CN117053167A - Multifunctional modularized acousto-optic integrated equipment capable of being moved conveniently - Google Patents

Abstract

The application discloses a portable multifunctional modularized acousto-optic integrated device, which comprises a movable bracket module, a man-machine control module, a sound system, a light system and an information identification and processing module, wherein the man-machine control module, the sound system, the light system and the information identification and processing module are arranged on the movable bracket module; the man-machine control module is respectively in communication connection with the sound system, the light system and the information identification and processing module, and the information identification and processing module is used for acquiring images and/or sound and/or ambient light data of the equipment working area and sending the processed data to the man-machine control module so as to control the sound system and the light system to work cooperatively in a linkage way. And the information identification and processing module is used for acquiring and processing image and/or sound and/or ambient light data of the working area, and then the man-machine control module is used for controlling the linkage of the sound system and the light system so as to realize acousto-optic cooperation and meet the requirements of various use scenes on acousto-optic. The modules of the application are highly integrated on the movable bracket module, and have good movability and fluidity.

Description

Multifunctional modularized acousto-optic integrated equipment capable of being moved conveniently

Technical Field

The application relates to the technical field of acousto-optic integrated equipment, in particular to multifunctional modularized acousto-optic integrated equipment capable of being moved conveniently.

Background

Light illumination enterprises and sound enterprises belong to two different industries, from research and development to production, completely different technologies and talent teams are needed, and no integrated solution can be independently completed by light or sound enterprises in the market.

When the system is used in the scenes of parties, business activities and the like, independent lighting and sound systems are generally built by means of professional companies. If a sound system adopts a non-professional small-sized flowing sound product, the quality is low; if a small professional sound system is used, on the one hand, the price is not very good, and on the other hand, the sound system needs to be composed of equipment such as a sound console, a processor, a power amplifier, a loudspeaker and the like, so that the sound system needs a large workload and professional technology from transportation, installation and control, and is very troublesome. In addition, in the aspect of lamplight illumination, a metal framework is often required to be built, so that the use is relatively complicated and inconvenient. Without depending on professional companies, there are technical difficulties in handling, installation and handling, either in lacking products that can conveniently meet functional requirements. The user typically gives up the local accent lighting and entertainment light functions without the help of a professional company. Therefore, the existing product has certain difficulty in the whole manufacturing process, has larger function limitation, and is difficult to achieve the sound-light effect of the professional level.

When the product is used in daily life in families, the products in the market are all based on sound products, and the decorative effect of lamplight on the products is increased; or the color change of the light is triggered by certain characteristics of the music signal, so that the sound-light linkage decorative effect is achieved, the visual effect is achieved to a certain extent, but the requirements of entertainment, performance and display still cannot be met through the linkage of the light and the sound, the requirements of daily reading, sleep aiding and the like cannot be met, and the use limitation is large.

Based on the above, there is a need for a multifunctional movable acousto-optic integrated product which can be used for indoor and outdoor entertainment, performance, exhibition, indoor reading, sleep aiding and the like.

Disclosure of Invention

The application mainly aims to provide a multifunctional modularized acousto-optic integrated device capable of being moved conveniently and rapidly, and aims to solve at least one technical problem.

In order to achieve the above purpose, the application provides a portable multifunctional modularized acousto-optic integrated device, which comprises a movable bracket module, a man-machine control module, a sound system, a light system and an information identification and processing module, wherein the man-machine control module, the sound system, the light system and the information identification and processing module are arranged on the movable bracket module; the man-machine control module is respectively in communication connection with the sound system, the light system and the information identification and processing module, and the information identification and processing module is used for acquiring image and/or sound and/or ambient light data of a working area of equipment and sending the processed image and/or sound and/or ambient light data to the man-machine control module so as to control the sound system to work in a linkage and coordination mode with the light system.

The portable multifunctional modularized acousto-optic integrated equipment further comprises a signal control module, an interface module and a power supply module, wherein the signal control module, the interface module and the power supply module are arranged on the movable support module; the signal control module is respectively in communication connection with the man-machine control module, the light system and the interface module; the power supply module is electrically connected with the man-machine control module and used for supplying power to equipment.

The information recognition and processing module comprises an information processing module, an image recognition module, a sound recognition module and a light perception module which are respectively in communication connection with the information processing module; the information processing module is in communication connection with the man-machine control module, so that acquired image and/or sound and/or ambient light data are processed and then sent to the man-machine control module.

The man-machine control module comprises a master control module, a sound system information processing module, a light system information processing module, a sound mixing/tuning module, a digital audio processing module and a memory storage module; the master control module is respectively in communication connection with the information processing module, the sound system information processing module, the light system information processing module and the memory storage module; the sound system information processing module is respectively in communication connection with the sound system, the signal control module, the light system information processing module, the sound mixing/tuning module and the digital audio processing module; the lamplight system information processing module is in communication connection with the signal control module; the digital audio processing module is respectively in communication connection with the sound module and the sound mixing/tuning module.

The lamp control module is arranged between the lamp system information processing module and the signal control module, and the lamp control module controls the lamp system according to the instruction of the lamp system information processing module.

The sound system comprises a microphone module, a processing power amplifier module and a loudspeaker module; the microphone module is respectively in communication connection with the interface module, the sound system information processing module and the sound mixing/tuning module; the processing power amplifier module is respectively in communication connection with the sound system information processing module, the digital audio processing module and the loudspeaker module.

The light system comprises a sound control module, a computer lamp module, a laser module, a projection lamp module and a decorative lamp module which are respectively and electrically connected with the signal control module.

The sound control module, the computer lamp module, the laser module, the projection lamp module and the decoration lamp module can be increased or decreased or replaced according to actual use requirements.

The movable support module comprises a base, casters arranged at the bottom of the base and a lamplight support arranged at the top of the base.

The height of the lamplight bracket can be adjusted, so that the lamplight system and the information identification and processing module can be adjusted.

Compared with the prior art, the application has the beneficial effects that:

1. the application acquires and processes the image and/or sound and/or environment light data of the working area through the information identification and processing module, and then controls the linkage of the sound system and the light system through the man-machine control module so as to realize the acousto-optic cooperation, thereby meeting the requirements of various use scenes such as indoor and outdoor entertainment, performance, exhibition, indoor reading, sleeping assistance and the like on acousto-optic.

2. The movable support module is highly integrated with each module, has compact structure and high space utilization rate, and has good movability and fluidity.

3. The application has the advantages of low manufacturing cost, easy operation and strong practicability.

Drawings

FIG. 1 is a front view of a portable, multi-functional, modular, acousto-optic integrated device in accordance with an embodiment of the present application;

FIG. 2 is a rear view of a portable, multi-functional, modular acousto-optic all-in-one device according to an embodiment of the present application;

FIG. 3 is a top view of a portable, multi-functional, modular acousto-optic integrated device according to an embodiment of the present application;

FIG. 4 is a left side view of a portable, multi-functional, modular acousto-optic all-in-one device according to an embodiment of the present application;

fig. 5 is a schematic structural connection diagram of each part of the portable multifunctional modularized acousto-optic integrated equipment according to the embodiment of the application.

Detailed Description

Embodiments of the present application are described in detail below, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to like or similar elements or elements having like or similar functions throughout. The embodiments described below are exemplary and intended to illustrate the present application and should not be construed as limiting the application, and all other embodiments, based on the embodiments of the present application, which may be obtained by persons of ordinary skill in the art without inventive effort, are within the scope of the present application.

Because the existing product integrated manufacturing process has certain difficulty, and the function is limited greatly, the sound and light effect of the professional level is difficult to achieve, and the existing product can not meet the demands of daily entertainment, performance, exhibition, reading, sleep aiding and the like through the linkage of light and sound, and has great use limitation. In order to solve the technical problems, the application provides a multifunctional modularized acousto-optic integrated device which can be moved conveniently.

Referring to fig. 1 to 5, an embodiment of the present application provides a portable multifunctional modularized acousto-optic integrated device, which includes a movable bracket module 1, a man-machine control module 2, a sound system 3, a light system 4, and an information recognition and processing module 5, which are disposed on the movable bracket module 1; the man-machine control module 2 is respectively in communication connection with the sound system 3, the light system 4 and the information identification and processing module 5, the information identification and processing module 5 is used for acquiring image and/or sound and/or ambient light data of a working area of equipment and sending the processed image and/or sound and/or ambient light data to the man-machine control module 2 so as to control the sound system 3 to work in linkage with the light system 4, realize mutual cooperation of music and light, create an acousto-optic integrated combined audio-visual effect and meet various requirements of users. The human-machine control module 2 may control the sound system 3 and the light system 4 in an automatic mode or a manual mode, and in some embodiments, the human-machine control module 2 may also be controlled by an intelligent terminal through a local area network or an internet server.

In some embodiments, the portable multifunctional modularized acousto-optic integrated equipment further comprises a signal control module 6, an interface module 7 and a power supply module 8 which are arranged on the movable bracket module 1; the signal control module 6 is respectively in communication connection with the man-machine control module 2, the light system 4 and the interface module 7; the power supply module 8 is electrically connected with the man-machine control module 2 and is used for supplying power.

It can be understood that the signal control module 6 includes a plurality of optional modules, which are a USB module, a network control/audio module, a network control/light module, a wireless WLAN module, a bluetooth module, a MIDI module, a DMX512 module, a 0-10V dimming module, a DALI control module, an RS485 module, a TCP/IP module, a voice control module, a direct power module, a silicon controlled rectifier dimming power module, and a battery module, respectively; the interface module 7 comprises a plurality of optional modules, namely a 2-channel microphone/audio port, a 4-channel microphone/audio port, an 8-channel microphone/audio port, a USB port, a MIDI port, an RJ45 port (audio) and an RJ45 port (lamplight); the power supply module 8 includes a plurality of optional modules, which are a power supply module, a wireless charging module, a power supply port module, a wireless microphone charging module (single channel), and a wireless microphone charging module (dual channel), respectively.

In some embodiments, the information identifying and processing module 5 includes an information processing module, and an image identifying module, a voice identifying module, and a light sensing module which are respectively connected with the information processing module in a communication manner; the information processing module is in communication connection with the man-machine control module 2, so as to process acquired image and/or sound and/or ambient light data and send the processed image and/or sound and/or ambient light data to the man-machine control module 2.

It can be understood that the image recognition module is used for acquiring image data of the working area, the sound recognition module is used for acquiring sound data of the working area, and the light perception module is used for perceiving light change data of the working area; the information processing module processes the data acquired by the image recognition module, the voice recognition module and the light perception module, so that scene recognition matching is carried out on the use scene of the acousto-optic integrated equipment, and finally, an instruction is output to the man-machine control module 2 according to the matched use scene, and the man-machine control module 2 is used for controlling the sound system 3 and the light system 4 so as to meet the demands of people. The matching refers to matching the usage scenario stored in the memory storage module of the man-machine control module 2 according to the data processed by the information processing module.

In some embodiments, the image data acquired by the image recognition module may be a posture of a human body, a direct contact with the human body, and an ambient environment where the human body is located, and the posture recognition of the human body may be performed by acquiring human body image information by using a sensor, acquiring a human body skeleton image and joint point coordinates according to the human body image information by using an information processing module, and establishing an action model; and compares the standard actions stored in the memory storage module of the man-machine control module 2 to obtain the posture information of the human body.

By adopting the mode, the user can concentrate on what the user is doing without presetting the sound and the light to create corresponding atmosphere, and the acousto-optic integrated equipment can capture the requirement of the user conveniently and quickly and adapt to the corresponding acousto-optic atmosphere for the behavior of the user.

In some embodiments, the data acquired by the voice recognition module may be voice generated by personnel or equipment in the working area, nearby environmental sound, voice instructions sent by a user, and the like; wherein the sound of the person includes the sound of the host, performer, audience, etc., the sound produced by the device includes live played music, cue sounds, etc., the sound of the nearby environment includes the sound produced by nearby buildings, traffic, etc. or other natural sounds (e.g., thunder, wind, rain, beast, etc.), and the voice command includes specific voice commands recognizable by the device issued by the user, such as "turn up volume", "turn down volume", etc.

In some embodiments, the data obtained by the light sensing module may be illuminance, color temperature, illumination angle, etc. of natural light in the working area, or may be light focused on a specific object in the working area by the lighting system; the light sensing module can acquire light data in the working area in real time so as to feed back in time to adjust each working module of the lighting system 4 to meet field requirements.

In some embodiments, the man-machine control module 2 includes a master control module, a sound system information processing module, a light system information processing module, a mixing/tuning module, a digital audio processing module, and a memory storage module; the master control module is respectively in communication connection with the information processing module, the sound system information processing module, the light system information processing module and the memory storage module; the sound system information processing module is respectively in communication connection with the sound system, the signal control module, the light system information processing module, the sound mixing/tuning module and the digital audio processing module; the lamplight system information processing module is in communication connection with the signal control module; the digital audio processing module is respectively in communication connection with the sound module and the sound mixing/tuning module; the general control module can be preset with programs conforming to actual demands, such as a sleep assisting program, a reading program, a square dance program and the like, and the memory storage module stores information of a use scene, a human body action model, a sound sample and the like, and is in communication connection with the general control module so that the general control module can call the information stored in the memory storage module according to the demands.

It can be appreciated that in the automatic mode, the device of the present application can work by a program preset in the master control module to meet the use scenario requirements of entertainment, performance, conference, exhibition, sleep assistance, reading, etc. In the manual mode, the sound system information processing module can be controlled by a touch screen working module or an audio knob/push rod module, and the acousto-optic effect obtained by manual adjustment can be stored into the memory storage module as a use scene sample; the lamplight system information processing module can be controlled by a lamplight knob/push rod module, a key working module, a touch screen working module and an infrared remote control module. The automatic mode and the manual mode can be used cooperatively, and at this time, the manual mode can perform further optimization of the acousto-optic effect on the basis of the automatic mode so as to better match the requirements of users.

In some embodiments, a light control module is further disposed between the light system information processing module and the signal control module 6, and the light control module controls the light system 4 according to the instruction of the light system information processing module.

It can be understood that the lamp control module controls the lighting system through the DMX512 module, the 0-10V dimming module, the DALI control module, the RS485 module, the TCP/IP module, the sound control module, the direct power module, the silicon controlled rectifier dimming power module and the storage battery module of the signal control module 6.

In some embodiments, the sound system 3 includes a microphone module 31, a processing power amplifier module 32, and a speaker module 33; the microphone module is respectively in communication connection with the interface module, the sound system information processing module and the sound mixing/tuning module; the processing power amplifier module is respectively in communication connection with the sound system information processing module, the digital audio processing module and the loudspeaker module.

It will be appreciated that each module of the sound system 3 includes a plurality of selectable modules for selection, addition, or replacement as desired. The microphone module 31 includes a 2-channel voice module, a 4-channel voice module, an 8-channel voice module, a wireless microphone receiver module, a handheld wireless transmitter and microphone pickup module, a waist pack wireless transmitter and pickup module, and a waist pack wireless transmitter and pickup module; the processing power amplifier module 32 includes a low-frequency digital power amplifier module, an intermediate-frequency digital power amplifier module, and a high-frequency digital power amplifier module; the speaker module 33 includes a two-division unit module, a three-division unit module, a dome tweeter module, a horn tweeter module, a low frequency unit module, and a full frequency coaxial speaker module.

In some embodiments, the lighting system 4 includes a sound control module, a computer lamp module, a laser module, a projector module, and a decorative lamp module electrically connected to the signal control module 6.

It will be appreciated that each module of the lighting system 4 includes a plurality of selectable modules for selection, addition, or replacement as desired. The sound control module comprises a sound control light beam working module, a sound control middle light beam working module and a sound control wide light beam working module; the computer lamp module comprises a fixed light beam working module, a fixed dyeing working module, a fixed pattern working module, a head shaking light beam working module, a head shaking dyeing working module and a head shaking pattern working module; the laser module comprises a laser working module; the projection lamp module comprises a narrow-angle (< 10 DEG) projection work module, a medium-angle (10 DEG to 45 DEG) projection work module, a wide-angle (> 45 DEG) projection work module, a single color temperature work module and a controllable color temperature work module; the decorative lamp module comprises a monochromatic decorative lighting module, a full-color decorative lighting module and a controllable decorative lighting module.

Referring to fig. 2, in some embodiments, the movable stand module 1 includes a base 11, casters 12 disposed at the bottom of the base 11, and a light stand 13 disposed at the top of the base 11. It will be appreciated that the whole apparatus can be moved or transported at any time by the casters 12 as required, greatly reducing the investment in manpower and materials.

In some embodiments, the height of the light fixture 13 is adjustable to adjust the height of the light system 4 and the information recognition and processing module 5. It will be appreciated that in some applications, it is necessary to adjust the height of the light bracket 13 to create a better light effect or to optimize the information recognition and processing module 5.

Example 1: take outdoor commercial events as an example

If the user needs less, the equipment is placed in a working area, and then an automatic mode is started; when the equipment starts to work, the image recognition module recognizes an image of a field working area, such as a dynamic or static person and surrounding objects in the working area, and converts the dynamic and static person or object into different data information respectively and sends the different data information to the master control module; the sound recognition module can recognize the sound of a live working area, for example, the sound of a host, a performer and a spectator in the working area is recognized and then converted into effective sound to be sent to the master control module, and the noise of the carrying equipment sound, the traffic flow sound and the like in the working area is recognized and then converted into ineffective sound to be filtered; the light perception module can recognize the light intensity, angle, color temperature and the like in the field working area, convert the light intensity, angle, color temperature and the like into corresponding light data and send the corresponding light data to the master control module; the master control module adjusts the sound system 3 and the light system 4 based on the received image and/or sound and/or ambient light data to cooperate to realize the on-site acousto-optic linkage effect. For example, the image recognition module only recognizes that the performer performs in the working area, after receiving the information, the master control module further adjusts the light focusing or other light effects of the light system 4 on the performer based on the perception data of the light perception module on the surrounding light of the performer, and meanwhile, part of the working modules of the light system 4 are called to simulate the corresponding field atmosphere so as to enhance the performance effect of the performer; if the performer has sound performance (such as singing, etc.), the master control module also controls the sound system 3 to receive and play sound based on the sound of the performer and the noise in the working area identified by the sound identification module, thereby effectively avoiding noise interference and enabling the sound performance to be clearer and more complete. Therefore, the master control module can control the sound system 3 and the light system 4 according to the preset program and the on-site image, sound and light data acquired by the information identification and processing module in the automatic mode to meet the requirements of on-site entertainment, performance, exhibition and the like.

If the user needs to adjust the sound and the light in real time according to the on-site condition, the user can control the sound system information processing module through the touch screen working module or the audio knob/push rod module in the running process of the automatic mode or after starting the manual mode, so as to control the sound system 3 to receive sound information or play corresponding music and the like, and also can control the light system information processing module through the light knob/push rod module, the key working module, the touch screen working module and the infrared remote control module, so as to control the brightness, the color temperature and the like of the light system 4.

Example 2: taking outdoor square dance scenes as examples

When the device is applied to a square dance scene, a user can conveniently place the device in a proper position through the movable support module 1, and the information recognition and processing module 5 can recognize images, sounds and ambient light on a place within a certain range, so that the man-machine control module 2 is assisted to adjust the sound system 3 and the light system 4 to adjust the sound and light effect of the place within the certain range.

When a user starts to use the equipment, the equipment is started, and then a square dance program preset in a general control module is started, so that the general control module controls a sound system to play corresponding music and controls a light system to adjust a field light effect within a certain range based on the square dance program; during the period that the user performs square dance, the image recognition module of the information recognition and processing module 5 can recognize the number of people, the station mode and the like in the square dance floor, the sound recognition module is used for recognizing the ambient sound around the square dance floor, the light perception module is used for recognizing the ambient light in the square dance floor and focusing the light data on the user, and finally the image, the sound and the ambient light data are summarized through the information recognition and processing module and then are sent to the master control module so as to assist in adjusting the acousto-optic effect. For example, when the image recognition module recognizes that the user in the place moves from the point a to the point B, and at this time, the position and distance of the user are changed relative to the square dance place or the device of the present application, the light perception module recognizes that the light data focused on the user is changed, and then the information recognition and processing module 5 sends the data collected by the image recognition module and the light perception module to the master control module, and the master control module controls the lighting system 4 according to the received data, so that the lighting can generate the effects of lighting, guiding, rendering, baking, etc. when the user moves from the point a to the point B, and at the same time, the sound recognition module recognizes the ambient sound around the place, so as to control the sound system 3 by combining the ambient sound, the distance from the user, and the image data, so as to meet the following music rhythm and the like required by the user when the user dance on the square. It can be understood that, if a user wants to switch music or the like halfway during the course of jumping the square dance, the user can use the mobile terminal to connect to the device of the application through the Bluetooth technology, so as to meet the requirement of wireless control within a certain distance.

Example 3: taking indoor sleep-aiding scene as an example

When a user sleeps, the user only needs to start the equipment of the application and start a sleep-aiding program preset in the master control module, the image recognition module of the information recognition and processing module 5 can capture the action of the user, the light perception module can perceive the intensity of the ambient light of the user and process the ambient light through the information processing module, then the processed data is sent back to the master control module, the master control module calls light music or white noise or alpha wave which is helpful for sleeping in the sleep-aiding program according to the received data and sends a playing instruction to the sound system 3, and meanwhile, the master control module can control the light system 4 to change the brightness of the light and the like according to the received data so as to help the user sleep; it can be understood that when the user starts to prepare for sleeping, the image recognition module captures the action of turning around after the user lies down, or the like, and then starts to play light music or white noise; meanwhile, the light sensing module senses the intensity change of ambient light when a user sleeps, so that the master control module can timely adjust the intensity and the color temperature of the light system 4; after the user starts sleeping for 30 minutes, the image recognition module captures that the user has reduced or no action, the user can default to enter a sleeping state, at the moment, the master control module can control the sound system 3 to be closed, and control the light system 4 to reduce the brightness so as to ensure the sleeping quality of the user, but not to be closed; if the image recognition module captures that the user starts at night, the brightness of the light system 4 is increased, and after the user lies down again, the brightness of the light system 4 is reduced again, so that the user continues to fall asleep until the user lights up, and the master control module is self-running. In the use process of the device, a user can send preset instructions to the master control module through the voice recognition module of the information recognition and processing module 5, including but not limited to "turn off", "play music", "pause play music", "turn up volume", "turn down volume", "turn on light", "turn off light", "turn up brightness", "turn down brightness", and the like.

The above description of the preferred embodiments of the present application should not be taken as limiting the scope of the application, but rather should be understood to cover all modifications, variations and adaptations of the present application using its general principles and the following detailed description and the accompanying drawings, or the direct/indirect application of the present application to other relevant arts and technologies.

Claims (9)

1. The multifunctional modularized acousto-optic integrated equipment capable of moving conveniently is characterized by comprising a movable support module, a man-machine control module, a sound system, a light system and an information identification and processing module, wherein the man-machine control module, the sound system, the light system and the information identification and processing module are arranged on the movable support module; the man-machine control module is respectively in communication connection with the sound system, the light system and the information identification and processing module, and the information identification and processing module is used for acquiring image and/or sound and/or ambient light data of a working area of equipment and sending the processed image and/or sound and/or ambient light data to the man-machine control module so as to control the sound system to work in a linkage and coordination mode with the light system.

2. The portable, mobile, multi-functional, modular, acousto-optic integrated device of claim 1, further comprising a signal control module, an interface module, and a power module disposed on the movable support module; the signal control module is respectively in communication connection with the man-machine control module, the light system and the interface module; the power supply module is electrically connected with the man-machine control module and is used for supplying power.

3. The portable and mobile multifunctional modularized acousto-optic integrated equipment according to claim 2, wherein the information recognition and processing module comprises an information processing module, and an image recognition module, a voice recognition module and an optical perception module which are respectively connected with the information processing module in a communication way; the information processing module is in communication connection with the man-machine control module, so that acquired image and/or sound and/or ambient light data are processed and then sent to the man-machine control module.

4. The portable, multi-functional, modular, acousto-optic integrated device of claim 3, wherein the man-machine control module comprises a master control module, a sound system information processing module, a light system information processing module, a mixing/tuning module, a digital audio processing module, a memory storage module; the master control module is respectively in communication connection with the information processing module, the sound system information processing module, the light system information processing module and the memory storage module; the sound system information processing module is respectively in communication connection with the sound system, the signal control module, the light system information processing module, the sound mixing/tuning module and the digital audio processing module; the lamplight system information processing module is in communication connection with the signal control module; the digital audio processing module is respectively in communication connection with the sound module and the sound mixing/tuning module.

5. The portable and mobile multi-functional modular acousto-optic integrated equipment of claim 4, wherein a light control module is also provided between the light system information processing module and the signal control module, and the light control module controls the light system according to the instruction of the light system information processing module.

6. The portable, multi-functional, modular, acousto-optic integrated device of claim 4, wherein the sound system includes a microphone module, a processing power amplifier module, and a speaker module; the microphone module is respectively in communication connection with the interface module, the sound system information processing module and the sound mixing/tuning module; the processing power amplifier module is respectively in communication connection with the sound system information processing module, the digital audio processing module and the loudspeaker module.

7. The portable multifunctional modularized acousto-optic integrated equipment according to claim 2, wherein the lighting system comprises a sound control module, a computer lamp module, a laser module, a projection lamp module and a decoration lamp module which are respectively and electrically connected with the signal control module, and the sound control module, the computer lamp module, the laser module, the projection lamp module and the decoration lamp module can be increased or decreased or replaced according to actual use requirements.

8. The portable, mobile, multi-functional, modular, acousto-optic integrated device of claim 1, wherein the mobile stand module includes a base, casters disposed at the bottom of the base, and a light stand disposed at the top of the base.

9. The portable, multi-functional, modular, acousto-optic integrated device of claim 8 wherein the height adjustable setting of the light fixture is used to adjust the height of the light system and the information recognition and processing module.