A kind of wireless acoustics Lighting Control Assembly
Technical field
The utility model relates to sonoluminescence field, especially relates to a kind of wireless acoustics Lighting Control Assembly.
Background technology
Sound equipment lamp has been played the part of key player in modern people's entertainment life, in nightclub, coffee shop, dance hall and high-grade hotel, family etc., all there are various sound equipments at present, these sound equipment lamps are arranged in diverse location, to form around three-dimensional effect, allow guest enjoy excellent melody.
At present, sonoluminescence control system adopts wired mode transmission of analogue signal or the digital signal based on 100MB/s Internet mostly.Wired mode wiring is complicated, maintenance difficulties is large, cost is high, and, in analog signal transmission process, unavoidably can there is decay and easily be disturbed; Digital data transmission based on serial modes such as 100MB/s Internet, RS485 is because bandwidth problem inevitably there will be signal jam situation.
Utility model content
The technical problems to be solved in the utility model is, for the above-mentioned defect of prior art, provide a kind of flexible for installation, simple wireless acoustics Lighting Control Assembly connects up.
The utility model solves the technical scheme that its technical problem adopts: construct a kind of wireless acoustics Lighting Control Assembly, comprise at least one sonoluminescence subsystem, described sonoluminescence subsystem comprises LED lamp group and loud speaker, described wireless acoustics Lighting Control Assembly also comprises center control platform, and described center control platform comprises:
For receiving the input module of the brightness of illumination of user's input and/or the audio signal waiting for transmission of colour temperature conditioning signal and user's selection;
Be connected in described input module, and the first processing module of processing for brightness of illumination that described input module is received and/or colour temperature conditioning signal and audio signal;
Be connected in described the first processing module, and for the brightness of illumination after processing and/or colour temperature conditioning signal and audio signal being sent to a WIFI module of described sonoluminescence subsystem;
Described sonoluminescence subsystem also comprises:
For receiving brightness of illumination that described center control platform sends and/or the 2nd WIFI module of colour temperature conditioning signal and audio signal;
Be connected in described the 2nd WIFI module, and the second processing module of processing for the brightness of illumination to received and/or colour temperature conditioning signal and audio signal;
Be connected in described the second processing module, and luminous accordingly for driving described LED lamp group to carry out according to the brightness of illumination after processing and/or colour temperature conditioning signal, and according to loud speaker described in the audio-signal-driven after processing, play the driver module of corresponding audio frequency.
In wireless acoustics Lighting Control Assembly described in the utility model, described center control platform also comprises:
Be connected in described the first processing module, and the display module of the monitoring information feeding back for displaying sound illumination subsystems.
In wireless acoustics Lighting Control Assembly described in the utility model, described center control platform also comprises:
Be connected in described the first processing module, and for brightness of illumination and/or colour temperature conditioning signal after processing are sent to the infrared transmission module of described sonoluminescence subsystem by infrared mode;
Described sonoluminescence subsystem also comprises:
Be connected in described the second processing module, and for receive the infrared receiving module of brightness of illumination and/or colour temperature conditioning signal by infrared mode.
In wireless acoustics Lighting Control Assembly described in the utility model, described center control platform also comprises:
Be connected in described the first processing module, and for accessing the SD draw-in groove of SD card.
In wireless acoustics Lighting Control Assembly described in the utility model, described center control platform also comprises:
Be connected in described the first processing module, and the USB interface for being connected by usb data line with external equipment.
In wireless acoustics Lighting Control Assembly described in the utility model, described center control platform also comprises:
Be connected in described the first processing module, and for inputting the audio input interface of audio frequency.
In wireless acoustics Lighting Control Assembly described in the utility model, described center control platform also comprises:
Be connected in described the first processing module, and for receiving the frequency modulation(FM) module of radio signals.
In wireless acoustics Lighting Control Assembly described in the utility model, described sonoluminescence subsystem also comprises:
Be connected in described the second processing module, and for receiving the switch module of the switching signal of user's input.
Implement the technical solution of the utility model, between center control platform and at least one sonoluminescence subsystem, adopt WIFI form to be connected, flexible for installation, can effectively solve the problem that wiring is complicated, maintenance difficulties is large, cost is high, and, also can avoid the situation of the signal jam that occurs due to bandwidth problem.
Accompanying drawing explanation
Below in conjunction with drawings and Examples, the utility model is described in further detail, in accompanying drawing:
Fig. 1 is the logic diagram of the utility model wireless acoustics Lighting Control Assembly embodiment mono-;
Fig. 2 is the logic diagram of the utility model wireless acoustics Lighting Control Assembly embodiment bis-;
Fig. 3 is the circuit diagram of sound equipment illumination subsystems embodiment mono-in the utility model wireless acoustics Lighting Control Assembly;
Fig. 4 is the flow chart of the utility model wireless acoustics illumination control method embodiment mono-;
Fig. 5 is the flow chart of the utility model wireless acoustics illumination control method embodiment bis-.
Embodiment
Fig. 1 is the logic diagram of the utility model wireless acoustics Lighting Control Assembly embodiment mono-, this wireless acoustics Lighting Control Assembly comprises center control platform 10 and sonoluminescence subsystem 20, at this, it should be noted that, although only show a sonoluminescence subsystem in figure, but the utility model does not limit the quantity of sonoluminescence subsystem, that is, center control platform can be one to one or one-to-many ground control one or more sonoluminescence subsystems.User can be according to the sonoluminescence subsystem of application scenario and actual needs selection suitable quantity.In this wireless acoustics Lighting Control Assembly, center control platform 10 comprises a WIFI module 11, the first processing module 12 and input module 13, and sonoluminescence subsystem 20 comprises the 2nd WIFI module 21, the second processing module 22, driver module 23, LED lamp group 24 and loud speaker 25.Wherein, center control platform 10 accesses same local network by WIFI first respectively with sonoluminescence subsystem 20, at this, it should be noted that, center control platform 10 can be passed through PC, panel computer or smart mobile phone access network.Then, input module 13 is for receiving brightness of illumination and/or colour temperature conditioning signal and the user-selected audio signal waiting for transmission of user's input, and this input module 13 is for example keyboard; The first processing module 12 is processed for brightness of illumination that input module 13 is received and/or colour temperature conditioning signal and audio signal; The one WIFI module 11 is under the control in the first processing module 12, and the brightness of illumination after processing and/or colour temperature conditioning signal and audio signal are sent to sonoluminescence subsystem 20; The 2nd WIFI module 21 is under the control in the second processing module 22, and receiving center is controlled brightness of illumination and/or colour temperature conditioning signal and the audio signal that platform 10 sends; The second processing module 22 is processed for the brightness of illumination to received and/or colour temperature conditioning signal and audio signal; Driver module 23 is under the control in the second processing module 22, carries out luminously accordingly according to the brightness of illumination after processing and/or colour temperature conditioning signal driving LED lamp group 24, and plays corresponding audio frequency according to the audio-signal-driven loud speaker 25 after processing.
Implement the technical scheme of this embodiment, between center control platform and at least one sonoluminescence subsystem, adopt the communication connection of WIFI form, flexible for installation, can effectively solve the problem that wiring is complicated, maintenance difficulties is large, cost is high, and, also can avoid the situation of the signal jam that occurs due to bandwidth problem.
Fig. 2 is the logic diagram of the utility model wireless acoustics Lighting Control Assembly embodiment bis-, the wireless acoustics Lighting Control Assembly of this embodiment is compared the embodiment mono-shown in Fig. 1, difference only: center control platform 10 also comprises infrared transmission module 14, SD draw-in groove 15, usb 16, audio input interface 17, frequency modulation(FM) module 18 and display module 19; Sonoluminescence subsystem 20 also comprises: infrared receiving module 26 and switch module 27.And the second processing module 22 is also for the operation of LED lamp group 24 and loud speaker 25 is monitored, and monitoring information is processed; The 2nd WIFI module 21 is also for feeding back to center control platform 10 by the monitoring information after processing; The monitoring information that the one WIFI module 11 is also fed back for receiving sonoluminescence subsystem 20; The first processing module 12 is also for processing received monitoring information; Display module 19, for the monitoring information after Graphics Processing, is checked the ruuning situation of illumination subsystems 20 for user.In addition, infrared transmission module 14, under the control in the first processing module 12, can be sent to sonoluminescence subsystem 20 by infrared mode by brightness of illumination and/or colour temperature conditioning signal after processing; Infrared receiving module 26, under the control in the second processing module 22, receives brightness of illumination and/or colour temperature conditioning signal by infrared mode.SD draw-in groove 15 is connected with described the first processing module 12, for accessing the SD card that stores audio file.Usb 16 is connected with described the first processing module, and for being connected by usb data line with external equipment.Audio input interface (AUX) 17 is for inputting audio frequency.Frequency modulation(FM) module (FM) 18, under the control in the first processing module 12, receives radio signals.Like this, user, when selecting audio signal waiting for transmission, both can select from the storage of this locality, in the audio file that also can store from SD card, selected, and can also directly select the audio signal receiving by audio input interface or frequency modulation(FM) module.In sonoluminescence subsystem 20, the switching signal that switch module 27 is inputted for receiving user, and be sent to described the second processing module, for controlling opening or closing of sonoluminescence subsystem 20.
Fig. 3 is the circuit diagram of sound equipment illumination subsystems embodiment mono-in the utility model wireless acoustics Lighting Control Assembly, and this illumination subsystems comprises the 2nd WIFI module 21, the second processing module 22, driver module 23, LED lamp group 24, loud speaker 25, infrared receiving module 26, switch module 27 and supply module 28.Wherein, supply module 28 converts alternating current to 12V direct voltage and 5V direct voltage, and 12V direct voltage and 5V direct voltage are loud speaker 25 and 24 power supplies of LED lamp group by driver module 23.When work, the 2nd WIFI module 21 controls by WIFI receiving center brightness of illumination and/or colour temperature conditioning signal and the audio signal that platform 10 sends, and also by WIFI, to center control platform, sends monitoring information.In addition, infrared receiving module 26 can be controlled brightness of illumination and/or the colour temperature conditioning signal that platform 10 sends by infrared mode receiving center, and is sent to the second processing module 22.The second processing module 22 is processor U1, for processing that the brightness of illumination receiving by WIFI and/or colour temperature conditioning signal and audio signal are decoded, and to driver module 23, sends corresponding control signal according to the signal after processing; Also for the processing of encoding to sent monitoring information.LED lamp group 24 comprises three groups of RGBLED lamp strings.Driver module 23 comprises voltage transformation module U2, power amplifier U3, LED driver U4, three DC/DC converter U5, U6, U7 and DC/DC converter U8.Wherein, voltage transformation module U2 is used for 5V voltage transitions to become 3.3V voltage, and is processor U1 and the 2nd WIFI module 21 power supplies.Power amplifier U3 amplifies audio signal to be played according to the control signal of processor U1, to drive loud speaker 25 to send corresponding sound.DC/DC converter U8 is for converting 12V direct voltage to 5V voltage, and be LED driver U4 power supply, it is the integrated chip of MBI6020 that LED driver U4 for example selects model, it can provide three constant current output passages, and can adjust according to the control signal of processor U1 the chromatic characteristic of RGB LED lamp string, and its three constant current output passages are exported the pwm signal of corresponding duty ratio, the brightness of adjustable three RGB LED lamp strings to three DC/DC converter U5, U6, U7.In addition, switch module 27 comprises switch, and this switch connects processor U1, and preferably, the LED light of can connecting between switch and processor U1, with the state of indicator cock.
Fig. 4 is the flow chart of the utility model wireless acoustics illumination control method embodiment mono-, and this wireless acoustics illumination control method comprises:
S1. center control platform and sonoluminescence subsystem access same local network by WIFI;
S2. center control platform receives brightness of illumination and/or colour temperature conditioning signal and the user-selected audio signal waiting for transmission of user's input;
S3. center control platform is processed received brightness of illumination and/or colour temperature conditioning signal and audio signal, and the brightness of illumination after processing and/or colour temperature conditioning signal and audio signal are sent to sonoluminescence subsystem by WIFI;
S4. sonoluminescence subsystem receives brightness of illumination and/or colour temperature conditioning signal and audio signal by WIFI;
S5. sonoluminescence subsystem is processed received brightness of illumination and/or colour temperature conditioning signal and audio signal, and according to the brightness of illumination after processing and/or colour temperature conditioning signal driving LED lamp group, carry out luminously accordingly, and play corresponding audio frequency according to the audio-signal-driven loud speaker after processing.
Fig. 5 is the flow chart of the utility model wireless acoustics illumination control method embodiment bis-, and the wireless acoustics illumination control method of this embodiment is compared the embodiment mono-shown in Fig. 4, and difference only, after step S5, also comprises:
S6. sonoluminescence subsystem is monitored the operation of described LED lamp group and described loud speaker;
S7. sonoluminescence subsystem is processed monitoring information, and the monitoring information after processing is fed back to center control platform by WIFI;
S8. center control platform receives monitoring information by WIFI;
S9. center control platform is processed received monitoring information, and the monitoring information after Graphics Processing.
The foregoing is only preferred embodiment of the present utility model, be not limited to the utility model, for a person skilled in the art, the utility model can have various changes, combination and variation.All within spirit of the present utility model and principle, any modification of doing, be equal to replacement, improvement etc., within all should being included in claim scope of the present utility model.