CN204929348U - Intelligence light control system - Google Patents

Abstract

The utility model provides an intelligence light control system, be used for generating the wireless control signal in when instruction of triggering of receiving the user including main control unit, wireless controller is used for stopping the state according to opening of wireless control signal control lamps and lanterns to the state information who reaches the current signal of real -time detection lamps and lanterns and correspond the current signal feeds back to main control unit, the main control unit receipt shows state information for supply the user to look over in real time. This system adopts main control unit, wireless controller and lamps and lanterns to make whole light control system visual and intelligent, and whole control process need not the wiring, and the cable of having avoided traditional wiring mode to bring is extravagant, the effectual input cost that reduces traditional wiring, simultaneously, the current signal of wireless controller real -time detection lamps and lanterns feeds back to main control unit with the state information of the lamps and lanterns that correspond, has avoided the complex process of the artifical detected signal of user, labour saving and time saving, and whole control system security is better and the maintenance efficiency later stage is higher.

Description

A kind of intelligent light control system

Technical field

The utility model relates to signal light control field, in particular to a kind of intelligent light control system.

Background technology

Light is a part indispensable in people's live and work, and along with the increasing of usage quantity of light, light is controlled to become a great problem, in order to better control light, make it meet the demand of user, need a kind of lamp light control system to carry out state of a control to light.

Traditional lamp light control system adopts wired mode, namely above-mentioned wired mode is be connected by wire between switch with controlled light fixture, and the general step applying the lamp light control system of above-mentioned wired mode is as follows: first electrician positions the purposes of electricity according to user, location be the position of switch, light fixture, socket etc.; Then according to the position of above-mentioned location and the concrete trend of circuit, wiring groove is cut; Then spool is secretly embedded in the wiring groove of above-mentioned incision; The last position again civil power being guided to control switch, installs switch, whitewashes body of wall.The signal light control process of above-mentioned lamp light control system, normally a mechanical switch controls a controlled light fixture, can realize a multiple controlled light fixture of mechanical switch control even if announce at building in the signal light control in region, are also all connections that the wired mode of employing sets up between switch and controlled light fixture; Wherein, wireline cable is preferably copper cable; In addition, user wants the current state knowing controlled light fixture, then need the artificial current signal being detected light fixture by the mode investigated one by one, in order to know the current state of light fixture.

Inventor finds under study for action, adopt wired mode touch switch to control the lamp light control system of light fixture in prior art, mainly deposit problem both ways: on the one hand, need to connect up in advance, input cost is high, complicated and the not easy-maintaining and wired mode coefficient of safety is low of construction, easily causes the phenomenons such as electric leakage; On the other hand, cannot controlling the state knowing controlled light fixture after light fixture in time, and know that the state of operation process of controlled light fixture is complicated, waste time and energy.

Utility model content

The purpose of this utility model is to provide a kind of intelligent light control system, and it controls controlled light fixture by the mode of controlled in wireless, achieves and exempts from wiring, thus reduce the cost of traditional wiring; And can also the operating state of the controlled light fixture of Real-time Feedback while controlling, avoid the complex process of user's manual detection signal, time saving and energy saving; Thus whole system fail safe better and improve the maintenance efficiency in later stage.

First aspect, the utility model embodiment provides a kind of intelligent light control system, comprising: master controller, wireless controller and light fixture;

Described master controller, for when receiving the triggering command of user, generates wireless control signal; Wherein, described wireless control signal is for triggering the start and stop state of described wireless controller;

Described wireless controller is electrically connected with civil power and described light fixture respectively, when described control system powers on, for controlling the start and stop state of described light fixture according to described wireless control signal, and detect in real time described light fixture current signal and by status information feedback corresponding for described current signal to described master controller;

Described master controller receives and shows described state information, with for user's real time inspection.

In conjunction with first aspect, the utility model embodiment provides the first possible execution mode of above-mentioned first aspect, and wherein, described wireless controller comprises:

First radio receiving transmitting module, for receiving the described wireless control signal that described master controller sends, and gives described master controller by status information feedback corresponding for the described current signal of current detection module detection;

Decoder module, is electrically connected with described first radio receiving transmitting module, decodes for the wireless control signal sent by described master controller, obtains light and drives order;

Relay control module, is electrically connected with described decoder module, for driving the start and stop state of command driven Control light fixture according to the described light received;

Described current detection module, is electrically connected with described relay control module, for detecting the current signal of described light fixture in real time, and state information corresponding for described current signal is sent to described first radio receiving transmitting module; The state information that described current signal is corresponding at least comprises: conducting and disconnection.

In conjunction with the first possible execution mode of first aspect, the utility model embodiment provides the possible execution mode of the second of above-mentioned first aspect, wherein, described wireless controller also comprises the first key-press module, the first display module, the first power module and data-interface;

Described first key-press module, for regulating the start and stop state of described wireless controller;

Described first display module is electrically connected with described first key-press module, is used to indicate the start and stop state that described wireless controller is current;

Described first power module comprises change-over circuit, and by described change-over circuit by the magnitude of voltage needed for input voltage regulation to described wireless controller, with thinking that described wireless controller is powered;

Described wireless controller is electrically connected with described light fixture, for controlling described light fixture by described data-interface.

In conjunction with the execution mode that the second of first aspect is possible, the utility model embodiment provides the third possible execution mode of above-mentioned first aspect, and wherein, described first key-press module, generates the first control command when receiving the first preset instructions; Described first control command for regulate described wireless controller and corresponding described master controller to pattern; Described first key-press module, generates the second control command when receiving the second preset instructions; Described second control command is for regulating the clear pattern of described wireless controller and corresponding described master controller; Described first preset instructions and described second preset instructions at least carry following in one or more parameter informations: user's triggering times, user's triggered time and user trigger dynamics; Described first preset instructions is different with the parameter values that described second preset instructions is carried.

In conjunction with the third possible execution mode of first aspect, the utility model embodiment provides the 4th kind of possible execution mode of above-mentioned first aspect, and wherein, described wireless controller also comprises code module and clear code module;

Described to code module according to described first control command, the address of described master controller is extracted from the control signal that described master controller sends, and by the address of the master controller prestored, the address of extracting is verified, when the result matches, for the master controller of described corresponding address distributes corresponding management light fixture, and by the result feedback that whether is allocated successfully to the master controller of corresponding address;

The address of described for the correspondence prestored in described wireless controller master controller, according to described second control command, is all removed by described clear code module.

In conjunction with first aspect, the utility model embodiment provides the 5th kind of possible execution mode of above-mentioned first aspect, wherein, described master controller comprise in following controller one or more: button controller and terminal control unit;

Described button controller, for the described light fixture of indoor control start and stop state and show the operating state of described light fixture;

Described terminal control unit, for light fixture described in Long-distance Control start and stop state and show the operating state of described light fixture.

In conjunction with the 5th kind of possible execution mode of first aspect, the utility model embodiment provides the 6th kind of possible execution mode of above-mentioned first aspect, wherein, described button controller comprises the second key-press module, the second radio receiving transmitting module, the second display module and second source module;

Described second key-press module, generates light controling signal for the key command according to user;

Described second radio receiving transmitting module is electrically connected with described second key-press module, for described light controling signal is sent to described wireless controller, and the state information that the current signal receiving described wireless controller feedback is corresponding;

Described second display module, for the operating state of the operating state and controlled light fixture that show described button controller;

Described second source module, for providing power supply for described button controller.

In conjunction with the 6th kind of possible execution mode of first aspect, the utility model embodiment provides the 7th kind of possible execution mode of above-mentioned first aspect, and wherein, described button controller also comprises control module; Described second source module comprises lithium battery and photovoltaic charged circuit;

Described lithium battery, the electricity for storing according to self is that described button controller is powered; Described photovoltaic charged circuit for being electric energy by transform light energy, and is that described button controller is powered and/or is described lithium cell charging by described electric energy;

Described control module, when detecting that current luminous intensity reaches first threshold scope, controlling described photovoltaic charged circuit and directly powering for described button controller; When detecting that luminous intensity reaches Second Threshold scope, controlling described lithium battery is that described button controller is powered; When detecting that luminous intensity reaches the 3rd threshold range, controlling described lithium battery is that described button controller is powered, and control photovoltaic charged circuit is described lithium cell charging simultaneously.

In conjunction with the 5th kind of possible execution mode of first aspect, the utility model embodiment provides the 8th kind of possible execution mode of above-mentioned first aspect, and wherein, described terminal control unit comprises intelligent terminal and wireless networking module;

Described wireless networking module, for carrying out networking by described wireless controller;

Described intelligent terminal is used for controlling corresponding described wireless controller, in order to control the start and stop state of corresponding light fixture by described networking.

In conjunction with the first possible execution mode of first aspect, first aspect to any one possible execution mode in the 8th kind of possible execution mode of first aspect, the utility model embodiment provides the 9th kind of possible execution mode of above-mentioned first aspect, wherein, a described master controller mates with multiple described wireless controller and arranges, for controlling multiple described wireless controller; Or multiple master controller mates with a described wireless controller and arranges, for controlling a described wireless controller respectively.

The intelligent light control system that the utility model embodiment provides, adopt master controller, wireless controller and light fixture to make whole lamp light control system visual and intelligent, the start and stop controlling light fixture by wireless signal and the operating state feeding back controlled light fixture realize control and the monitoring of light fixture; Be connected by wire between switch with controlled light fixture with signal light control of the prior art, the control of light is directly carried out by break-make civil power, wiring cost is high and later period maintenance efficiency is low compares, it makes master controller control wireless controller by the mode of wireless control signal, and then controls the start and stop of light fixture; Above-mentioned whole control procedure in the present embodiment, without the need to wiring, avoids the problem of the blindness of cable waste that traditional wiring mode brings and later maintenance, effectively reduces the input cost of traditional wiring; And in above-mentioned control procedure, wireless controller also detects the current signal of light fixture in real time and by the status information feedback of the light fixture of correspondence to master controller, avoids the complex process of user's manual detection signal, time saving and energy saving; Above-mentioned whole control system fail safe better and improve the maintenance efficiency in later stage.

For making above-mentioned purpose of the present utility model, feature and advantage become apparent, preferred embodiment cited below particularly, and coordinate appended accompanying drawing, be described in detail below.

Accompanying drawing explanation

In order to be illustrated more clearly in the technical scheme of the utility model embodiment, be briefly described to the accompanying drawing used required in embodiment below, be to be understood that, the following drawings illustrate only some embodiment of the present utility model, therefore the restriction to scope should be counted as, for those of ordinary skill in the art, under the prerequisite not paying creative work, other relevant accompanying drawings can also be obtained according to these accompanying drawings.

Fig. 1 shows the structural representation of a kind of intelligent light control system that the utility model embodiment provides;

Fig. 2 shows the design principle figure of wireless controller in a kind of intelligent light control system that the utility model embodiment provides;

Fig. 3 shows the design principle figure of change-over circuit in a kind of intelligent light control system that the utility model embodiment provides;

Fig. 4 shows the design principle figure of button controller in a kind of intelligent light control system that the utility model embodiment provides;

Fig. 5 shows the design principle figure of second source module in a kind of intelligent light control system that the utility model embodiment provides;

Fig. 6 shows the design principle figure of terminal control unit in a kind of intelligent light control system that the utility model embodiment provides;

Main element symbol description in figure:

11, master controller; 21, wireless controller (wherein, 21a, wireless controller; 21b, wireless controller; 21n, wireless controller); 31, light fixture; 41, button controller; 51, terminal control unit; 210, the first radio receiving transmitting module; 211, decoder module; 212, relay control module; 213, current detection module; 214, the first key-press module; 215, the first display module; 216, the first power module; 217, data-interface; 218, to code module; 219, clear code module; 411, the second key-press module; 412, the second radio receiving transmitting module; 413, the second display module; 414, second source module; 415, control module; 511, wireless networking module; 512, intelligent terminal; 4141, photovoltaic charged circuit; 4142, lithium battery; 2161, change-over circuit; 21611, input module; 21612, full-bridge rectification module; 21613, Voltage stabilizing module; 21614, output module.

Embodiment

Below in conjunction with accompanying drawing in the utility model embodiment, be clearly and completely described the technical scheme in the utility model embodiment, obviously, described embodiment is only the utility model part embodiment, instead of whole embodiments.The assembly of the utility model embodiment describing and illustrate in usual accompanying drawing herein can be arranged with various different configuration and design.Therefore, below to the detailed description of the embodiment of the present utility model provided in the accompanying drawings and the claimed scope of the present utility model of not intended to be limiting, but selected embodiment of the present utility model is only represented.Based on embodiment of the present utility model, the every other embodiment that those skilled in the art obtain under the prerequisite not making creative work, all belongs to the scope of the utility model protection.

Consider the conventional lights light control method of correlation technique, the method for dependence wiring and artificial investigation fault, causes the cost efficiency that is higher, later maintenance of wiring lower.Based on this, the utility model embodiment provides a kind of intelligent light control system, whole control procedure is without the need to wiring, and feed back the operating state of controlled light fixture, avoid the cable waste of traditional wiring and the blindness of later maintenance, thus not only reduce the high cost of traditional wiring, and improve the fail safe of signal light control and the efficiency of later maintenance.

A kind of intelligent light control system concrete structure that the utility model provides is as follows:

See Fig. 1, the utility model embodiment provides a kind of intelligent light control system.This system specifically comprises: master controller 11, wireless controller 21 and light fixture 31; Master controller 11, for when receiving the triggering command of user, generates wireless control signal; Wherein, above-mentioned wireless control signal is for triggering the start and stop state of wireless controller 21;

Wireless controller 21 is electrically connected with civil power and light fixture 31 respectively, when control system powers on, for controlling the start and stop state of light fixture 31 according to wireless control signal, and detect in real time light fixture 31 current signal and by status information feedback corresponding for this signal to master controller 11;

Master controller 11 receives and shows above-mentioned state information, with for user's real time inspection.

The intelligent light control system that the utility model embodiment provides, adopt master controller 11, wireless controller 21 and light fixture 31 to make whole lamp light control system visual and intelligent, the start and stop controlling light fixture 31 by wireless signal and the operating state feeding back controlled light fixture 31 realize control and the monitoring of light fixture 31; Be connected by wire between switch with controlled light fixture 31 with signal light control of the prior art, the control of light is directly carried out by break-make civil power, wiring cost is high and later period maintenance efficiency is low compares, it makes master controller 11 control wireless controller 21 by the mode of wireless control signal, and then controls the start and stop of light fixture 31; Above-mentioned whole control procedure in the present embodiment, without the need to wiring, avoids the problem of the blindness of cable waste that traditional wiring mode brings and later maintenance, effectively reduces the input cost of traditional wiring; And in above-mentioned control procedure, wireless controller 21 also detects the current signal of light fixture 31 in real time and by the status information feedback of the light fixture 31 of correspondence to master controller 11, avoids the complex process of user's manual detection signal, time saving and energy saving; Above-mentioned whole control system fail safe better and improve the maintenance efficiency in later stage.

Concrete, it can be the triggering of user to physical button that master controller 11 generates above-mentioned triggering command corresponding to wireless control signal, also can be the triggering of user to the touch-screen button of terminal; And the effect of above-mentioned wireless controller 21 controls corresponding light fixture 31, wireless control signal can control the start and stop state of wireless controller 21, this start and stop state comprises: wireless controller 21 starts, stop with the light fixture 31 and wireless controller 21 that controlling correspondence, stop the control of the light fixture 31 to correspondence.

In order to mate the wireless control signal receiving master controller 11 and send, the rounded structure of wireless controller 21 described in the intelligent light control system that the present embodiment provides, volume low power consumption is low; This wireless controller 21 needs one end to be connected on civil power in use, and the other end is connected on light fixture 31 by data-interface 217 and arranges.Wherein, this wireless controller 21 can be arranged on the optional position between civil power and light fixture 31, and the utility model does not do concrete restriction to this.

In the present embodiment, in order to receive more efficiently and accurately the wireless control signal that master controller 11 sends, preferably wireless controller 21 is arranged on the position matched with master controller 11.It should be noted that, the implication that wireless controller 21 and master controller 11 match is as follows: in the process of signal light control, both wireless controller 21 and master controller 11 are oppositely arranged, and the distance of penetrating of master controller 11 transmitting/receiving wireless signal drops on penetrating apart from inner of wireless controller 21 transmitting/receiving wireless signal.In addition, see Fig. 1, the wireless controller 21 matched with master controller 11 has n, and the utility model logarithm value n does not do concrete restriction.

In addition, the wireless control signal that above-mentioned wireless controller 21 can also send according to master controller 11, detects in real time the current signal of light fixture 31, and current signal is herein by the having of the electric current of light fixture 31, nothing; If wireless controller 21 detects this current signal, then wireless controller 21 generates the feedback information that light fixture 31 normally lights, and feeds back to master controller 11; If wireless controller 21 does not detect this current signal (namely current signal is nothing), then wireless controller 21 generates the not bright feedback information of light fixture 31, and feeds back to master controller 11.Store and show by above-mentioned two information of controller to feedback, to present to user in real time.

Consider that user wants to check that the state of light fixture 31 is to check whether this light fixture 31 breaks down, wireless controller 21 described in native system is except the above-mentioned state information of real-time reception, also above-mentioned state information is shown in real time, object is to state information be showed intuitively, for supplying user's real time inspection.

It should be noted that, above-mentioned master controller 11 can directly control wireless controller 21, be now that background server in intelligent light control system has carried out the configuration of agreement to master controller 11 and wireless controller 21 in advance, make master controller 11 and wireless controller 21 directly can carry out data communication; In addition, above-mentioned master controller 11 also can be controlled wireless controller 21 by background server, accesses background server to control wireless controller 21 or master controller 11 accesses network corresponding to background server and controls wireless controller 21 as master controller 11.

Further, in above-mentioned intelligent light control system, see Fig. 2, wireless controller 21 mainly comprises: the first radio receiving transmitting module 210, decoder module 211, relay control module 212 and current detection module 213 4 devices; Wherein,

First radio receiving transmitting module 210, for receiving the wireless control signal that master controller 11 sends, and status information feedback corresponding to the current signal detected by current detection module 213 is to master controller 11; Decoder module 211, is electrically connected with above-mentioned first radio receiving transmitting module 210, decodes for the wireless control signal sent by master controller 11, obtains light and drives order; Relay control module 212, is electrically connected with above-mentioned decoder module 211, for driving the start and stop state of command driven Control light fixture 31 according to the light received; Current detection module 213, is electrically connected with above-mentioned relay control module 212, for detecting the current signal of light fixture 31 in real time, and state information corresponding for current signal is sent to the first radio receiving transmitting module 210.

First, first radio receiving transmitting module 210 is core components of wireless controller 21, while this transceiver module receives the wireless control signal that sends of master controller 11, status information feedback corresponding to the current signal also detected by current detection module 213 is to master controller 11.

Secondly, consider that the specifying information representated by wireless control signal that the first radio receiving transmitting module 210 receives is unknowable, in native system by decoder module 211 to this wireless control signal received carry out decoding process, obtain light and drive order, in order to be restored by the effective information comprised in wireless control signal.

Again, in order to better control the start and stop of controlled light fixture 31, controlled by the state of relay control module 212 pairs of light fixtures 31 in the present embodiment, this relay control module 212 comprises relay, the driving order that relay control module 212 obtains according to above-mentioned decoding, drive the switch of the relay switch operating connecting and disconnecting of the circuit himself comprised, to realize the start and stop state of automatic control lamp tool 31.

Finally, in the application is the operating state being detected controlled light fixture 31 by stream detection module, this current detection module 213 can be connected with above-mentioned relay control module 212, and a similar ammeter is connected in parallel on the two ends of switch, and it can detect the current signal of light fixture 31 in real time; Current signal is herein by the having of the electric current of light fixture 31, nothing; If this current signal detected, then generate the feedback information that light fixture 31 normally lights; If this current signal (namely current signal is nothing) do not detected, then generate the not bright feedback information of light fixture 31; Simultaneously, state information corresponding for the above-mentioned two kinds of current signals generated is sent to the first radio receiving transmitting module 210 by this current detection module 213, by the first radio receiving transmitting module 210 by above-mentioned status information feedback to master controller 11, by the state for user's real time inspection light fixture 31, by this kind of mode, user can the light fixture 31 of Timeliness coverage fault, and avoids the complex process that user avoids user's manual detection signal, time saving and energy saving.In addition, master controller 11 can be built-in with alarm, and when light fixture 31 is when breaking down, it controls this alarm and sends alarm signal.

It is pointed out that the demand in order to meet different user, in wireless controller 21, the first radio receiving transmitting module 210 carries out receiving and transmitting signal preferably by following frequency range, and wherein, above-mentioned frequency range can be: 315Mhz, 433Mhz or 2.4Ghz; Due to, master controller 11 and the setting of wireless controller 21 for matching, therefore master controller 11 carries out receiving and transmitting signal preferably by above-mentioned frequency range equally.

Further, in order to better control light fixture 31 and coordinate master controller 11 to carry out initialization, in above-mentioned intelligent light control system, wireless controller 21 also comprises four devices such as the first key-press module 214, first display module 215, first power module 216 and data-interface 217, see Fig. 2, wherein

First key-press module 214, for regulating the start and stop state of wireless controller 21; First display module 215 is electrically connected with the first key-press module 214, is used to indicate the start and stop state that wireless controller 21 is current; First power module 216 comprises change-over circuit 2161, and by this change-over circuit 2161 by the magnitude of voltage needed for input voltage regulation to wireless controller 21, with thinking that wireless controller 21 is powered; Wireless controller 21 comprises data-interface 217, and is electrically connected with light fixture 31 by wireless controller 21 by data-interface 217, for realizing the transfer of data between wireless controller 21 and light fixture 31.

Above-mentioned first display module 215 can be indicator light, also can be display screen; Be described for indicator light in the present embodiment; Concrete, the first key-press module 214 and the first display module 215 cooperatively interact, and are responded the triggering situation of the first key-press module 214 by the first display module 215, as user trigger first time above-mentioned first key-press module 214 time, above-mentioned indicator light is bright or go out; User's second time is when triggering above-mentioned first key-press module 214, and above-mentioned indicator light correspondence is gone out or bright, and said process illustrates that this wireless controller 21 normally works.

Consider that the voltage of electric main cannot directly be applied in this wireless controller 21, need to change the electric main of input, a change-over circuit 2161 is also comprised in above-mentioned wireless controller 21, see Fig. 3, high input voltage (line voltage namely inputted) can be adjusted to the low-voltage needed for wireless controller 21 by this change-over circuit 2161.Concrete, above-mentioned change-over circuit 2161 specifically comprises input module 21611, full-bridge rectification module 21612, Voltage stabilizing module 21613 and output module 21,614 four Primary Components.Wherein, input module 21611 is connected with civil power, as the input of change-over circuit 2161; Full-bridge rectification module 21612 is electrically connected with input module 21611, for being direct current signal by commercial power rectification; Voltage stabilizing module 21613 is electrically connected with full-bridge rectification module 21612, for stablizing the voltage of described direct current signal; Output module 21614 is electrically connected with Voltage stabilizing module 21613, for being that wireless controller 21 is powered by the DC signal output after stable.

Be worth proposing, by change-over circuit 2161, the first power module 216 can directly be electrically connected with each functional module in wireless controller 21 respectively, with thinking that independent functional module is powered; Also can with the arbitrary functional module electrical connection in wireless controller 21 with thinking that wireless controller 21 is powered.Wherein, about the concrete connected mode between the first power module 216 and functional module, the utility model does not do concrete restriction to this.

Further, the first key-press module 214 in the intelligent light control system that the present embodiment provides can generate the first control command when receiving the first preset instructions, can also generate the second control command when receiving the second preset instructions.Wherein, the first control command for regulate between wireless controller 21 and corresponding master controller 11 to pattern, the second control command is for regulating the clear pattern between wireless controller 21 and corresponding master controller 11; First preset instructions and the second preset instructions can carry following parameter information: user's triggering times, user's triggered time and user trigger the combined information that dynamics also can carry above parameter information, meanwhile, above-mentioned first preset instructions is different with the parameter values that the second preset instructions is carried.

Concrete, above-mentioned parameter information can only include user's triggering times, e.g., when the number of times that user triggers the first key-press module 214 falls into continuous print 3 times to 5 times, starts pattern; When the number of times that user triggers the first key-press module 214 falls into continuous print more than 5 times, start clear pattern.Above-mentioned parameter information can also only include user's triggered time, e.g., when the time that user triggers the first key-press module 214 is between 3 seconds to 5 seconds, starts pattern; When the time that user triggers the first key-press module 214 is more than 5 seconds, start clear pattern.Same, it is that user triggers dynamics that above-mentioned parameter information can also only include, and by being built in the dynamics of the pressure sensor measurement triggering of the first key-press module 214, when dynamics is the first dynamics threshold value, starts pattern; When dynamics is the second dynamics threshold value, start clear pattern.Wherein, above-mentioned first dynamics threshold value and the second dynamics threshold value can be arranged as required, and the utility model does not do concrete restriction to this.

In addition, the combination of above-mentioned parameter information can also be user's triggering times, user's triggered time and user trigger dynamics both or three arbitrarily, as when user's triggered time is shorter and the dynamics of triggering is lighter startup to pattern; Clear pattern etc. is started when user's departure time is longer and triggering dynamics is heavier.

Further, in order to better carry out the initialization of wireless controller 21, see Fig. 2, above-mentioned wireless controller 21 also comprises code module 218 and clear code module 219; Wherein, to code module 218 according to above-mentioned first control command, the address of master controller 11 is extracted from the control signal that master controller 11 sends, and by the address of the master controller 11 prestored, the address of extracting is verified, when the result matches, master controller 11 for corresponding address distributes corresponding management light fixture 31, and by the result feedback that whether is allocated successfully to the master controller 11 of corresponding address; Clear code module 219 is according to the second control command, is all removed the address of described for the correspondence prestored in wireless controller 21 master controller 11.

Concrete, communication protocol is had owing to reaching in advance between master controller 11 and wireless controller 21, namely after wireless controller 21 receives the control signal of master controller 11 transmission, distribute control task, meanwhile, master controller 11 directly receives according to above-mentioned communication protocol the signal that corresponding wireless controller 21 feeds back.The address of the master controller 11 prestored in above-mentioned wireless controller 21 with start in process that the address of extracting after pattern is verified, when the result matches, master controller 11 for corresponding address distributes corresponding management light fixture 31, and by the result feedback that whether is allocated successfully to the master controller 11 of corresponding address.

Preferably, in order to improve, efficiency is set, user can retain when rearranging and controlling light the corresponding address stored, and only need upgrade the address stored without the address stored or deletion, therefore above-mentioned wireless controller 21 can also comprise a selection module.Concrete, the first key-press module 214 can also generate the 3rd control command what receive that user sends to during code selection instruction, and the first key-press module 214 can also generate the 4th control command when receiving the clear code selection instruction that user sends; Wherein, the 3rd control command and the 4th control command are for regulating the selection module between wireless controller 21 and corresponding master controller 11.When user wants to add code address, controlled the address selecting model choice corresponding by the 3rd control command, thus control to carry out code according to the address selected code module 218; When user wants to delete code address, control to select address corresponding to model choice by the 4th control command, thus control clear code module 219 clear code process is realized to the address selected.

Consider the different scenes of signal light control, the master controller 11 that the present embodiment provides can be button controller 41, also can be terminal control unit 51.Wherein, button controller 41 is supporting with wireless controller 21, for closely indoor control light fixture 31 start and stop state and show the operating state of light fixture 31; Terminal control unit 51 is supporting with wireless controller 21, for remote Long-distance Control light fixture 31 start and stop state and show the operating state of described light fixture 31.In embody rule, button controller 41 can be used in interior decoration, and terminal control unit 51 can be used for building and controls.

Further, in the system that the present embodiment provides, see Fig. 4, button controller 41 mainly comprises the second key-press module 411, second radio receiving transmitting module 412, second display module 413 and second source module 414 4 devices; Wherein, the second key-press module 411, generates light controling signal for the key command according to user; Second radio receiving transmitting module 412 is electrically connected with the second key-press module 411, for light controling signal being sent to described wireless controller 21, and the state information that the current signal receiving described wireless controller 21 feedback is corresponding; Second display module 413, for the operating state of display button controller 41 and the operating state of controlled light fixture 31; Second source module 414, for providing power supply for button controller 41.Above-mentioned second display module 413 can be indicator light, also can be display screen.

Concrete, above-mentioned button controller 41 presents with the form of physical button, with traditional physical switches directly closed with cut off the unsafe factor that the connected circuit of civil power brings and compare, this button controller 41 is sensitive switch and is not directly connected with civil power, makes the process safety of signal light control higher.

Meanwhile, above-mentioned button controller 41 also comprises second source module 414, and see Fig. 5, this second source module 414 comprises lithium battery 4142 and photovoltaic charged circuit 4141, wherein, lithium battery 4142 is that button controller 41 is powered for the electricity stored according to self; Photovoltaic charged circuit 4141 for being electric energy by transform light energy, and is that above-mentioned button controller 41 is powered and/or charges for described lithium battery 4142 by electric energy.

Concrete, in order to the more effective electricity utilized in lithium battery 4142 and photovoltaic charged circuit 4141, the intelligent light control system that the present embodiment provides also comprises control module 415, when detecting that current luminous intensity reaches first threshold scope (as more than 50LUX), controlling photovoltaic charged circuit 4141 and directly powering for button controller 41; When detecting that luminous intensity reaches Second Threshold scope (as below 20LUX), controlling lithium battery 4142 and powering for button controller 41; When detecting that luminous intensity reaches the 3rd threshold range (as 20LUX-50LUX), controlling lithium battery 4142 and powering for button controller 41, controlling photovoltaic charged circuit 4141 simultaneously and charge for lithium battery 4142;

Concrete, controlling second source module 414 in control module 415 is in the process of button controller 41 power supply, is first detected light intensity by photo-resistor, and controls whole power supply process according to the luminous intensity size detected.Preferably, when indoor illumination is very sufficient, the illumination that photovoltaic charged circuit 4141 Absorbable rod is enough, when now photo-resistor measures luminous intensity size higher than 200LUX, controls photovoltaic charged circuit 4141 and directly powers for button controller 41; When indoor illumination is very not enough, photovoltaic charged circuit 4141 can not absorb luminous energy, and when now photo-resistor measures luminous intensity size lower than 20LUX, the electricity controlling lithium battery 4142 storage is that button controller 41 is powered; When the luminous intensity size that above-mentioned photo-resistor detects is between 20LUX and 200LUX, controls lithium battery 4142 and power for button controller 41, control photovoltaic charged circuit 4141 simultaneously and charge for lithium battery 4142.Above-mentioned process of combining power supply makes whole button controller 41 low in energy consumption, photovoltaic charged and does not rely on power supply.

Be worth proposing, above-mentioned second source module 414 can directly be electrically connected with each functional module in button controller 41 equally respectively, with thinking that independent functional module is powered; Also can with the arbitrary functional module electrical connection in button controller 41 with thinking that button controller 41 is powered.Wherein, about the concrete connected mode between second source module 414 and functional module, the utility model does not do concrete restriction to this.

Further, the system that the present embodiment provides, see Fig. 6, terminal control unit 51 mainly comprises intelligent terminal 512 and wireless networking module 511 two devices, and wherein, wireless networking module 511, for carrying out networking by wireless controller 21; Intelligent terminal 512 is for controlling corresponding wireless controller 21, in order to control the start and stop state of corresponding light fixture 31 by networking.

Concrete, wireless controller 21 is carried out networking by the 3rd radio receiving transmitting module that wireless networking module 511 is comprised by self; Intelligent terminal 512 directly can access above-mentioned networking (as directly accessed the WIFI signal that wireless networking module 511 discharges) in order to control corresponding wireless controller 21; Or, intelligent terminal 512 can by the background server of 2G, 3G, 4G or 5G access to netwoks wireless networking module 511 correspondence of connection, in order to control corresponding wireless controller 21, in order to control the start and stop of light fixture 31 further, simultaneously, the operating state of controlled light fixture 31 can be fed back to intelligent terminal 512 by wireless networking module 511, so that intelligent terminal 512 shows the operating state of controlled light fixture 31.

Be worth proposing, above-mentioned intelligent terminal 512 can be the electronic equipment that computer, smart mobile phone and panel computer etc. have interface management and button triggering wireless signal function.

Further, in the system that the present embodiment provides, a described master controller 11 mates with multiple described wireless controller 21 and arranges, for controlling multiple wireless controller 21 (namely a master controller 11 can control multiple wireless controller 21) simultaneously; Or multiple master controller 11 mates with a wireless controller 21 and arranges, for controlling an above-mentioned wireless controller 21 (namely a wireless controller 21 can by the control of multiple master controller 11) respectively.

Concrete, be the relation of multi-to-multi between wireless controller 21 and master controller 11, achieve one by the function of the multiple light fixture 31 of key control, greatly meet the demand of user.

In addition, the intelligent light control system that the present embodiment provides also comprises monitor terminal, and this monitor terminal is connected with server, for monitoring the state of whole intelligent light control system in real time, and when there is unusual condition, generating alarm signal, checking in order to point out staff.

The intelligent light control system that the utility model embodiment provides, adopt master controller 11, wireless controller 21 and light fixture 31 to make whole lamp light control system visual and intelligent, the start and stop controlling light fixture 31 by wireless signal and the operating state feeding back controlled light fixture 31 realize control and the monitoring of light fixture 31; Be connected by wire between switch with controlled light fixture 31 with signal light control of the prior art, the control of light is directly carried out by break-make civil power, wiring cost is high and later period maintenance efficiency is low compares, it makes master controller 11 control wireless controller 21 by the mode of wireless control signal, and then controls the start and stop of light fixture 31; Above-mentioned whole control procedure in the present embodiment, without the need to wiring, avoids the problem of the blindness of cable waste that traditional wiring mode brings and later maintenance, effectively reduces the input cost of traditional wiring; And in above-mentioned control procedure, wireless controller 21 also detects the current signal of light fixture 31 in real time and by the status information feedback of the light fixture 31 of correspondence to master controller 11, avoids the complex process of user's manual detection signal, time saving and energy saving; Above-mentioned whole control system fail safe better and improve the maintenance efficiency in later stage.

In addition, the intelligent light control system that the utility model embodiment provides can also be applied in building construction, and site operation exempts from wiring, need not consider light cabling and wiring, quick and convenient, reduces cost that the is artificial and time; Control for building public domain part also no longer needs to connect up between public domain and Master Control Room, but by the wireless public illumination equipment freely controlling whole building.

In several embodiments that the application provides, should be understood that disclosed system, apparatus and method can realize by another way.Device embodiment described above is only schematic, such as, the division of described unit, be only a kind of logic function to divide, actual can have other dividing mode when realizing, again such as, multiple unit or assembly can in conjunction with or another system can be integrated into, or some features can be ignored, or do not perform.Another point, shown or discussed coupling each other or direct-coupling or communication connection can be by some communication interfaces, and the indirect coupling of device or unit or communication connection can be electrical, machinery or other form.

The described unit illustrated as separating component or can may not be and physically separates, and the parts as unit display can be or may not be physical location, namely can be positioned at a place, or also can be distributed in multiple network element.Some or all of unit wherein can be selected according to the actual needs to realize the object of the present embodiment scheme.

In addition, each functional unit in each embodiment of the utility model can be integrated in a processing unit, also can be that the independent physics of unit exists, also can two or more unit in a unit integrated.

If described function using the form of SFU software functional unit realize and as independently production marketing or use time, can be stored in a computer read/write memory medium.Based on such understanding, the part of the part that the technical solution of the utility model contributes to prior art in essence in other words or this technical scheme can embody with the form of software product, this computer software product is stored in a storage medium, comprising some instructions in order to make a computer equipment (can be personal computer, server, or the network equipment etc.) perform all or part of step of method described in each embodiment of the utility model.And aforesaid storage medium comprises: USB flash disk, portable hard drive, read-only memory (ROM, Read-OnlyMemory), random access memory (RAM, RandomAccessMemory), magnetic disc or CD etc. various can be program code stored medium.

The above; be only embodiment of the present 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; change can be expected easily or replace, all should be encompassed within protection range of the present utility model.Therefore, protection range of the present utility model should be as the criterion with the protection range of described claim.

Claims (10)

1. an intelligent light control system, is characterized in that, comprising: master controller, wireless controller and light fixture;

Described master controller, for when receiving the triggering command of user, generates wireless control signal; Wherein, described wireless control signal is for triggering the start and stop state of described wireless controller;

Described wireless controller is electrically connected with civil power and described light fixture respectively, when described control system powers on, for controlling the start and stop state of described light fixture according to described wireless control signal, and detect in real time described light fixture current signal and by status information feedback corresponding for described current signal to described master controller;

Described master controller receives and shows described state information, with for user's real time inspection.

2. intelligent light control system according to claim 1, is characterized in that, described wireless controller comprises:

First radio receiving transmitting module, for receiving the described wireless control signal that described master controller sends, and gives described master controller by status information feedback corresponding for the described current signal of current detection module detection;

Decoder module, is electrically connected with described first radio receiving transmitting module, decodes for the wireless control signal sent by described master controller, obtains light and drives order;

Relay control module, is electrically connected with described decoder module, for driving the start and stop state of command driven Control light fixture according to the described light received;

Described current detection module, is electrically connected with described relay control module, for detecting the current signal of described light fixture in real time, and state information corresponding for described current signal is sent to described first radio receiving transmitting module; The state information that described current signal is corresponding at least comprises: conducting and disconnection.

3. intelligent light control system according to claim 2, is characterized in that, described wireless controller also comprises the first key-press module, the first display module, the first power module and data-interface;

Described first key-press module, for regulating the start and stop state of described wireless controller;

Described first display module is electrically connected with described first key-press module, is used to indicate the start and stop state that described wireless controller is current;

Described first power module comprises change-over circuit, and by described change-over circuit by the magnitude of voltage needed for input voltage regulation to described wireless controller, with thinking that described wireless controller is powered;

Described wireless controller is electrically connected with described light fixture, for controlling described light fixture by described data-interface.

4. intelligent light control system according to claim 3, is characterized in that, described first key-press module, generates the first control command when receiving the first preset instructions; Described first control command for regulate described wireless controller and corresponding described master controller to pattern; Described first key-press module, generates the second control command when receiving the second preset instructions; Described second control command is for regulating the clear pattern of described wireless controller and corresponding described master controller; Described first preset instructions and described second preset instructions at least carry following in one or more parameter informations: user's triggering times, user's triggered time and user trigger dynamics; Described first preset instructions is different with the parameter values that described second preset instructions is carried.

5. intelligent light control system according to claim 4, is characterized in that, described wireless controller also comprises code module and clear code module;

Described to code module according to described first control command, the address of described master controller is extracted from the control signal that described master controller sends, and by the address of the master controller prestored, the address of extracting is verified, when the result matches, for the master controller of corresponding address distributes corresponding management light fixture, and by the result feedback that whether is allocated successfully to the master controller of corresponding address;

The address of described for the correspondence prestored in described wireless controller master controller, according to described second control command, is all removed by described clear code module.

6. intelligent light control system according to claim 1, is characterized in that, described master controller comprise in following controller one or more: button controller and terminal control unit;

Described button controller, for the described light fixture of indoor control start and stop state and show the operating state of described light fixture;

Described terminal control unit, for light fixture described in Long-distance Control start and stop state and show the operating state of described light fixture.

7. intelligent light control system according to claim 6, is characterized in that, described button controller comprises the second key-press module, the second radio receiving transmitting module, the second display module and second source module;

Described second key-press module, generates light controling signal for the key command according to user;

Described second radio receiving transmitting module is electrically connected with described second key-press module, for described light controling signal is sent to described wireless controller, and the state information that the current signal receiving described wireless controller feedback is corresponding;

Described second display module, for the operating state of the operating state and controlled light fixture that show described button controller;

Described second source module, for providing power supply for described button controller.

8. intelligent light control system according to claim 7, is characterized in that, described button controller also comprises control module; Described second source module comprises lithium battery and photovoltaic charged circuit;

Described lithium battery, the electricity for storing according to self is that described button controller is powered; Described photovoltaic charged circuit for being electric energy by transform light energy, and is that described button controller is powered and/or is described lithium cell charging by described electric energy;

Described control module, when detecting that current luminous intensity reaches first threshold scope, controlling described photovoltaic charged circuit and directly powering for described button controller; When detecting that luminous intensity reaches Second Threshold scope, controlling described lithium battery is that described button controller is powered; When detecting that luminous intensity reaches the 3rd threshold range, controlling described lithium battery is that described button controller is powered, and control photovoltaic charged circuit is described lithium cell charging simultaneously.

9. intelligent light control system according to claim 6, is characterized in that, described terminal control unit comprises intelligent terminal and wireless networking module;

Described wireless networking module, for carrying out networking by described wireless controller; Described intelligent terminal is used for controlling corresponding described wireless controller, in order to control the start and stop state of corresponding light fixture by described networking.

10. the intelligent light control system according to claim 1-9 any one, is characterized in that, a described master controller mates with multiple described wireless controller and arranges, for controlling multiple described wireless controller; Or multiple master controller mates with a described wireless controller and arranges, for controlling a described wireless controller respectively.