energising.Diode 22 and 23 is used for preventing that push button 19 or 20 o'clock two

relay coil

20A and 21A from switching on simultaneously.Resistance 24 is current-limiting resistances of the luminous utmost point 10A of photoelectrical coupler.

When the needs machine operation, press play button 18 and maintenance, the electric energy of contain will be through luminous utmost point 10A, current-limiting resistance 24 conductings of play button 18, diode 22, optocoupler on the charging capacitor 16, thereby make optical coupled switch 10B conducting, transformer 11 begins out work, output voltage is supplied with relay coil 2A behind rectifier bridge 12 and filter capacitor 13 rectifying and wave-filterings, thereby makes relay switch 2B and 2C closure in the main circuit.

After relay switch 2B and the 2C closure, main power transformer 3 output voltages behind rectifier bridge 4 and filter capacitor 5 rectifying and wave-filterings, provide operating voltage to H bridge switching circuit 6 and driver module 8.

After driver module 8 obtains operating voltage, provide trigger pip to make its conducting through clock cable 14 immediately to triode 15.Like this, the voltage behind rectifier bridge 4 and filter capacitor 5 rectifying and wave-filterings is also given relay coil 2A power supply simultaneously, and this process was finished in the extremely short time.

Because play button 18 keeps the pressurized conducting state always, the voltage behind rectifier bridge 4 and filter capacitor 5 rectifying and wave-filterings is through diode 17, and play button 18 makes relay switch 20B closure to relay coil 20A power supply.Simultaneously, the voltage behind rectifier bridge 4 and filter capacitor 5 rectifying and wave-filterings also gives charging capacitor 16 chargings through diode 17 simultaneously, for next operation is got ready.

Driver module 8 provides drive signal through bus 25 to H bridge switching circuit 6 after receiving relay switch 20B closure signal, makes metal-oxide-semiconductor 6A and 6D conducting, the running of motor 7 forwards.

Unclamp play button 18, relay coil 20A dead electricity, relay switch 20B disconnects.After relay switch 20B disconnected, the single-chip microcomputer of driver module 8 inside scanned the variation of voltage on the corresponding pin, and internal processes stops to provide signal to H bridge switching circuit 6 immediately, motor 7 stalls.The certain hour signal on the interrupt clock signal wire 14 again but internal processes will be delayed time, for example 20 seconds, therefore, triode 15 will keep conducting state a period of time.

The time-delay interruption of the single-chip microcomputer of driver module 8 inside is designs like this: in case obtain operating voltage, in 0.3 second through the trigger voltage of clock cable 14 output triodes 15, whether and it is closed to scan 20B or 21B simultaneously, if any any closure, 8 of driver modules provide drive signal through bus 25 to H bridge switching circuit 6 immediately, make motor 7 runnings.As do not have, 8 of driver modules stop the trigger voltage signal to triode 15 outputs after the time of program setting.Writing such signal handler in single-chip microcomputer is a kind of general known technology.

Unclamp play button 18, the luminous utmost point 10A no current of optocoupler passes through, and optical coupled switch 10B turn-offs, and transformer 12 and rectifier bridge 13 will no longer be given relay coil 2A power supply.But because the voltage behind rectifier bridge 4 and filter capacitor 5 rectifying and wave-filterings still can be through relay coil 2A, triode 15 conductings, relay coil 2A works on, and relay switch 2B and 2C still remain closed.In case therefore relay coil 2A conducting, after relay switch 2B and the 2C closure, main circuit will be realized self-locking, can automatic cutout.After reach, triode 15 turn-offs until delay time, and main circuit and primary power just can be completely severed.

In the delay time of this program setting, continue operation element button 18 or 19, relay switch 2B and 2C can not repeat closed the disconnection.Because what relay switch 2B and 2C upward passed through is the principal current of system, principal current is usually than higher, one of this design remarkable advantages is the life-span that can effectively prolong switch, and in the ordinary course of things, this makes selects for use the relatively low relay of cost to become possibility.

Delay time is after reach, and the single-chip microcomputer of driver module 8 inside no longer provides trigger voltage to triode 15, and triode 15 turn-offs, relay coil 2A outage, and relay switch 2B and 2C will disconnect, and whole like this main circuit will be by cut-out fully from primary power.And as previously mentioned, because optical coupled switch 10B just turn-offs when play button pine 18 leaves, control circuit is also disconnected from primary power fully, and total system is consumed power not, realizes zero-power truly.

Need to prove, be used as delay switch with triode 15 herein, but also available relay or photoelectrical coupler replace, this alternative connection is a kind of method of knowing altogether.

Press play button 19, relay coil 21A work, relay switch 21B closure, driver module 8 provides signal to provide drive signal through bus 25 to H bridge switching circuit 6, and driven MOS pipe 6B and 6C conducting make motor 7 antiports.System's other parts working condition is identical when pressing play button 18, no longer elaborates herein.

Unclamp play button 19, relay coil 21A dead electricity, relay switch 21B disconnects.Driver module 8 stops to provide signal to H bridge switching circuit 6, motor 7 stalls.Circuit other parts working condition is identical when unclamping play button 18.

If use for the first time or do not use charging capacitor 17 to discharge fully for a long time, operation element button 18 or 19 o'clock, relay coil 2A can not work, so system can't start.At this moment, only need press manual powered switch 9, transformer 11 begins out work, output voltage is supplied with relay coil 2A, thereby is made relay switch 2B and 2C closure behind rectifier bridge 12 and filter capacitor 13 rectifying and wave-filterings, main circuit is started and self-locking, and this process was finished in the extremely short time.Afterwards, press play button 18 or 19, the course of work of system is unclamped play button 18 or 19 with foregoing identical, and the course of work of system is also with foregoing identical.

Though charging capacitor can possibly can't continue the above time all around by voltage, but, only need once press charge switch fast, this will make electric capacity obtain once charging, guaranteeing that electric capacity is minimum can provide electric energy one time for operation element button effectively in three weeks, and obtain once charging automatically, keep the startup electric energy at least once in next 3～4 weeks.

Among Fig. 2, adopt the break-make control of bidirectional triode thyristor as main circuit, 26A is the control utmost point of bidirectional triode thyristor, and 26B and 26C are the switch poles of bidirectional triode thyristor, after control utmost point 26A conducting, and switch pole 26B and 26C closure, the circuit working principle is identical with Fig. 1.

Among Fig. 3, adopt the on-off switch of relay as control circuit, 27A relay coil, 27B are relay switches, after control utmost point 27A conducting, and relay switch 27B closure, the circuit working principle is identical with Fig. 1.

The control section that should be noted in the discussion above that the principle of this invention is not limited to be used with conventional large-scale power system, adopts a similar primary power on-off switch device, can save consumption of electric effectively and prevent to produce electric field in the zone.

Just the specific embodiment of the present invention of describing in the above instructions, various not illustrating is construed as limiting flesh and blood of the present invention, the person of an ordinary skill in the technical field after having read instructions can to before described embodiment make an amendment or be out of shape, and do not deviate from essence of an invention and scope.

Claims

1. standby zero-power on-off control system, be used for the civilian and industrial electric equipment of motorized adjustment, it is characterized in that: have main circuit (I) and control circuit (II), described main circuit (I) front end is provided with main circuit switch, described control circuit (II) front end is provided with control circuit switch (10B), system is under holding state, start the play button of electric equipment, by control circuit switch driver (10A) trigger control circuit switch (10B) thus closed make control circuit (II) work, driving main circuit switch by control circuit (II) again starts, thereby make main circuit (I) and primary power (1) connect, realize the adjustment process of electric equipment; After finishing adjustment process, unclamp the play button of electric equipment, control circuit switch (10B) also disconnects immediately, and control circuit (II) quits work, described main circuit switch is connected through disconnecting after delaying time and making main circuit (I) disconnect with primary power (1), and system comes back to holding state.

2. standby zero-power on-off control system as claimed in claim 1, it is characterized in that: described main circuit (I) comprises main circuit switch, main circuit transformer (3), main circuit rectifier bridge (4), filter capacitor (5) that is connected with primary power (1) break-make and the H bridge switch (6) and motor (7) of realizing regulating electric equipment, is electrically connected between the described each several part.

3. standby zero-power on-off control system as claimed in claim 1 or 2 is characterized in that: described control circuit (II) comprises manual powered switch (9), control circuit transformer (11), control circuit rectifier bridge (12), filter capacitor (13) that is electrically connected each other and the main circuit switch driver (2A) that drives main circuit (I) switch closure or disconnection.

4. standby zero-power on-off control system as claimed in claim 1 or 2, it is characterized in that: after described main circuit (I) is connected with primary power (1), primary power (1) is driver (2A) power supply of main circuit switch, thereby form a latching circuit, the current supply circuit of described latching circuit is connected thereby make main circuit (I) disconnect with primary power (1) by the cut-out of delaying time of triode or photoelectrical coupler or relay.

5. standby zero-power on-off control system as claimed in claim 1, it is characterized in that: the play button of described electric equipment is connected with a chargeable electric capacity (16), and described chargeable electric capacity (16) provides stored electric energy start-up control contactor (10B) under the system standby state.

6. as claim 1,2 or 5 described standby zero-power on-off control systems, it is characterized in that: described manual powered switch (9) is direct start-up control circuit (II) when control circuit switch (10B) can't start, thereby start main circuit (I), it is described chargeable electric capacity charging (16) that main circuit (I) is connected the back with primary power (1).

7. standby zero-power on-off control system as claimed in claim 1 is characterized in that: described main circuit switch is relay or bidirectional triode thyristor.

8. standby zero-power on-off control system as claimed in claim 1 is characterized in that: described control circuit switch (10B) is relay or photoelectrical coupler.