CN204989943U - Stage reputation coordinated operation system based on wireless drive - Google Patents

Abstract

The utility model discloses a stage reputation coordinated operation system based on wireless drive includes stage production management and control center, a WLAN communication unit, the 2nd WLAN communication unit, a main control unit, from the control unit, a zigbee communication unit, the storage location, the 2nd zigbee communication unit, the stage lighting subsystem, the 3rd zigbee communication unit, and stage stereo set subsystem, the centralized monitoring of a plurality of systems of stage has been realized, unified management and synchro control, adopt the wireless control mode, the interference has been reduced, the efficiency of stage production effect and work is improved.

Description

A kind of stage acousto-optic coordinated operation system based on wireless driving

Technical field

The utility model relates to Stage Equipment Control field, particularly relates to a kind of stage acousto-optic coordinated operation system based on wireless driving.

Background technology

At present, along with the development of China's cultural industry, in style performance, the effect of digitizing stage is more and more outstanding, in performance process, more and more higher to the control overflow of the stage such as light, sound equipment key element, more and more accurate, become increasingly complex, stage centralized control systems grow presses close to the actual demand of stage performance.

The perfection realizing stage effect presents, and focuses on the reasonably combined and real-time control of light, sound equipment etc. in performing and performs.Traditional Stage Equipment Control is that the stage technique personnel of specialty carry out real-time control according to the requirement of director or playwright, screenwriter etc. on respective independently hardware control platform, require relatively high to the professional skill of each operating personnel, workload is large and easily cause the generation of unusual condition because of misoperation.In addition, the hardware device control platform of specialty is too heavy, cost is relatively high, is not easy to mobile and transport.

Increase work efficiency, realize Centralized Monitoring, unified management, it is the developing direction that stage effect controls, be improve the performing effect of stage, realize sound, the deep processing stage performance effect that optical, electrical, both pictures and texts are excellent, stage background, light of stage, tableaux and performance theme are stapled together; And overcome above Decentralization, complex control defect that staff's demand is many.But existing control system is difficult to the synchronous Concentrated Control realizing multiple equipment.

Utility model content

The purpose of this utility model is achieved through the following technical solutions.

According to embodiment of the present utility model, a kind of stage acousto-optic coordinated operation system based on wireless driving is proposed, described system comprises: stage performance management and control center, a WLAN communication unit, the 2nd WLAN communication unit, main control unit, from control module, a zigbee communication unit, memory cell, the 2nd zigbee communication unit, light of stage subsystem, the 3rd zigbee communication unit and stereo of stage subsystem, wherein

Described stage performance management and control center is connected main control unit by a WLAN communication unit with the 2nd WLAN communication unit successively and from control module, described main control unit is connected light of stage subsystem and stereo of stage subsystem with from control module respectively by a zigbee communication unit, the 2nd zigbee communication unit, the 3rd zigbee communication unit;

The parameter that described stage performance management and control center needs to perform for storing and set scheme needed for stage performance and each subsystem;

Described main control unit is for controlling the operation of each stage subsystem and receiving the data message of each subsystem transmission;

Described is the hot standby unit of main control unit from control module, for the seamless switching when main control unit fault or upgrading;

Described light of stage subsystem and stereo of stage subsystem are respectively used to the control carrying out light and acoustics unit according to main control unit instruction.

According to embodiment of the present utility model, described main control unit specifically comprises:

Performance raw data download unit, for obtaining light of stage subsystem respectively from stage performance management and control center and the original of stereo of stage subsystem independently performs data;

One GPS timing unit, for Real-time Obtaining gps time signal, and is sent to data pre-processing unit using time signal as real-time parameter;

Data pre-processing unit, for being that data are performed in stage deep processing according to performance time setting and gps time parameter by the independence of light of stage subsystem and stereo of stage subsystem performance data encoding; Described deep processing comprises carries out Unified coding by described each independent performance data according to gps time axle, sets up synchronization action-time 2-D table;

Dispatching Unit, for performing Data dissemination to light of stage subsystem and stereo of stage subsystem according to routing address by stage deep processing;

Instruction sending unit, for setting to one of light of stage subsystem, stereo of stage subsystem or combination sending controling instruction according to the performance time, described steering order is used to indicate carries out stage performance by corresponding data item in stage deep processing performance data.

According to embodiment of the present utility model, described main control unit also comprises:

Ciphering unit, for being encrypted the stage deep processing performance data after data pre-processing unit coding;

Routing unit, for needing the routing address of the subsystem sending performance data according to preallocated IP address acquisition;

Reset unit, for resetting to light of stage subsystem and stereo of stage subsystem, comprising and connecting with light of stage subsystem and stereo of stage subsystem, and obtains the virgin state of light of stage subsystem and stereo of stage subsystem;

According to embodiment of the present utility model, describedly can to arrange with identical configuration with main control unit from control module, be in hot standby state when stage performance.

According to embodiment of the present utility model, described light of stage subsystem specifically comprises visual element, the first performance data capture unit, the first performance data decoding unit, the 2nd GPS timing unit, LED group control module, the first storage unit, LED group driver element, described visual element, the first performance data capture unit, the first performance data decoding unit, the 2nd GPS timing unit, the first storage unit are all connected with LED group control module with LED group driver element, and described LED group driver element connects LED group.

Stage acousto-optic coordinated operation system based on wireless driving of the present utility model comprise stage performance management and control center, a WLAN communication unit, the 2nd WLAN communication unit, main control unit, from control module, a zigbee communication unit, memory cell, the 2nd zigbee communication unit, light of stage subsystem, the 3rd zigbee communication unit and stereo of stage subsystem, achieve the Centralized Monitoring of the multiple system of stage, unified management and synchro control, adopt controlled in wireless mode, reduce interference, improve stage performance effect and work efficiency.

Accompanying drawing explanation

By reading hereafter detailed description of the preferred embodiment, various other advantage and benefit will become cheer and bright for those of ordinary skill in the art.Accompanying drawing only for illustrating the object of preferred implementation, and is not thought restriction of the present utility model.And in whole accompanying drawing, represent identical parts by identical reference symbol.In the accompanying drawings:

Figure 1 show the stage acousto-optic coordinated operation system architecture schematic diagram based on wireless driving according to the utility model embodiment;

Figure 2 illustrate the main control unit structural representation according to the utility model embodiment;

Figure 3 show the light of stage subsystem structure schematic diagram according to the utility model embodiment;

Fig. 4 illustrate the stereo of stage subsystem structure schematic diagram according to the utility model embodiment.

Embodiment

Below with reference to accompanying drawings illustrative embodiments of the present disclosure is described in more detail.Although show illustrative embodiments of the present disclosure in accompanying drawing, however should be appreciated that can realize the disclosure in a variety of manners and not should limit by the embodiment of setting forth here.On the contrary, provide these embodiments to be in order to more thoroughly the disclosure can be understood, and complete for the scope of the present disclosure can be conveyed to those skilled in the art.

According to embodiment of the present utility model, a kind of stage acousto-optic coordinated operation system based on wireless driving is proposed, as shown in Figure 1, described system comprises: stage performance management and control center, a WLAN communication unit, the 2nd WLAN communication unit, main control unit, from control module, a zigbee communication unit, memory cell, the 2nd zigbee communication unit, light of stage subsystem, the 3rd zigbee communication unit and stereo of stage subsystem, wherein

Described stage performance management and control center is connected main control unit by a WLAN communication unit with the 2nd WLAN communication unit successively and from control module, described main control unit is connected light of stage subsystem and stereo of stage subsystem with from control module respectively by a zigbee communication unit, the 2nd zigbee communication unit, the 3rd zigbee communication unit;

The parameter that described stage performance management and control center needs to perform for storing and set scheme needed for stage performance and each subsystem;

Described main control unit is for controlling the operation of each stage subsystem and receiving the data message of each subsystem transmission;

Described memory cell is for the performance scheme that stores main control unit and download from stage performance management and control center and parameter;

Described is the hot standby unit of main control unit from control module, for the seamless switching when main control unit fault or upgrading;

Described light of stage subsystem and stereo of stage subsystem are respectively used to the control carrying out light and acoustics unit according to main control unit instruction.

According to embodiment of the present utility model, as shown in Figure 2, described main control unit specifically comprises:

Performance raw data download unit, for obtaining light of stage subsystem respectively from stage performance management and control center and the original of stereo of stage subsystem independently performs data;

One GPS timing unit, for Real-time Obtaining gps time signal, and is sent to data pre-processing unit using time signal as real-time parameter;

Data pre-processing unit, for being that data are performed in stage deep processing according to performance time setting and gps time parameter by the independence of light of stage subsystem and stereo of stage subsystem performance data encoding; Described deep processing comprises carries out Unified coding by described each independent performance data according to gps time axle, sets up synchronization action-time 2-D table;

Ciphering unit, for being encrypted the stage deep processing performance data after data pre-processing unit coding;

Routing unit, for needing the routing address of the subsystem sending performance data according to preallocated IP address acquisition;

Reset unit, for resetting to light of stage subsystem and stereo of stage subsystem, comprising and connecting with light of stage subsystem and stereo of stage subsystem, and obtains the virgin state of light of stage subsystem and stereo of stage subsystem;

Dispatching Unit, for performing Data dissemination to light of stage subsystem and stereo of stage subsystem according to routing address by stage deep processing;

Instruction sending unit, for setting to one of light of stage subsystem, stereo of stage subsystem or combination sending controling instruction according to the performance time, described steering order is used to indicate carries out stage performance by corresponding data item in stage deep processing performance data.

According to embodiment of the present utility model, describedly can to arrange with identical configuration with main control unit from control module, be in hot standby state when stage performance.

According to embodiment of the present utility model, as shown in Figure 3, described light of stage subsystem specifically comprises visual element, the first performance data capture unit, the first performance data decoding unit, the 2nd GPS timing unit, LED group control module, the first storage unit, LED group driver element, described visual element, the first performance data capture unit, the first performance data decoding unit, the 2nd GPS timing unit, the first storage unit are all connected with LED group control module with LED group driver element, and described LED group driver element connects LED group;

Described visual element is used for display light of stage model in real time;

The stage deep processing performance data that described first performance data capture unit sends for receiving main control unit;

Described first performance data decoding unit is used for decoding LED group performance parameter from the stage deep processing performance data received;

Described LED group control module is used for receiving steering order from main control unit, and controls driving LED lamp group according to the timing signal that LED group performance parameter and the 2nd GPS timing unit provide;

Described first storage unit is for storing LED group performance parameter;

Described LED group driver element is used for the order-driven LED group according to LED group control module.

According to preferred implementation of the present utility model, described LED group control module comprises:

Model stage sets up unit, for the program by being preset in LED group control module, according to the location information data of actual stage, sets up model stage, and the model stage established is outputted to visual element;

Reset unit, for being transmitted control signal to LED group driver element by the program be preset in LED group control module, LED group is moved to initial position by driving LED lamp group driver element;

Target focal position selection unit, for select target focal position in model stage, and is converted into its location information data on actual stage by this target focal position;

LED group selection unit, for selecting whether the LED group relative focus position of all preregulated LED groups also selected by detection is effective LED group;

LED group rotation control unit, position data for focusing on according to target calculates horizontal rotation angle value, the vertically rotation angle value of each effective LED group, horizontal rotation angle value, vertically rotation angle value are converted into control signal, and control signal are sent to LED group drive unit drives to control the rotation of LED group to relevant position and direction;

Focusedimage analogue unit, projects the focusedimage on target focal position for simulating all effective LED groups in model stage and analog image is outputted to visual element; And

Lighting instruction performance element, for performing illumination action according to the performance parameter of each LED group.

According to embodiment of the present utility model, as shown in Figure 4, described stereo of stage subsystem comprises the second performance data capture unit, the second performance data decoding unit, the second storage unit, sound equipment control module, acousto-optic matching unit, audio input unit and audio effect processing unit

Described second performance data capture unit, the second performance data decoding unit, the second storage unit, acousto-optic matching unit, described audio input unit and described audio effect processing unit are all connected on described sound equipment control module;

The stage deep processing performance data that described second performance data capture unit sends for receiving main control unit;

Described second performance data decoding unit is used for decoding audio playing parameter from the stage deep processing performance data received;

Described second storage unit is for storing audio playing parameter;

Described acousto-optic matching unit is used for induction in real time and obtains the light running parameter of LED group, to make sound and light real-time matching;

Described sound equipment control module is used for receiving steering order from main control unit, and controls to drive sound equipment according to the light running parameter of audio playing parameter and the induction of acousto-optic matching unit;

Described audio input unit is used for sending voice data according to the steering order of sound equipment control module to audio effect processing unit;

Described audio effect processing unit for the treatment of and playing audio-fequency data.

According to preferred implementation of the present utility model, described acousto-optic matching unit comprises photoelectric conversion circuit, optoelectronic induction shaping circuit, optoelectronic induction testing circuit and D/A translation circuit, one end of described photoelectric conversion circuit connects the input of induction light signal, the other end of described photoelectric conversion circuit connects described optoelectronic induction shaping circuit, described optoelectronic induction shaping circuit connects described optoelectronic induction testing circuit, described optoelectronic induction testing circuit connects described D/A translation circuit, and described D/A translation circuit connects described sound equipment control module.

According to preferred implementation of the present utility model, described photoelectric conversion circuit comprises photoelectric sensor circuit, the first prime amplifier, low-pass filter and reshaper, described photoelectric sensor circuit connects described first prime amplifier, described first prime amplifier connects described low-pass filter, and described low-pass filter connects described reshaper.

According to preferred implementation of the present utility model, described optoelectronic induction testing circuit comprises driving circuit, the second prime amplifier, phase-sensitive detector (PSD), balance filter, gain amplifier and signal processor, described driving circuit connects described second prime amplifier, described second prime amplifier connects described phase-sensitive detector (PSD), described phase-sensitive detector (PSD) connects described balance filter, described balance filter connects described gain amplifier, and described gain amplifier connects described signal processor.

According to preferred implementation of the present utility model, described audio effect processing unit comprises main sound box unit, auxiliary sound box unit and woofer unit;

Described main sound box unit comprises the first balanced device, driver, reaction suppressor, the first compressor, the first power amplifier and main sound box, one end of described first balanced device connects described sound equipment control module, the other end of described first balanced device connects described driver, described driver connects described reaction suppressor, described reaction suppressor connects described first compressor, described first compressor connects described first power amplifier, and described first power amplifier connects described main sound box.

Described auxiliary sound box unit comprises the second balanced device, chronotron, the second compressor, the second power amplifier and auxiliary sound box, one end of described second balanced device connects described sound equipment control module, the other end of described second balanced device connects described chronotron, described chronotron connects described second compressor, described second compressor connects described second power amplifier, and described second power amplifier connects described auxiliary sound box.

Described woofer unit comprises the 3rd balanced device, frequency divider, the 3rd compressor, the 3rd power amplifier and woofer, one end of described 3rd balanced device connects described sound equipment control module, the other end of described 3rd balanced device connects described frequency divider, described frequency divider connects described 3rd compressor, and described 3rd compressor connects described woofer.

The above; be only the utility model preferably embodiment; but protection domain of the present utility model is not limited thereto; anyly be familiar with those skilled in the art in the technical scope that the utility model discloses; the change that can expect easily or replacement, all should be encompassed within protection domain of the present utility model.Therefore, protection domain of the present utility model should described be as the criterion with the protection domain of claim.

Claims (5)

1. the stage acousto-optic coordinated operation system based on wireless driving, described system comprises: stage performance management and control center, a WLAN communication unit, the 2nd WLAN communication unit, main control unit, from control module, a zigbee communication unit, memory cell, the 2nd zigbee communication unit, light of stage subsystem, the 3rd zigbee communication unit and stereo of stage subsystem, wherein

Described stage performance management and control center is connected main control unit by a WLAN communication unit with the 2nd WLAN communication unit successively and from control module, described main control unit is connected light of stage subsystem and stereo of stage subsystem with from control module respectively by a zigbee communication unit, the 2nd zigbee communication unit, the 3rd zigbee communication unit;

The parameter that described stage performance management and control center needs to perform for storing and set scheme needed for stage performance and each subsystem;

Described main control unit is for controlling the operation of each stage subsystem and receiving the data message of each subsystem transmission;

Described is the hot standby unit of main control unit from control module, for the seamless switching when main control unit fault or upgrading;

Described light of stage subsystem and stereo of stage subsystem are respectively used to the control carrying out light and acoustics unit according to main control unit instruction.

2. a system as claimed in claim 1, described main control unit specifically comprises:

Performance raw data download unit, for obtaining light of stage subsystem respectively from stage performance management and control center and the original of stereo of stage subsystem independently performs data;

One GPS timing unit, for Real-time Obtaining gps time signal, and is sent to data pre-processing unit using time signal as real-time parameter;

Data pre-processing unit, for being that data are performed in stage deep processing according to performance time setting and gps time parameter by the independence of light of stage subsystem and stereo of stage subsystem performance data encoding; Described deep processing comprises carries out Unified coding by described each independent performance data according to gps time axle, sets up synchronization action-time 2-D table;

Dispatching Unit, for performing Data dissemination to light of stage subsystem and stereo of stage subsystem according to routing address by stage deep processing;

Instruction sending unit, for setting to one of light of stage subsystem, stereo of stage subsystem or combination sending controling instruction according to the performance time, described steering order is used to indicate carries out stage performance by corresponding data item in stage deep processing performance data.

3. a system as claimed in claim 2, described main control unit also comprises:

Ciphering unit, for being encrypted the stage deep processing performance data after data pre-processing unit coding;

Routing unit, for needing the routing address of the subsystem sending performance data according to preallocated IP address acquisition;

Reset unit, for resetting to light of stage subsystem and stereo of stage subsystem, comprising and connecting with light of stage subsystem and stereo of stage subsystem, and obtains the virgin state of light of stage subsystem and stereo of stage subsystem.

4. a system as claimed in claim 3, is describedly arranged with identical configuration from control module with main control unit, is in hot standby state when stage performance.

5. a system as claimed in claim 4, described light of stage subsystem specifically comprises visual element, the first performance data capture unit, the first performance data decoding unit, the 2nd GPS timing unit, LED group control module, the first storage unit, LED group driver element, described visual element, the first performance data capture unit, the first performance data decoding unit, the 2nd GPS timing unit, the first storage unit are all connected with LED group control module with LED group driver element, and described LED group driver element connects LED group.