CN112711209B - Immersive cinema special effect equipment linkage system and linkage control method - Google Patents

Abstract

The invention relates to an immersive cinema special effect equipment linkage system and a linkage control method. The invention can conveniently carry out linkage control and adjustment on special effect equipment on site or remotely; the special-effect equipment is convenient to overhaul and maintain; the control is accurate and reliable; the starting current of the motor of the special-effect equipment can be adjusted and controlled, and the interference to a power grid when the motor of the special-effect equipment is frequently started is reduced; the device running state can be monitored in real time and faults can be monitored, so that the running state of the device can be adjusted in real time, the faults can be eliminated in time, and the special effect can be better ensured; the complex wiring can be avoided, the potential safety hazard is reduced, and the communication reliability of the equipment is improved.

Description

Immersive cinema special effect equipment linkage system and linkage control method

Technical Field

The invention relates to the technical field of control of immersive cinema equipment, in particular to a linkage control system and a linkage control method of immersive cinema special-effect equipment.

Background

Today, the rapid development of digital arts advocates the experience of a space-dominated audience, and develops naked eye 3D immersive products by combining strong visual creative capabilities through a new digital media technology. Naked eye 3D immersive product is through constituteing confined immersive display device space with the multiaspect screen, can simulate the experience in big space, even infinite space with little space. And scenes can be switched instantly, so that scenes which cannot be experienced by real environment, real time, real speed or real dimensionality are changed. Spectators can experience without wearing any prop or receiving any teaching during experience. The audience can experience the ultra-high definition CG film (scene) personally on the scene when entering the device. The audience has the experience of crossing space-time and shuttle heaven and earth.

In the 5G era, audiences have higher demands on short video consumption and short video experience, the traditional static media and entertainment products cannot meet the demands of the audiences and card punching, and the naked eye 3D immersive product can shoot cool videos and photos while experiencing the audiences, so that the solution which can meet the demands of the audiences at present is formed. The method is applied to tourist sites, science and technology museums, exhibition museums, digital theme parks, public media art devices and the like. The immersive theater has a 3D movie, an immersive display system, an immersive surround sound effect, an immersive environment simulation, and special effects equipment. Immersive environment simulation, the special effect accurately matched with each frame is perfectly combined with the film, and various special effect devices generate high-frequency lightning, rain rapidly, air rapidly, snow instantly, romantic bubbles and other special effect effects. However, the special effect devices used in the prior art, including snowflake machines, bubble machines, smoke machines, fans, flash lamps, etc., all have the following disadvantages:

1. no remote linkage control function exists;

2. the computer and the electric cabinet/electric box can not be connected for intelligent linkage;

3. when the special effect equipment reaches a certain number, because the special effect equipment is all motor type equipment, the starting current is very large, and when the special effect equipment is started according to the linkage of films, the starting times are frequent, and serious interference is caused to a power grid;

4. when a plurality of special-effect devices are used in one scene, under the condition that one special-effect device fails, the control circuit generally adopts an alternating current contactor to control the power supply of a plurality of devices, the failed devices cannot be overhauled independently without stopping the machine, great inconvenience is caused to maintenance, and the maintenance cost is overhigh;

5. when a plurality of special-effect devices with remote control functions are used together, because the control codes are all a frequency band and are not independent of control signals of each device, other devices can be activated by error control;

6. the output flow of the special effect adjusting equipment is controlled by wire, and when the equipment is installed at a high place on site, the adjusting equipment also needs to climb to the high place to be operated and adjusted;

7. various complex environments on site cause certain difficulty in wiring of control lines, and are easy to be interfered by other lines to cause abnormal communication.

Disclosure of Invention

The invention mainly aims to overcome the defects of the prior art and provide the linkage control system and the linkage control method for the special effect equipment of the immersive cinema, which can conveniently carry out linkage control and adjustment on the special effect equipment on site or remotely, conveniently overhaul and maintain the special effect equipment, are accurate and reliable in control and can reduce the interference on a power grid when a motor of the special effect equipment is frequently started.

The invention adopts the following technical scheme:

an immersive cinema special effect equipment linkage system is used for controlling operation of special effect equipment, and comprises the following components:

the special effect server is internally provided with special effect control software;

the intelligent monitoring module of the special effect equipment comprises a special effect equipment state information acquisition unit for monitoring the running state of the special effect equipment in real time and a special effect equipment control circuit for connecting and adjusting the starting current of a motor of the special effect equipment;

the special-effect intelligent electric cabinet is used for connecting and controlling the on-off of a power supply of the special-effect equipment;

the special effect control cabinet is in communication connection with the special effect server, the special effect intelligent electric cabinet and the special effect equipment intelligent monitoring module, controls the special effect intelligent electric cabinet and the special effect equipment intelligent monitoring module to operate, and is used for receiving a control signal output by the special effect server, analyzing data and outputting the control signal to the special effect intelligent electric cabinet and/or the special effect equipment intelligent monitoring module to control the corresponding equipment to operate;

the user terminal is in communication connection with the special effect server and is used for information display and setting information input;

the special effect equipment state information acquisition unit of the special effect equipment intelligent monitoring module comprises a motor current detection circuit for monitoring the running state of a motor of the special effect equipment in real time and a temperature detection circuit for detecting the running temperature of the equipment;

the special effect equipment control circuit of the special effect equipment intelligent monitoring module comprises a PWM (pulse width modulation) circuit;

the special effect control cabinet comprises a first controller, the first controller comprises a data analysis module, and the first controller respectively and independently controls the special effect intelligent electric cabinet and each special effect equipment intelligent monitoring module through a plurality of control channels;

the special-effect intelligent electric cabinet comprises a voltage detection unit, a current detection unit, a second controller and a plurality of paths of alternating current contactors for connecting and controlling a power supply of the special-effect equipment, wherein the second controller is in communication connection with the voltage detection unit and the current detection unit and is connected and controlled with each path of alternating current contactors through a solid-state relay, and the second controller is in communication connection with the special-effect control cabinet and/or the special-effect server.

Furthermore, the special effect control cabinet is in communication connection with the special effect server, the special effect intelligent electric cabinet and the special effect equipment intelligent monitoring module, and the special effect server is in communication connection with the user terminal through a wireless communication module and/or a network cable.

Furthermore, the wireless communication module adopts a 5G module.

Furthermore, the special effect control cabinet comprises a display screen for displaying the running state information of each device in the system in real time and a manual control interface for manually controlling the running of the special effect intelligent electric cabinet and/or the special effect device intelligent monitoring module.

Furthermore, the special-effect intelligent electric cabinet comprises one or more of an overcurrent protection circuit, an overpower protection circuit and an electric leakage protection circuit.

An immersive cinema special effect equipment linkage control method based on the immersive cinema special effect equipment linkage system comprises the following steps:

firstly, the special effect server outputs a special effect control signal to a special effect control cabinet according to the special effect control software setting information;

the special effect control cabinet receives a special effect control signal output by the special effect server, analyzes the special effect control signal, outputs the analyzed special effect control signal to the special effect intelligent electric cabinet and/or the special effect equipment intelligent monitoring module, controls the special effect intelligent electric cabinet to start a corresponding special effect equipment power supply to supply power to corresponding special effect equipment, and controls the special effect equipment intelligent monitoring module to regulate and control the starting current of a corresponding special effect equipment motor;

the special effect equipment intelligent monitoring module acquires the running state information of the special effect equipment in real time through the special effect equipment state information acquisition unit and sends the running state information to the special effect control cabinet, the special effect control cabinet processes the running state information data of the special effect equipment and then sends the running state information data back to the special effect server, the special effect server receives and analyzes the running state information data of the special effect equipment, meanwhile, the running parameters are adjusted according to the current running state of the special effect equipment and outputs an adjusting control signal to the special effect control cabinet, and after the special effect control cabinet analyzes the data, the output signal controls the special effect intelligent electric cabinet and/or the special effect equipment intelligent monitoring module and adjusts the running state of corresponding equipment according to the adjusting control signal;

and fourthly, the operating parameters of the special effect equipment can be set or modified through the user terminal, the special effect control software or the special effect control cabinet.

As can be seen from the above description of the present invention, compared with the prior art, the present invention has the following advantages:

firstly, the operating parameters of the special effect equipment can be set or modified through the user terminal, the special effect control software or the special effect control cabinet, the climbing is not needed, the linkage control can be carried out on the special effect equipment on site or in a remote mode, and the control and the adjustment of the special effect equipment are facilitated.

And secondly, the special-effect intelligent electric cabinet independently controls each special-effect device to operate through a plurality of paths of alternating current contactors, so that the special-effect devices are convenient to overhaul and maintain, and the maintenance cost can be reduced.

And thirdly, the special effect control cabinet respectively and independently controls the special effect intelligent electric cabinet and each special effect equipment intelligent monitoring module through a plurality of control channels, thereby effectively avoiding false triggering and realizing accurate and reliable control.

Fourthly, the starting current of the motor of the special effect equipment can be adjusted and controlled through the special effect equipment control circuit, and the interference to the power grid when the motor of the special effect equipment is frequently started is reduced.

Fifthly, the running state information of the special-effect equipment and the special-effect intelligent electric cabinet is collected and displayed, so that the running state of the equipment can be monitored and monitored in real time, the running state of the equipment can be adjusted in real time, faults can be eliminated in time, and the special-effect can be better guaranteed.

Sixth, through setting up wireless communication module, can realize wireless communication between each equipment, avoid complicated wiring, reduce the potential safety hazard, improve equipment communication reliability.

Drawings

Fig. 1 is a control structure block diagram of an immersive cinema special effect device linkage system according to embodiment 1 of the present invention;

fig. 2 is a control structure block diagram of an intelligent monitoring module for special effect equipment in embodiment 1 of the present invention;

fig. 3 is a control structure block diagram of the special-effect intelligent electric cabinet according to embodiment 1 of the present invention;

fig. 4 is a control structure block diagram of the special effect control cabinet according to embodiment 1 of the present invention;

fig. 5 to 13 are circuit diagrams of the special effect control cabinet according to embodiment 1 of the present invention, and fig. 5 to 13 sequentially show a DC input step-down filter circuit module, a 232 communication circuit module, a communication isolation circuit module, an intelligent chip module, a CAN communication isolation circuit module, a DC isolation circuit module, a 5G/WIFI module, an 8-channel signal isolation output module, and a data processing module.

Fig. 14 to 25 are circuit diagrams of an intelligent monitoring module for special effect equipment according to embodiment 1 of the present invention, and fig. 14 to 25 are a reset circuit module, a crystal oscillator circuit module, a main control chip module, a 5V CAN bus communication module, a 3.3V CAN bus communication module, a power supply circuit module, a 5G/WIFI module, a dc motor PWM driving circuit module, a PWM adjusting high-power motor circuit module, a 2-way current detection circuit module, a temperature sensing circuit module, and an equipment encoding circuit module in sequence.

Fig. 26 to 33 are circuit diagrams of the special-effect intelligent electric cabinet according to embodiment 1 of the present invention, and fig. 26 to 33 are a main control chip module, a 5V CAN bus communication module, a 3.3V CAN bus communication module, a DC-DC module, an output terminal module, a 5G/WIFI module, a 3-way current detection circuit module, and a 12-way isolation drive contactor circuit module in sequence.

Fig. 34 is a control configuration block diagram of an immersive theater special effect device linkage system according to embodiment 2 of the present invention.

Detailed Description

The invention is further described below by means of specific embodiments.

Example 1

Referring to fig. 1 to 4, the immersive cinema special effect equipment linkage system is used for controlling operation of special effect equipment and comprises a special effect server, a special effect equipment intelligent monitoring module, a special effect intelligent electric cabinet, a special effect control cabinet and a user terminal.

Special effect control software is arranged in the special effect server.

The intelligent monitoring module of the special effect equipment is arranged on the corresponding special effect equipment and comprises a special effect equipment state information acquisition unit for monitoring the running state of the special effect equipment in real time and a special effect equipment control circuit for connecting and adjusting the starting current of a motor of the special effect equipment. The special effect equipment state information acquisition unit comprises a high-power motor current detection circuit for monitoring the current of the AC220V of the high-power motor of the special effect equipment in real time, a water pump motor current detection circuit for detecting the current of the water pump motor of the special effect equipment 12-24Vdc and a temperature detection circuit for detecting the running temperature of the equipment. The special effect equipment control circuit comprises a 2-path PWM (pulse width modulation) circuit, so that the frequency conversion function of a high-power motor can be realized, the starting current of the special effect equipment motor is reduced, and the power grid interference is reduced; and adjusting the voltage of the water pump motor, controlling the rotating speed of the water pump motor and achieving the purpose of controlling the liquid flow.

The special-effect intelligent electric cabinet is used for connecting and controlling the on-off of the power supply of the special-effect equipment. The special effect control device comprises 3 paths of voltage detection units, 3 paths of current detection units, a second controller and a plurality of paths of alternating current contactors for connecting and controlling a power supply of special effect equipment, wherein the second controller is in communication connection with the voltage detection units and the current detection units and is connected and controlled with the alternating current contactors through 12 paths of solid state relays, and the second controller is in communication connection with a special effect control cabinet. The special-effect intelligent electric cabinet also comprises an overcurrent protection circuit, an overpower protection circuit and an electric leakage protection circuit. The second controller uses STM32F103 to control the chip in a programmable mode. The voltage detection unit, the current detection unit, the overcurrent protection circuit, the overpower protection circuit and the leakage protection circuit all adopt the prior art.

The special effect control cabinet is in communication connection with the special effect server, the special effect intelligent electric cabinet and the special effect equipment intelligent monitoring module, controls the special effect intelligent electric cabinet and the special effect equipment intelligent monitoring module to operate, and is used for receiving a control signal output by the special effect server, analyzing data and outputting the control signal to the special effect intelligent electric cabinet and the special effect equipment intelligent monitoring module to control corresponding equipment to operate. The special effect control cabinet comprises a first controller, an LCD display screen used for displaying the running state information of each device in the system in real time, and a manual control interface used for manually controlling the running of the special effect intelligent electric cabinet and the special effect device intelligent monitoring module. The manual control interface includes 8 manual control buttons. The first controller comprises a data analysis module, and the first controller respectively and independently controls the special-effect intelligent electric cabinet and each special-effect equipment intelligent monitoring module through multiple control channels. The first controller adopts an STC12C5A16S2 intelligent chip.

And the user terminal is in communication connection with the special effect server and is used for information display and setting information input.

The special effect control cabinet is communicated with the special effect server through a USB line, and the special effect control cabinet is communicated with the special effect intelligent electric cabinet and the special effect equipment intelligent monitoring module through network cables. The special effect server communicates with the user terminal through the wireless communication module. The communication among the devices can be realized by selecting wired or wireless communication modes according to actual needs.

Referring to fig. 1 to 4, an immersive cinema special effect equipment linkage control method based on the immersive cinema special effect equipment linkage system includes the following steps:

firstly, the special effect server outputs a special effect control signal to a special effect control cabinet according to the special effect control software setting information;

the special effect control cabinet receives a special effect control signal output by the special effect server, analyzes the special effect control signal, outputs the analyzed special effect control signal to the special effect intelligent electric cabinet and/or the special effect equipment intelligent monitoring module, controls the special effect intelligent electric cabinet to start a corresponding special effect equipment power supply to supply power to corresponding special effect equipment, and controls the special effect equipment intelligent monitoring module to regulate and control the starting current of a corresponding special effect equipment motor;

the intelligent monitoring module of the special effect equipment acquires running state information of the special effect equipment in real time through the special effect equipment state information acquisition unit and sends the running state information to the special effect control cabinet, the special effect control cabinet processes the running state information data of the special effect equipment and then sends the running state information data back to the special effect server, the special effect server receives and analyzes the running state information data of the special effect equipment, displays the current running state information of the special effect equipment on a special effect control software interface, adjusts running parameters according to the current running state of the special effect equipment and outputs an adjusting control signal to the special effect control cabinet, and after the special effect control cabinet analyzes the data, the output signal controls the intelligent electric cabinet and/or the intelligent monitoring module of the special effect equipment and adjusts the running state of the corresponding equipment according to the adjusting control signal.

And fourthly, the operating parameters of the special effect equipment can be set or modified through the user terminal, the special effect control software or the special effect control cabinet.

When the special-effect intelligent electric cabinet is electrified to work, the state of the current 3-path voltage is detected, whether the 3-path voltage is within the error range of 380V power supply is judged, then parameters are sent to special-effect control software of a special-effect server through a CAN bus, the input voltage of the current special-effect intelligent electric cabinet is displayed on a special-effect software interface, when the voltage difference of the three-phase voltage exceeds a safety value, the software cannot control the start of special-effect equipment, and prompts a user to check a circuit; when the voltage is normal, a user operates the special effect control software, clicks to start the special effect intelligent electric cabinet, then sends a signal to the special effect intelligent electric cabinet through CAN bus communication, and after the special effect intelligent electric cabinet receives the signal, the corresponding alternating current contactor is started to electrify the corresponding special effect equipment. And then starting a current detection function, detecting the current of the three-phase power of the special-effect intelligent electric cabinet in real time, transmitting the current information of the special-effect intelligent electric cabinet to special-effect software of a special-effect server for display through CAN bus communication, recording the current overcurrent protection current value by the special-effect intelligent electric cabinet when the current of the special-effect intelligent electric cabinet exceeds a rated value, cutting off the power supply of special-effect equipment, transmitting the current data to special-effect control software of the special-effect server through a CAN bus for display, giving an alarm, and overhauling or rectifying the circuit by a user according to the data.

When the intelligent monitoring module of the special effect equipment is electrified to work, the running state information of the special effect equipment is collected in real time through the state information collecting unit of the special effect equipment and is sent to the special effect control cabinet, the special effect control cabinet processes the running state information data of the special effect equipment and then sends the data back to the special effect server, and the special effect server receives and analyzes the running state information data of the special effect equipment and displays the current running state information of the special effect equipment on a special effect control software interface; a user CAN click and start corresponding special effect equipment on a special effect control software interface, a CAN bus transmits a control signal to a special effect control cabinet, the special effect control cabinet controls and starts a PWM pulse width modulation circuit, a high-power motor and a water pump motor of the special effect equipment are started, an intelligent monitoring module of the special effect equipment detects currents of the high-power motor and the water pump and judges whether the motor works or not, a temperature detection circuit detects the temperature of a water outlet of the special effect equipment and judges whether the special effect equipment is in a water shortage state or not, detected data are sent to a special effect server through the CAN bus and displayed on the special effect control software interface, and the user CAN know the equipment state. The rotating speed of a motor of the water pump can be adjusted on the special effect control software interface, the PWM pulse width of the water pump can be adjusted, and the rotating speed can be adjusted to control the flow. And the specified codes can be edited for each intelligent monitoring module of the special-effect equipment through special-effect control software, so that the field equipment management is facilitated.

When the special effect control cabinet is electrified to work, a control instruction and a signal of the special effect server are received in real time, current signal data are displayed on an LCD display screen after the signal is analyzed, the signal is sent to a lower special effect intelligent electric cabinet or a special effect equipment intelligent monitoring module, feedback signals of the lower special effect intelligent electric cabinet and the special effect equipment intelligent monitoring module are waited in real time, the current data are displayed on an LCD display screen interface after the signal is analyzed, the signal is sent to the special effect server, the special effect control cabinet can classify, sort and name the special effect equipment intelligent monitoring modules through 8 manual control buttons so as to distinguish equipment with the same type at the lower end, a user can distinguish the signal state of which the received signal belongs to which type, a channel classification can be set for the special effect intelligent electric cabinet in a self-defined mode, and the channel of the intelligent electric cabinet can be named by the user, the corresponding power supply channel types of the special-effect intelligent electric cabinet and the special-effect equipment intelligent monitoring module are convenient to distinguish. The manual control button can manually send an instruction to open and close the special-effect intelligent electric cabinet channel and the special-effect equipment intelligent monitoring module at the lower end under the condition of being separated from the special-effect server, so that the test equipment is conveniently installed in the early stage of a project site to adjust the angle and the output flow of each equipment, and a convenient operation mode can be provided for a later-stage field technician to perform maintenance troubleshooting on the equipment.

The special effect intelligent electric cabinet timing switch can be set through special effect control software, the running state of special effect equipment is controlled to be displayed on an interface, equipment parameters can be adjusted, and the adjusted parameters, the name of the user-defined equipment, the number types and other functions are stored in real time.

Referring to fig. 5 to 13, in this embodiment, the special effect control cabinet circuit includes a DC input step-down filter circuit module, a 232 communication circuit module, a communication isolation circuit module, an intelligent chip module, a CAN communication isolation circuit module, a DC isolation circuit module, a 5G/WIFI module, an 8-channel signal isolation output module, and a data processing module. The modules all adopt circuits in the prior art, and circuit wiring diagrams are shown in figures 5-13, which are not described in detail herein.

Referring to fig. 14 to 25, in this embodiment, the special effect device intelligent monitoring module circuit includes a reset circuit module, a crystal oscillator circuit module, a main control chip module, a 5V CAN bus communication module, a 3.3V CAN bus communication module, a power supply circuit module, a 5G/WIFI module, a dc motor PWM driving circuit module, a PWM adjusting high-power motor circuit module, a 2-way current detection circuit module, a temperature sensing circuit module, and a device coding circuit module. The modules all adopt circuits in the prior art, and circuit wiring diagrams are shown in figures 14-25, which are not described in detail herein.

Referring to fig. 26 to 33, in this embodiment, the special-effect intelligent electric cabinet circuit includes a main control chip module, a 5V CAN bus communication module, a 3.3V CAN bus communication module, a DC-DC module, an output terminal module, a 5G/WIFI module, a 3-way current detection circuit module, and a 12-way isolation driving contactor circuit module. The modules all adopt circuits in the prior art, and circuit wiring diagrams are shown in fig. 26-33, which are not described in detail herein.

Example 2

Referring to fig. 34, the present embodiment is different from embodiment 1 in that: the user terminal comprises a user PC terminal and a user mobile phone terminal. The user PC terminal and the user mobile phone terminal can be both provided with special effect control software and communicated with the special effect server. The special effect control cabinet is in communication connection with the special effect server, the special effect intelligent electric cabinet and the special effect equipment intelligent monitoring module, and the server is in communication connection with the user terminal through the wireless communication module. The wireless communication module comprises a 5G router used for receiving signals and transmitting the signals after transfer processing, and a 5G module or a 5G double-frequency module built in each device. The special effect server is internally provided with a 5G module, and the special effect control cabinet, the special effect intelligent electric cabinet and the special effect equipment intelligent monitoring module are internally provided with a 5G double-frequency module. The 5G router adopts a Huawei Q2s primary-secondary 5G router, the 5G module adopts a Huawei 5G module MH5000, and the 5G dual-frequency module adopts a 5G dual-frequency WiFi module RM 58S.

The above description is only two specific embodiments of the present invention, but the design concept of the present invention is not limited thereto, and any insubstantial modifications made by the design concept should fall within the scope of infringing the present invention.

Claims (6)

1. The utility model provides an immersive cinema special effect equipment linked system for control special effect equipment operation which characterized in that: comprises the following steps:

the special effect server is internally provided with special effect control software;

the intelligent monitoring module of the special effect equipment comprises a special effect equipment state information acquisition unit for monitoring the running state of the special effect equipment in real time and a special effect equipment control circuit for connecting and adjusting the starting current of a motor of the special effect equipment;

the special-effect intelligent electric cabinet is used for connecting and controlling the on-off of a power supply of the special-effect equipment;

the special effect control cabinet is in communication connection with the special effect server, the special effect intelligent electric cabinet and the special effect equipment intelligent monitoring module, controls the special effect intelligent electric cabinet and the special effect equipment intelligent monitoring module to operate, and is used for receiving a control signal output by the special effect server, analyzing data and outputting the control signal to the special effect intelligent electric cabinet and/or the special effect equipment intelligent monitoring module to control the corresponding equipment to operate;

the user terminal is in communication connection with the special effect server and is used for information display and setting information input;

the special effect equipment state information acquisition unit of the special effect equipment intelligent monitoring module comprises a motor current detection circuit for monitoring the running state of a motor of the special effect equipment in real time and a temperature detection circuit for detecting the running temperature of the equipment;

the special effect equipment control circuit of the special effect equipment intelligent monitoring module comprises a PWM (pulse width modulation) circuit;

the special effect control cabinet comprises a first controller, the first controller comprises a data analysis module, and the first controller respectively and independently controls the special effect intelligent electric cabinet and each special effect equipment intelligent monitoring module through a plurality of control channels;

the special-effect intelligent electric cabinet comprises a voltage detection unit, a current detection unit, a second controller and a plurality of paths of alternating current contactors for connecting and controlling a power supply of the special-effect equipment, wherein the second controller is in communication connection with the voltage detection unit and the current detection unit and is connected and controlled with each path of alternating current contactors through a solid-state relay, and the second controller is in communication connection with the special-effect control cabinet and/or the special-effect server.

2. The immersive theatre special effects device linkage system of claim 1, wherein: the special effect control cabinet is in communication connection with the special effect server, the special effect intelligent electric cabinet and the special effect equipment intelligent monitoring module, and the special effect server is in communication connection with the user terminal through a wireless communication module and/or a network cable.

3. The immersive theatre special effects device linkage system of claim 2, wherein: the wireless communication module adopts a 5G module.

4. The immersive theatre special effects device linkage system of claim 1, wherein: the special effect control cabinet comprises a display screen for displaying the running state information of each device in the system in real time and a manual control interface for manually controlling the running of the special effect intelligent electric cabinet and/or the special effect device intelligent monitoring module.

5. The immersive theatre special effects device linkage system of claim 1, wherein: the special-effect intelligent electric cabinet comprises one or more of an overcurrent protection circuit, an overpower protection circuit and an electric leakage protection circuit.

6. An immersive cinema special effect equipment linkage control method based on the immersive cinema special effect equipment linkage system according to any one of claims 1 to 5, characterized in that: the method comprises the following steps:

firstly, the special effect server outputs a special effect control signal to a special effect control cabinet according to the special effect control software setting information;

the special effect control cabinet receives a special effect control signal output by the special effect server, analyzes the special effect control signal, outputs the analyzed special effect control signal to the special effect intelligent electric cabinet and/or the special effect equipment intelligent monitoring module, controls the special effect intelligent electric cabinet to start a corresponding special effect equipment power supply to supply power to corresponding special effect equipment, and controls the special effect equipment intelligent monitoring module to regulate and control the starting current of a corresponding special effect equipment motor;

the special effect equipment intelligent monitoring module acquires the running state information of the special effect equipment in real time through the special effect equipment state information acquisition unit and sends the running state information to the special effect control cabinet, the special effect control cabinet processes the running state information data of the special effect equipment and then sends the running state information data back to the special effect server, the special effect server receives and analyzes the running state information data of the special effect equipment, meanwhile, the running parameters are adjusted according to the current running state of the special effect equipment and outputs an adjusting control signal to the special effect control cabinet, and after the special effect control cabinet analyzes the data, the output signal controls the special effect intelligent electric cabinet and/or the special effect equipment intelligent monitoring module and adjusts the running state of corresponding equipment according to the adjusting control signal;

and fourthly, the operating parameters of the special effect equipment can be set or modified through the user terminal, the special effect control software or the special effect control cabinet.

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