CN103369782A

CN103369782A - Method for controlling other illuminating lamps by power switch of one illuminating lamp

Info

Publication number: CN103369782A
Application number: CN2012102965861A
Authority: CN
Inventors: 冯林; 陈绍华
Original assignee: Individual
Current assignee: State Grid Corp of China SGCC; Nanyang Power Supply Co of State Grid Henan Electric Power Co Ltd
Priority date: 2012-08-15
Filing date: 2012-08-15
Publication date: 2013-10-23
Anticipated expiration: 2032-08-15
Also published as: CN103369782B; WO2014026420A1

Abstract

The invention relates to a method for controlling other illuminating lamps by the power switch of one illuminating lamp, which comprises the steps that when a master illuminating lamp and slave illuminating lamps are both in on-states, a master processor in the master illuminating lamp acquires a disconnection/conduction signal of a main power switch which forms a loop with the master illuminating lamp; in the case that the main power switch is disconnected, and is conducted before a temporary power supply circuit in the master illuminating lamp stops power supply to the master processor and a master radio frequency module which are located in the master illuminating lamp, the master processor controls the master radio frequency module to search for slave radio frequency modules in the slave illuminating lamps in the signal range of the master radio frequency module; the master radio frequency module and one or more slave radio frequency modules found by the master radio frequency module form a wireless communication link(s), and the master processor sends a signal for stopping power supply to one slave illuminating body in the same illuminating lamp with one corresponding slave radio frequency module, to each slave radio frequency module, which forms the corresponding wireless communication link with the master radio frequency module, through the master radio frequency module.

Description

Control the method for other illuminating lamps by the mains switch of an illuminating lamp

[technical field]

The present invention relates to control and driving method in a kind of illuminator, particularly a kind of mains switch that passes through an illuminating lamp is controlled the method for other illuminating lamps.

[background technology]

In daily life, the switch of the illuminating lamp in the family all is the corresponding switch of a lamp, or corresponding a plurality of lamps of switch, and these lamps to be connected with switch be that electric wire connects, and switch and lamp consist of the loop, the ON/OFF of lamp power supply is controlled the light on and off of lamp by switch, and a lot of lamps are arranged in the one family, the bedroom has, the parlor also has, stair also have, and the lamp in parlor and bedroom all is independently to be subjected to switch separately to control light on and off, sometimes, such as before the sleep of bedroom, the lamp of just finding parlor and stair place when closing bedroom lamp does not close, and also needing this time gets up, and to close the lantern festival at parlor and stair place cumbersome, again such as when TV is seen in the parlor, the lamp that can find the bedroom does not close, then had to again to make a return journey and closed the lamp in bedroom, it is cumbersome also can to seem, particularly has up and down for the sort of that the compound family of floor can seem more inconvenient.

So the technical need of controlling other one or more luminous lamp switch by the mains switch of an illuminating lamp is still arranged in actual life, if adopt the method for traditional pull-switch control to need rewiring, and length of arrangement wire is large, also more complicated, and in existing life, almost there is not which family to have such wires design, the lamp in switch control bedroom that can only the bedroom, the lamp in parlor is controlled the parlor, or can only control by a master switch light on and off of all lamps.People are in order to address this problem, also expected another method, namely be: pass through wireless control technology, by controller the light on and off of each lamp are controlled, adopt special-purpose remote controller to control the light on and off of each lamp, almost there is not any practical significance, because remote controller is very difficult to keeping, and remote controller usually can only corresponding lamp of control, in order to address this problem, Chinese patent application number is that 201210043237.9 patent of invention has proposed a kind of lamp light control system based on the Android smart mobile phone, comprises Android smart mobile phone application controls end, the WiFi protocol converter, the ZigBee intelligent terminal controller is not joined remote controller outside this system does not need, and can realize wireless convenient control, and provide headlamp switch, brightness regulation, multiple intellectualized operation and the management such as the switching of lamplight scene pattern.

Pass through for the illuminating lamp that the control of Android smart mobile phone has the WiFi module for above-mentioned, although smart mobile phone has been arranged as control end, need not special-purpose remote controller, but owing to need the control illuminating lamp still to need to be undertaken the code checking and set up linking by Android smart mobile phone and the illuminating lamp with WiFi module in advance, do not have the Android smart mobile phone or be to have no idea to control illuminating lamp in different places the people who smart mobile phone and illuminating lamp is not linked in advance for those, and when needs are controlled illuminating lamp, also will take out mobile phone and control, can be relatively more inconvenient.On the other hand, the cost of WiFi module is also higher, if when by smart mobile phone a plurality of illuminating lamps being controlled, also need by transducer, the cost of transducer is also relatively high.

[summary of the invention]

Purpose of the present invention is exactly that the illuminating lamp in the family can not by the technical problem of other luminous lamp switch control, the invention provides the method that a kind of mains switch that passes through an illuminating lamp is controlled other illuminating lamps in the prior art in order to solve.

It is to be noted, illuminating lamp of the present invention only is just can be referred to as the key lighting lamp when mains switch in this illuminating lamp formation loop is controlled other illuminating lamps, why to distinguish in the present invention the key lighting lamp and be for sake of clarity from illuminating lamp, and a minute primary and secondary not in fact, any one illuminating lamp all can be referred to as the key lighting lamp in other illuminating lamps of control, controlled illuminating lamp is referred to as from illuminating lamp, key lighting lamp and can carry out role exchange from illuminating lamp.

Concrete technical scheme of the present invention is as follows:

The invention provides a kind of mains switch that passes through an illuminating lamp and control the method for other illuminating lamps, it is characterized in that the method comprises:

When all being in opening at the key lighting lamp and from illuminating lamp, the primary processor that is positioned at this key lighting lamp obtains the disconnection/Continuity signal that consists of the main power switch in loop with this key lighting lamp;

Main power switch disconnects and the interim power supply circuits in this key lighting lamp stop conducting before primary processor in this key lighting lamp and the power supply of main radio-frequency module, then primary processor control this main radio-frequency module search in the main radio-frequency module range of signal in the illuminating lamp from radio-frequency module;

Described main radio-frequency module and main radio-frequency module search one or morely sets up wireless communication link from radio-frequency module, described primary processor by this main radio-frequency module to set up wireless communication link with this main radio-frequency module each from radio-frequency module send stop to the signal from the luminous element power supply that is positioned at same illuminating lamp from radio-frequency module;

Be positioned at from radio-frequency module same illuminating lamp from signal that processor obtains and this receives from radio-frequency module, and according to described signal controlling with should be positioned at stopping to powering from luminous element from power module of same illuminating lamp from processor.

The method further comprises:

Whenever main radio-frequency module searching one establish communication link from radio-frequency module and with this from radio-frequency module after, primary processor control and primary processor are positioned at the brightness of a gradient of same illuminating lamp host emitter reduction.

The method further comprises:

Obtain from the state information of luminous element work from processor, when described extinguish from luminous element after, described from processor by send the state information of extinguishing from luminous element from radio-frequency module to main radio-frequency module;

Whenever main radio-frequency module receives a state information of extinguishing from luminous element that sends from radio-frequency module, the brightness that primary processor control host emitter improves a gradient;

When all extinguish from luminous element after, the brightness of the luminance recovery of host emitter before to main radio-frequency module search from radio-frequency module.

The method further comprises:

Be in opening, be in when extinguishing state from illuminating lamp at this key lighting lamp, and when the mains switch of illuminating lamp all was in conducting, the primary processor that is positioned at this key lighting lamp obtained the disconnection/Continuity signal that consists of the main power switch in loop with this key lighting lamp;

Main power switch disconnects and the interim power supply circuits in this key lighting lamp stop conducting before primary processor in this key lighting lamp and the power supply of main radio-frequency module, described primary processor by this main radio-frequency module to set up wireless communication link with this main radio-frequency module each from radio-frequency module send to the signal that restores electricity from luminous element that is positioned at same illuminating lamp from radio-frequency module;

Be positioned at from radio-frequency module same illuminating lamp from signal that processor obtains and this receives from radio-frequency module, and according to described signal controlling with should from processor be positioned at same illuminating lamp from power module to restoring electricity from luminous element.

The method further comprises:

Be in opening at this key lighting lamp, when being in closed condition from illuminating lamp, main power switch disconnects and the interim power supply circuits in this illuminating lamp stop conducting after primary processor in this illuminating lamp and the power supply of main radio-frequency module, host emitter in the illuminating lamp extinguishes afterwards first to be lighted, main radio-frequency module with respectively disconnect communication link from radio-frequency module, and keep closed condition from illuminating lamp.

The method further comprises:

When the key lighting lamp extinguishes, and be in closed condition from illuminating lamp, and with this from illuminating lamp consist of the loop be in conducting state from mains switch the time, be positioned at and obtain and consisting of from illuminating lamp the disconnection/Continuity signal from mains switch in loop from illuminating lamp from processor;

Disconnect and again unlatching from mains switch, from processor control from power module to powering from luminous element.

The method further comprises:

Be in opening, be in closed condition from illuminating lamp at this key lighting lamp, and with this from illuminating lamp consist of the loop be in conducting state from mains switch the time, be positioned at and obtain and consisting of from illuminating lamp the disconnection/Continuity signal from mains switch in loop from illuminating lamp from processor;

From mains switch disconnection and again conducting, power to luminous element from power module from processor control control, should disconnect from the communication link of radio-frequency module and the foundation of main radio-frequency module.

The method further comprises:

All be in opening at this key lighting lamp with from illuminating lamp, and when main radio-frequency module is in connection status with the communication link of setting up from radio-frequency module, be positioned at obtaining and this disconnection/Continuity signal from mains switch from illuminating lamp formation loop from processor from illuminating lamp;

From mains switch disconnect and in this stops to this from illuminating lamp from the interim power supply circuits in the illuminating lamp from processor and conducting before the radio-frequency module power supply, then disconnect and respectively from the communication link between the radio-frequency module by sending from radio-frequency module to main radio-frequency module from processor;

After this communication link between radio-frequency module and main radio-frequency module disconnects, should search for the radio-frequency module of these other illuminating lamps in the illuminating lamp range of signal and set up communication link from illuminating lamp, should send the signal that other illuminating lamps of control are bright or go out by the radio-frequency module from radio-frequency module of illuminating lamp to other illuminating lamps.

The method further comprises:

From mains switch disconnect and in this stops to this from illuminating lamp from the interim power supply circuits in the illuminating lamp from processor and conducting after the radio-frequency module power supply, then disconnect from the communication link between radio-frequency module and the main radio-frequency module, should be in the illuminating lamp from power module to powering from luminous element.

The method further comprises:

From the mains switch of illuminating lamp again after the conducting, be positioned at this obtaining and this consists of the disconnection/Continuity signal from mains switch in loop from illuminating lamp from processor from illuminating lamp at this;

Described from mains switch disconnect and in this stops to this from illuminating lamp from the interim power supply circuits in the illuminating lamp from processor and conducting before the radio-frequency module power supply, should control this from processor and search for these in the radio-frequency module range of signal other from radio-frequency module from radio-frequency module;

Should from radio-frequency module with should search from radio-frequency module other set up wireless communication link from radio-frequency module, should from processor by this from radio-frequency module to this from radio-frequency module set up wireless communication link other each send control and other signals that are positioned at the bright from luminous element of same illuminating lamp or go out from radio-frequency module from radio-frequency module;

With other from radio-frequency module be positioned at same illuminating lamp from signals that processor obtains and other receive from radio-frequency module, and be positioned at same illuminating lamp from processor according to described signal controlling and other other are bright or go out from luminous element.

Described radio-frequency module is one-to-many 2.4G wireless communication module.

Described interim power supply circuits comprise an energy-storage travelling wave tube, and described energy-storage travelling wave tube comprises in electric capacity, inductance, the battery one or more.

Compared to prior art, the technique effect that the present invention is useful is:

The present invention goes to control collective's on and off of other illuminating lamps by the mains switch that uses arbitrary illuminating lamp, because control tool is mains switch, this almost is the control tool that existing lighting has, so if finish collective's on and off of removing to control other illuminating lamps by the mains switch that uses arbitrary illuminating lamp of the present invention, only need to be on existing circuit base, the replacing lighting gets final product, and therefore has method advantage simple, with low cost.

Because each illuminating lamp has a mains switch, what lamps all have, what mains switches are just arranged, and each mains switch can be controlled all light fixtures, thus need not Digiplex, and need not a plurality of remote controllers, also need not to change original remote controller setting even increase lighting, can control all lightings, and need not remote controller is managed, make things convenient for people's use.

The method that the present invention controls other illuminating lamps by the mains switch of an illuminating lamp is very simple, is easy to learn and use, so it is very convenient to operate, penetration and promotion is got up also relatively easy.

[description of drawings]

Fig. 1 is the structured flowchart of illuminating lamp of the present invention;

Fig. 2 is Household illumination system structural representation of the present invention;

Fig. 3 is the block diagram of structure of the lighting lamp of the present invention;

Fig. 4 is the embodiment of the invention 1 is controlled other illuminating lamps by the mains switch of an illuminating lamp method flow diagram;

Fig. 5 is the embodiment of the invention 2 is controlled other illuminating lamps by the mains switch of an illuminating lamp method flow diagram;

Fig. 6 is the embodiment of the invention 3 is controlled other illuminating lamps by the mains switch of an illuminating lamp method flow diagram;

Fig. 7 is the embodiment of the invention 4 is controlled other illuminating lamps by the mains switch of an illuminating lamp method flow diagram;

Fig. 8 is the embodiment of the invention 5 is controlled other illuminating lamps by the mains switch of an illuminating lamp method flow diagram.

[embodiment]

In order to make purpose of the present invention, technical scheme and advantage clearer, below in conjunction with drawings and Examples, the present invention is further elaborated.Should be appreciated that specific embodiment described herein only in order to explain the present invention, is not used for limiting the present invention.

The invention provides a kind of mains switch by an illuminating lamp just can control other lightings in the Household illumination system bright/method of going out, comprise a plurality of illuminating lamps in the Household illumination system of the present invention, as shown in Figure 1, each illuminating lamp includes a processor 11 and (comprises memory module in this processor, be used for control store instruction), one radio-frequency module 12 that is connected with processor 11, one interim power supply circuits 13, one is subject to processing the power module 14 of device 11 controls and the luminous element 15 that is electrically connected with power module 14, each illuminating lamp and a mains switch consist of the loop, and described interim power supply circuits stop to continue to processor 11 and radio-frequency module 12 power supplies when processor 11 is powered with radio-frequency module 12 and luminous element at power module.

Because the power module that the processor in each illuminating lamp can only be controlled in this illuminating lamp is powered to luminous element, and the mains switch of each illuminating lamp and other illuminating lamp do not consist of the loop, so the switch on and off signal of mains switch is difficult to directly control other illuminating lamp, can only the control signal of mains switch make-and-break signal representative be sent to other illuminating lamp by radio-frequency module, so could realize controlling by the mains switch of an illuminating lamp purpose of other illuminating lamps.

As shown in Figure 2, in this Household illumination system, the first mains switch 21 that comprises the first illuminating lamp and control the first illuminating lamp, the second illuminating lamp and control the second illuminating lamp second source switch 22, the 3rd mains switch 23 of the 3rd illuminating lamp and control the 3rd illuminating lamp, the 4th mains switch 24 of the 4th illuminating lamp and control the 4th illuminating lamp, the 5th mains switch 25 of the 5th illuminating lamp and control the 5th illuminating lamp, the 6th mains switch 26 of the 6th illuminating lamp and control the 6th illuminating lamp, each above-mentioned illuminating lamp is connected existing common single-pole single-throw(SPST lighting circuit loop and is connected with mains switch, the first illuminating lamp is positioned at the principal bedroom, it is indoor that the second illuminating lamp is positioned at secondary room, the 3rd illuminating lamp is positioned at the parlor, the 4th illuminating lamp is positioned at the kitchen, the 5th illuminating lamp is positioned at the toilet, and the 6th illuminating lamp is positioned at the study.

As shown in Figure 3, the processor in the first illuminating lamp, radio-frequency module, interim power supply circuits, power module and luminous element are referred to as respectively first processor, the first radio-frequency module, the first interim power supply circuits, the first power module and the first luminous element; In like manner, the processor in the second illuminating lamp, radio-frequency module, interim power supply circuits, power module and luminous element are referred to as respectively the second processor, the second radio-frequency module, the second interim power supply circuits, second source module and the second luminous element; The like, the processor in the 6th illuminating lamp, radio-frequency module, interim power supply circuits, power module and luminous element are referred to as respectively the 6th processor, the 6th radio-frequency module, the 6th interim power supply circuits, the 6th power module and the 6th luminous element.

Need in the principal bedroom, control by the illuminating lamp to other sometimes, also need to control at the indoor illuminating lamp to other of secondary room sometimes, before going out, need when also having by the 3rd mains switch in parlor other illuminating lamp to be controlled.

Because in use, the state of different illuminating lamp opening and closing is different, the on off operating mode difference that connects simultaneously the mains switch of each illuminating lamp, when control different situations can appear then, and different control methods can appear in different situations, below by embodiment to the mains switch by an illuminating lamp of the present invention just can control other lightings in the Household illumination system bright/method of going out is further elaborated.

Embodiment 1

In the present embodiment, situation about occurring is: each illuminating lamp all is in opening, and existing the first mains switch control other illuminating lamps except the first illuminating lamp that need employing to be positioned at the principal bedroom extinguish, and as shown in Figure 4, control method is as follows:

S11: the first processor in the first illuminating lamp obtains the disconnection/Continuity signal of the first mains switch;

S12: judge the first mains switch disconnect after whether the interim power supply circuits in the first illuminating lamp stop the front conducting of the first radio-frequency module power supply in this first processor and the first illumination;

S13: when the first mains switch disconnects and interim power supply circuits in the first illuminating lamp stop conducting before first processor and the power supply of the first radio-frequency module, then first processor is controlled other five radio-frequency modules (that is: the second radio-frequency module, the 3rd radio-frequency module, the 4th radio-frequency module, the 5th radio-frequency module and the 6th radio-frequency module) that the search of the first radio-frequency module all is positioned at the first radio-frequency module radiofrequency signal scope;

Because interim power supply circuits are only to first processor and the power supply of the first radio-frequency module, so before interim power supply circuits are stopped power supply, first processor and the first radio-frequency module work, after interim power supply circuits are stopped power supply, the first power module and the first luminous element cause quitting work because of outage, and the first luminous element extinguishes.

S14: in search procedure, the first radio-frequency module whenever searches a radio-frequency module and sets up communication link with this radio-frequency module, and then first processor is controlled the first power supply circuits and reduced 10% of maximum brightness to the electric weight of the first luminous element power supply.Described 10% is a gradient, and the linear discrete type of the brightness of luminous element successively decreases.Certainly the gradient that reduces also can be set to 5%, 8%, 15% and other percentages.

Because other five radio-frequency modules all are in the energising operating state, then the first radio-frequency module can search other five radio-frequency modules, send the request signal of setting up the communication connection when searching backward other five radio-frequency modules of other five radio-frequency modules, other five radio-frequency modules are set up the wireless communication link of one-to-many topology type by rear and the first radio-frequency module in checking.

S15: after wireless communication link was built up, first processor sent by other five processors (that is: the second processor, the 3rd processor, four-processor, the 5th processor, the 6th processor) to other five radio-frequency modules by the first radio-frequency module and controls respectively the signal that other five illuminating lamps (that is: the second illuminating lamp, the 3rd illuminating lamp, the 4th illuminating lamp, the 5th illuminating lamp, the 6th illuminating lamp) extinguish;

S16: other five processors obtain described signal from radio-frequency module and control respectively other five power modules and stop to other five luminous elements power supplies.

S17: each power module stops after the luminous element power supply, and the processor that is connected with each power module sends the signal that this luminous element extinguishes by the radio-frequency module that is connected with each processor to the first radio-frequency module;

S18: first processor whenever obtains the signal that an illuminating lamp extinguishes, and then controls the first power supply circuits and improves 10% of maximum brightness to the electric weight of the first luminous element power supply.

S19: when the first mains switch disconnects and interim power supply circuits in the first illuminating lamp stop conducting after first processor and the power supply of the first radio-frequency module, the first illuminating lamp is from extinguishing again lighting, and first processor and the first radio-frequency module are from outage to energising.

Like this then finished by the first mains switch of the first illuminating lamp and controlled other five purposes that illuminating lamp all extinguishes.

The brightness of the first luminous element reduces a gradient after the first radio-frequency module whenever searches a radio-frequency module and sets up communication link with this radio-frequency module, and extinguish an illuminating lamp whenever, the brightness of the first luminous element improves a gradient, when all illuminating lamps all extinguish, the brightness of the first luminous element has returned to again maximum brightness, why so the reason of design is: because people are that the illuminating lamp to other is controlled in the principal bedroom, in the bedroom, can't view the situation whether other illuminating lamps all extinguish, so need to indicate the state of other illuminating lamps by the state variation of the first illuminating lamp.Be conducive to so whether Close All of the user can judge other very accurately in the principal bedroom illuminating lamp.

Embodiment 2

In above-described embodiment 1, in the complete bright situation of the second illuminating lamp, the 3rd illuminating lamp, the 4th illuminating lamp, the 5th illuminating lamp, the 6th illuminating lamp and the first illuminating lamp, five illuminating lamps controlling other by the first mains switch in the principal bedroom extinguish entirely, present embodiment bears results in embodiment 1: the first illuminating lamp is bright, need in the situation that other illuminating lamp extinguishes to open again other five illuminating lamps by the mains switch of the first illuminating lamp, as shown in Figure 5, control method is as follows:

S20: be in opening at the first illuminating lamp, other five illuminating lamps are in and extinguish state, and the mains switch of other five illuminating lamps is when being in conducting state, first processor obtains the disconnection/Continuity signal of the first mains switch;

S21: judge the first mains switch disconnect after whether the interim power supply circuits in the first illuminating lamp stop the front conducting of the first radio-frequency module power supply in this first processor and the first illumination;

S22: when the first mains switch disconnects and interim power supply circuits in the first illuminating lamp stop conducting before first processor and the power supply of the first radio-frequency module, signal from each luminous element to other each radio-frequency module transmission that restore electricity to of the first radio-frequency module then;

S23: other five processors obtain the described signal that restores electricity from each radio-frequency module respectively, control each supply module and recover to each luminous element power supply.

S24: when the first mains switch disconnects and interim power supply circuits in the first illuminating lamp stop conducting after first processor and the power supply of the first radio-frequency module, the first luminous element extinguishes because the first power module is stopped power supply then because of the input of the first power module external power source to be lighted, and the first radio-frequency module quits work because of outage and cause the communication link of the first radio-frequency module and other each radio-frequency modules to disconnect.

After the communication link of the first radio-frequency module and other each radio-frequency modules disconnects, the light on and off of uncontrollable other illuminating lamps of make-and-break signal of the first mains switch of the first illuminating lamp, only after the first illuminating lamp is being lighted, disconnect the first mains switch and conducting before interim power supply circuits are stopped power supply, then the first radio-frequency module begins to search other radio-frequency modules in its range of signal, and sets up communication link with other radio-frequency modules that search.

The first mains switch disconnects and the interim power supply circuits in the first illuminating lamp stop to first processor and the rear conducting of the first radio-frequency module power supply, it is changeable that this process first mains switch is disconnected between the conducting interlude, long situation appears at after other illuminating lamps are extinguished by control mostly, the first illuminating lamp also extinguishes by the control of the first mains switch thereupon, only just opens when needs are lighted the first illuminating lamp.For example, control the first illuminating lamp by the first mains switch again and extinguish after all control is extinguished with other five illuminating lamps by the first mains switch before the evening sleep, until second day is need to again turn on light the time, just with the first power switch conducts.

The first radio-frequency module and other radio-frequency modules that cause until interim power supply circuits are stopped power supply because of the disconnection of the first mains switch when the first luminous element disconnect communication link, because the first radio-frequency module is to disconnect communication link with other radio-frequency modules in the situation of unregulated power supply, so the first radio-frequency module is also for to control the on off state of other illuminations, so other five illuminating lamps still keep closed condition.

Embodiment 3

Extinguish or light at the first illuminating lamp, the first mains switch disconnects or conducting, other five illuminating lamps extinguish, when other five mains switches are in conducting state, need by the second source switch, the 3rd mains switch, the 4th mains switch, the 5th mains switch and the 6th mains switch are controlled respectively the second illuminating lamp, the 3rd illuminating lamp, the 4th illuminating lamp, the 5th illuminating lamp and the 6th illuminating lamp reopen, the below controls example that the second illuminating lamp reopens with the second source switch and tells about by other five mains switches and control respectively other five methods that illuminating lamp reopens, as shown in Figure 6, the method is as follows:

S31: the second processor that is positioned at the second illuminating lamp obtains the disconnection/Continuity signal of second source switch;

S32: judge the second source switch disconnect after whether the interim power supply circuits in the second illuminating lamp stop the front conducting of the second radio-frequency module power supply in this second processor and the second illumination;

S33: when the second source switch disconnects and conducting before the second interim power supply circuits are stopping to power to the second processor and the second radio-frequency module, then the second processor is removed the control command (namely controlling the signal that the second illuminating lamp is opened or extinguished) that the second illuminating lamp sends, and the second luminous element extinguishes first then conducting;

S34: when the second source switch disconnects and conducting after the second interim power supply circuits stop to power to the second processor and the second radio-frequency module, the control command of then storing in the first processor disappears because of outage, and the second luminous element extinguishes first then conducting.

In like manner, the 3rd illuminating lamp, the 4th illuminating lamp, the 5th illuminating lamp and the 6th illuminating lamp after extinguishing and the 3rd mains switch, the 4th mains switch, the 5th mains switch and the 6th mains switch be in conducting state, need to reopen illuminating lamp by the 3rd mains switch, the 4th mains switch, the 5th mains switch and the control of the 6th mains switch respectively, then only need to can finish according to above-mentioned method operation.

Embodiment 4

The above embodiments 2 situations are first radio-frequency modules because disconnect passively communication link with other radio-frequency modules in the situation of unregulated power supply, also can be that the first radio-frequency module disconnects communication link with other radio-frequency modules on one's own initiative, this situation occurs in and ought be in opening by the first illuminating lamp, and the communication link of the first radio-frequency module and other radio-frequency modules is in connected state always, when the 3rd mains switch of the 3rd illuminating lamp by being positioned at the parlor is controlled the light on and off of other illuminating lamps.The below all is in opening with the first illuminating lamp and other five illuminating lamps, the first mains switch and other five mains switches all are in conducting state, the communication link of the first radio-frequency module and other five radio-frequency modules is in connected state simultaneously, need to control process that other illuminating lamps go out entirely by the 3rd mains switch describes the control of present embodiment, as shown in Figure 7, described control method comprises:

S41: the 3rd processor in the 3rd illuminating lamp obtains the disconnection/Continuity signal of the 3rd mains switch;

S42: judge the 3rd mains switch disconnect after whether the interim power supply circuits in the 3rd illuminating lamp stop the front conducting of the 3rd radio-frequency module power supply in the 3rd processor and the 3rd illumination;

S43: when the 3rd mains switch disconnects and interim power supply circuits in the 3rd illuminating lamp stop conducting before the 3rd processor and the power supply of the 3rd radio-frequency module, then the 3rd processor sends communication link between disconnection and the second radio-frequency module, the 3rd radio-frequency module, the 4th radio-frequency module, the 5th radio-frequency module and the 6th radio-frequency module by the 3rd radio-frequency module to the first radio-frequency module;

S44: after the communication link between the 3rd radio-frequency module and the first radio-frequency module disconnected, then the 3rd processor was controlled other five radio-frequency modules (that is: the first radio-frequency module, the second radio-frequency module, the 4th radio-frequency module, the 5th radio-frequency module and the 6th radio-frequency module) that the search of the 3rd radio-frequency module all is positioned at the 3rd radio-frequency module radiofrequency signal scope;

S50: because interim power supply circuits are only to the 3rd processor and the power supply of the 3rd radio-frequency module, so before interim power supply circuits are stopped power supply, the 3rd processor and the 3rd radio-frequency module work, after interim power supply circuits are stopped power supply, the 3rd power module and the 3rd luminous element cause quitting work because of outage, the 3rd luminous element extinguishes, while the 3rd radio-frequency module disconnects the communication link disconnection with the first radio-frequency module because of outage, and other second radio-frequency modules, the 4th radio-frequency module, the 5th radio-frequency module, the 6th radio-frequency module keeps being communicated with the communication link of the first radio-frequency module.

S45: in search procedure, the 3rd radio-frequency module whenever searches a radio-frequency module and sets up communication link with this radio-frequency module, and then the 3rd processor is controlled the 3rd power supply circuits and reduced 10% of maximum brightness to the electric weight of the 3rd luminous element power supply.Described 10% is a gradient, and the linear discrete type of the brightness of luminous element successively decreases.Certainly the gradient that reduces also can be set to 5%, 8%, 15% and other percentages.

Because other five radio-frequency modules all are in the energising operating state, then the 3rd radio-frequency module can search other five radio-frequency modules, send the request signal of setting up the communication connection when searching backward other five radio-frequency modules of other five radio-frequency modules, other five radio-frequency modules are set up the wireless communication link of one-to-many topology type by rear and the 3rd radio-frequency module in checking.

S46: after wireless communication link was built up, the 3rd processor sent by other five processors (that is: first processor, the second processor, four-processor, the 5th processor, the 6th processor) to other five radio-frequency modules by the 3rd radio-frequency module and controls respectively the signal that other five illuminating lamps (that is: the first illuminating lamp, the second illuminating lamp, the 4th illuminating lamp, the 5th illuminating lamp, the 6th illuminating lamp) extinguish;

S47: other five processors obtain described signal from radio-frequency module and control respectively other five power modules and stop other five luminous elements power supplies.

S48: each power module stops after the luminous element power supply, and the processor that is connected with each power module sends the signal that this luminous element extinguishes by the radio-frequency module that is connected with each processor to the 3rd radio-frequency module;

S49: the 3rd processor whenever obtains the signal that an illuminating lamp extinguishes, and then controls the 3rd power supply circuits and improves 10% of maximum brightness to the electric weight of the 3rd luminous element power supply.

After communication link between the 3rd radio-frequency module and the first radio-frequency module disconnects, be equivalent to control the first illuminating lamp, the second illuminating lamp, the 4th illuminating lamp, the 5th illuminating lamp and the 6th illuminating lamp by the 3rd mains switch, be similar to the first mains switch and control the second illuminating lamp, the 3rd illuminating lamp, the 4th illuminating lamp, the 5th illuminating lamp and the 6th illuminating lamp.In embodiment 1, the first illuminating lamp is the key lighting lamp, the second illuminating lamp, the 3rd illuminating lamp, the 4th illuminating lamp, the 5th illuminating lamp and the 6th illuminating lamp; In the present embodiment, the 3rd illuminating lamp is the key lighting lamp, the first illuminating lamp, the second illuminating lamp, the 4th illuminating lamp, the 5th illuminating lamp and the 6th illuminating lamp, control from illuminating lamp by the key lighting lamp, key lighting lamp and be that from the difference of illuminating lamp which illuminating lamp is the effector, which illuminating lamp is controlled person, play other illuminating lamps of control effect for the key lighting lamp, controlled illuminating lamp is from illuminating lamp.

Principle according to embodiment 2, after the first illuminating lamp, the second illuminating lamp, the 4th illuminating lamp, the 5th illuminating lamp, the 6th illuminating lamp are extinguished by the control of the mains switch of the 3rd illuminating lamp, can also control the first illuminating lamp, the second illuminating lamp, the 4th illuminating lamp, the 5th illuminating lamp, the 6th illuminating lamp by the mains switch of the 3rd illuminating lamp and reopen.Principle according to embodiment 3, after the first illuminating lamp, the second illuminating lamp, the 4th illuminating lamp, the 5th illuminating lamp, the 6th illuminating lamp are extinguished by the control of the mains switch of the 3rd illuminating lamp, after the mains switch of the 3rd illuminating lamp disconnected, the 3rd illuminating lamp also extinguished thereupon.

Embodiment 5

The first illuminating lamp, the second illuminating lamp, the 4th illuminating lamp, the 5th illuminating lamp, after the 6th illuminating lamp is reopened by the control of the mains switch of the 3rd illuminating lamp, the 3rd power module of the 3rd illuminating lamp disconnects and conducting after the 3rd patch is stopped power supply, after extinguishing, lights again by the 3rd illuminating lamp, communication link between the 3rd radio-frequency module and the first radio-frequency module disconnects, the second radio-frequency module, the 4th radio-frequency module, communication link between the 5th radio-frequency module and the 6th radio-frequency module and the first radio-frequency module still keeps connected state, at this moment, if the first mains switch by the first illuminating lamp is controlled extinguishing of other illuminating lamps again, because the first radio-frequency module and the second radio-frequency module, the 4th radio-frequency module, the 5th radio-frequency module and the 6th radio-frequency module still keep communication connection, so disconnect and stop conducting before first processor and the power supply of the first radio-frequency module at interim power supply circuits at the first mains switch, then the first radio-frequency module need not to search for the radio-frequency module of other illuminating lamps in its range of signal, directly the radio-frequency module of illuminating lamp to other sends the signal that other illuminating lamps of control extinguish, because the communication link of the 3rd radio-frequency module and the first radio-frequency module disconnects, so the make-and-break signal of the first mains switch can only be controlled the second illuminating lamp, the 4th illuminating lamp, extinguishing of the 5th illuminating lamp and the 6th illuminating lamp.Want by other five illuminating lamps of the first lighting lamp control, then need to make the time long enough of the first mains switch disconnection, so that interim power supply circuits stop to first processor and the first radio-frequency module, communication link between the first radio-frequency module and other radio-frequency modules disconnects, then after the first illuminating lamp conducting, again obtain the first mains switch to disconnect fast-conducting after, the first radio-frequency module is again searched for other radio-frequency modules of its range of signal and is set up communication link with other five radio-frequency modules, thereby finishes the network-in-dialing condition of other five illuminating lamps of control.Concrete, as shown in Figure 8, the method comprises as follows:

S51: all be in opening at six illuminating lamps, six mains switches all are in conducting state, the first radio-frequency module and the second radio-frequency module, the 4th radio-frequency module, the 5th radio-frequency module and the 6th radio-frequency module are set up after the communication link, and the first processor in the first illuminating lamp obtains the disconnection/Continuity signal of the first mains switch;

S52: judge the first mains switch disconnect after whether the interim power supply circuits in the first illuminating lamp stop the front conducting of the first radio-frequency module power supply in this first processor and the first illumination;

S53: when the first mains switch disconnects and interim power supply circuits in the first illuminating lamp stop conducting before first processor and the power supply of the first radio-frequency module, then first processor sends four processors by other (that is: the second processor by the first radio-frequency module to other four radio-frequency modules, four-processor, the 5th processor, the 6th processor) controls respectively other four illuminating lamps (that is: the second illuminating lamp, the 4th illuminating lamp, the 5th illuminating lamp, the 6th illuminating lamp) signal that extinguishes, simultaneously first processor is controlled the first power supply circuits and is reduced 40% of maximum brightness to the electric weight of the first luminous element power supply.Because the first radio-frequency module is only set up communication link with four radio-frequency modules, so, needing to reduce by four gradients, each gradient is 10% of maximum brightness.

S54: same, after interim power supply circuits were stopped power supply, the first power module and the first luminous element caused quitting work because of outage, and the first luminous element extinguishes.

S55: other four processors obtain described signal from radio-frequency module and control respectively other four power modules and stop to other four luminous elements power supplies.

S56: each power module stops after the luminous element power supply, and the processor that is connected with each power module sends the signal that this luminous element extinguishes by the radio-frequency module that is connected with each processor to the first radio-frequency module;

S57: first processor whenever obtains the signal that an illuminating lamp extinguishes, and then controls the first power supply circuits and improves 10% of maximum brightness to the electric weight of the first luminous element power supply.

Embodiment 6

At the first lighting lamp control the second illuminating lamp, the 4th illuminating lamp, the 5th illuminating lamp and the 6th illuminating lamp extinguish, the first illuminating lamp and the 3rd illuminating lamp are in illuminating state, six mains switches all are in conducting state simultaneously, communication link between the first radio-frequency module and the 3rd radio-frequency module disconnects, the first radio-frequency module and the second radio-frequency module, the 4th radio-frequency module, keep communication link between the 5th radio-frequency module and the 6th radio-frequency module, at this moment needing to control other four illuminating lamps by the 3rd mains switch reopens, then need the 3rd radio-frequency module at first to set up communication link with other four radio-frequency modules, because the first radio-frequency module has served as main radio-frequency module and the second radio-frequency module, the 4th radio-frequency module, keep communication link to set up communication link between the 5th radio-frequency module and the 6th radio-frequency module, then or else the 3rd radio-frequency module can set up communication link with the first radio-frequency module, but the 3rd radio-frequency module can with the second radio-frequency module, the 4th radio-frequency module, the 5th radio-frequency module and the 6th radio-frequency module are set up communication link, at this moment the second radio-frequency module, the 4th radio-frequency module, the 5th radio-frequency module and the 6th radio-frequency module are subjected to the first mains switch and the 3rd mains switch control light on and off simultaneously.It is similar to control the method for the second illuminating lamp, the 4th illuminating lamp, the 5th illuminating lamp and the 6th illuminating lamp and embodiment 1 and embodiment 2 by the 3rd mains switch, again repeats no more.

Embodiments of the invention have only been introduced, processor disconnects continuously by obtaining mains switch/and conducting (conducting refers to conducting before interim power supply circuits do not cut off the power supply continuously) signal once controls the light on and off of other illuminating lamps, those of ordinary skill in the art according to principle of the present invention can also think to disconnecting continuously by obtaining mains switch/twice of conducting or repeatedly can control more function and the state variation of other illuminating lamps, these functions and state variation comprise the change of color, the change of brightness, disconnect continuously/twice of conducting such as mains switch, to control the brightness of illuminating lamp, mains switch disconnects continuously/conducting three times, will control the change color of illuminating lamp.Continuously twice of disconnection/conducting or repeatedly refers to that primary processor is to send any control command from radio-frequency module in twice or plural process.

It should be noted that, above embodiment is only unrestricted in order to technical scheme of the present invention to be described, although with reference to preferred embodiment the present invention is had been described in detail, those of ordinary skill in the art is to be understood that, can make amendment or be equal to replacement technical scheme of the present invention, and not breaking away from the spirit and scope of technical solution of the present invention, it all should be encompassed in the middle of the claim scope of the present invention.

Claims

1. the mains switch by an illuminating lamp is controlled the method for other illuminating lamps, it is characterized in that the method comprises:

2. the mains switch that passes through an illuminating lamp according to claim 1 is controlled the method for other illuminating lamps, it is characterized in that the method further comprises:

3. the mains switch that passes through an illuminating lamp according to claim 2 is controlled the method for other illuminating lamps, it is characterized in that the method further comprises:

4. arbitrary described mains switch that passes through an illuminating lamp is controlled the method for other illuminating lamps according to claim 1-3, it is characterized in that the method further comprises:

5. arbitrary described mains switch that passes through an illuminating lamp is controlled the method for other illuminating lamps according to claim 1-3, it is characterized in that the method further comprises:

6. the mains switch that passes through an illuminating lamp according to claim 5 is controlled the method for other illuminating lamps, it is characterized in that the method further comprises:

7. arbitrary described mains switch that passes through an illuminating lamp is controlled the method for other illuminating lamps according to claim 1-3, it is characterized in that the method further comprises:

8. the mains switch that passes through an illuminating lamp according to claim 4 is controlled the method for other illuminating lamps, it is characterized in that the method further comprises:

9. the mains switch that passes through an illuminating lamp according to claim 4 is controlled the method for other illuminating lamps, it is characterized in that the method further comprises:

10. the mains switch that passes through an illuminating lamp according to claim 9 is controlled the method for other illuminating lamps, it is characterized in that the method further comprises: