CN113194300B

CN113194300B - Light projection control system

Info

Publication number: CN113194300B
Application number: CN202110408194.9A
Authority: CN
Inventors: 尹浩
Original assignee: Guangzhou Dasen Lighting Electronics Ltd
Current assignee: Guangzhou Dasen Lighting Electronics Ltd
Priority date: 2021-04-15
Filing date: 2021-04-15
Publication date: 2022-10-28
Anticipated expiration: 2041-04-15
Also published as: CN113194300A

Abstract

The embodiment of the application discloses light projection control system, light projection control system is applied to outdoors, and this system includes: cloud server, projection subsystem and management subsystem, wherein: the cloud server is used for receiving the projection control instruction sent by the management subsystem and sending the projection control instruction to the projection subsystem; the projection subsystem is used for receiving a projection control instruction sent by the cloud server through the projection gateway and controlling the corresponding projection equipment according to the projection control instruction; and the management subsystem is used for generating a corresponding projection control instruction according to the input operation of the administrator and sending the projection control instruction to the cloud server.

Description

Light projection control system

Technical Field

The embodiment of the application relates to the technical field of light projection control, in particular to a light projection control system.

Background

With the rapid development of lighting technology and projection technology, a plurality of large outdoor entertainment places take lighting performance and large screen projection as one of entertainment projects, but the lighting equipment and the projection equipment have different control modes, and the lighting equipment or the projection equipment are separately controlled by respective control systems in the lighting control and projection control processes, so that the control efficiency is low, and the lighting equipment and the projection equipment are huge, so that the adaptability to various occasions is poor, the control operation is complex, the operability is poor, and the intelligence degree is low.

Disclosure of Invention

The embodiment of the application provides a light projection control system, can be to light, projection and electric power system unified control, has solved the technical problem that current control system management and control is inefficient, operates complicacy.

In a first aspect, an embodiment of the present application provides a light projection control system, which is applied outdoors, and the system includes: cloud server, projection subsystem and management subsystem, wherein:

the cloud server is used for receiving the projection control instruction sent by the management subsystem and sending the projection control instruction to the projection subsystem;

the projection subsystem is used for receiving a projection control instruction sent by the cloud server through a projection gateway and controlling the corresponding projection equipment according to the projection control instruction;

and the management subsystem is used for generating a corresponding projection control instruction according to an input operation of an administrator and sending the projection control instruction to the cloud server.

Optionally, the light projection control system further includes a light subsystem, wherein:

the lighting subsystem is used for receiving the lighting control instruction sent by the cloud server and controlling the corresponding lighting equipment according to the lighting control instruction;

the management subsystem is further used for acquiring a first locally stored light performance scheme, generating a corresponding light control instruction according to the light performance scheme, and sending the light control instruction to the cloud server;

the cloud server is further used for receiving the light control instruction sent by the management subsystem and sending the light control instruction to the light subsystem.

Optionally, the light projection control system further includes an electric subsystem, wherein:

the power subsystem is used for receiving a first power control instruction and a second power control instruction sent by the cloud server through a power gateway, and respectively controlling corresponding power supply equipment to supply power to lighting equipment and projection equipment according to the first power control instruction and the second power control instruction;

the management subsystem is further used for generating a first power control instruction according to a first locally-stored light performance scheme, generating a second power control instruction according to the projection control instruction, and sending the first power control instruction and the second power control instruction to the cloud server;

the cloud server is further used for receiving the first power control instruction and the second power control instruction sent by the management subsystem and sending the first power control instruction and the second power control instruction to the power subsystem.

Optionally, the projection control instruction includes a video playing instruction and an environmental regulation instruction, the projection subsystem includes a projection gateway, a first computer terminal, a projector and a protection box, the projection gateway is connected to the first computer terminal, the projector and the protection box, the first computer terminal is connected to the projector, wherein:

the projection gateway is used for receiving a video playing instruction and an environment adjusting instruction sent by the cloud server, sending the video playing instruction to the first computer terminal, and sending the environment adjusting instruction to the protection box; receiving the environmental parameters sent by the protective box and sending the environmental parameters to the cloud server so that the cloud server generates an environmental regulation instruction according to the environmental parameters;

the first computer terminal is used for receiving the projection control instruction sent by the projection gateway, correspondingly acquiring a locally stored video according to the projection control instruction, and sending the video to the projector;

the projector is used for receiving the video sent by the first computer terminal and projecting and playing the video;

the protection box is used for measuring the environmental parameters of the projector through a temperature and humidity sensor and sending the environmental parameters to the projection gateway; and receiving an environment adjusting instruction sent by the projection gateway so as to adjust the working power of the cooling device, the heating device and/or the drying device according to the environment adjusting instruction.

Optionally, the projection subsystem is provided with a plurality of projectors; correspondingly, the first computer terminal is further used for extracting at least one piece of video information and corresponding projector information from the projection control instruction, correspondingly obtaining a locally stored video according to the video information, and sending the video to a corresponding projector according to the projector information.

Optionally, the power subsystem includes a power gateway and a power supply controller, wherein:

the power gateway is used for receiving a second power control instruction sent by the cloud server and sending the second power control instruction to the power supply controller;

the power supply controller is used for receiving a second power control instruction sent by the power gateway and controlling the power supply equipment to supply power to the first computer terminal and the projector according to the second power control instruction so as to remotely start the first computer terminal and the projector.

Optionally, the cloud server includes a data processing unit, the power supply controller includes a preprocessing unit, and the protection box includes a control unit, wherein:

the data processing unit is used for acquiring current environmental parameters, geographic information and weather information, inputting the current environmental parameters, the geographic information and the weather information into a pre-trained neural network model, and obtaining preprocessing time output by the neural network model, wherein the preprocessing time is the time required by the protective box for adjusting the environmental parameters to the rated working parameters of the projector; determining the starting time of the protective box according to the preprocessing time and the preset starting time of the projector, and sending a preprocessing instruction to the electric gateway and the projection gateway at the starting time;

the preprocessing unit is used for receiving a preprocessing instruction sent by the power gateway and controlling the power supply equipment to supply power to the cooling device, the heating device and/or the drying device according to the preprocessing instruction;

the control unit is used for receiving the preprocessing instruction sent by the projection gateway and controlling the working power of the cooling device, the heating device and/or the drying device according to the preprocessing instruction.

Optionally, the control unit includes an early warning module, the early warning module is configured to acquire the environmental parameter, compare the environmental parameter with a preset parameter range, generate an early warning signal when the environmental parameter exceeds the parameter range, and send the early warning signal to the projection gateway, so that the projection gateway sends the early warning signal to the management subsystem through the cloud server.

Optionally, the management subsystem includes a mobile phone terminal, and the mobile phone terminal is configured to determine a management area corresponding to the mobile phone terminal according to account information logged in by the mobile phone terminal, receive operation data of the lighting subsystem, the projection subsystem, or the power subsystem, which is sent by the cloud server, obtain device operation data of the corresponding area from the operation data according to the management area, and monitor an operation status of the management area according to the device operation data.

Optionally, the mobile phone terminal includes a monitoring unit, where the monitoring unit is configured to compare the device operation data with a preset device operation parameter, and when the device operation data exceeds an effective range of the device operation parameter, display address information and an alarm signal of an alarm device in a display screen of the mobile phone terminal.

Optionally, the management subsystem further includes a second computer terminal, where the second computer terminal is configured to receive operating condition data of the light subsystem, the projection subsystem, and/or the power subsystem sent by the cloud server, and monitor operating conditions of the light subsystem, the projection subsystem, and the power subsystem according to the operating condition data.

Optionally, the light subsystem is a centralized light control subsystem, and it includes first light controller and first lamps and lanterns, first light controller connects the cloud ware with first lamps and lanterns, wherein:

the first light controller is used for receiving a first light control instruction sent by the cloud server and controlling the first lamp according to the first light control instruction.

Optionally, the light subsystem is distributed light control subsystem, and it includes second light controller, light sub-controller and second lamps and lanterns, the second light controller is connected a plurality of light sub-controller, every light sub-controller connects the second lamps and lanterns, wherein:

the second light controller is used for receiving a second light control instruction sent by the cloud server and sending the second light control instruction to the corresponding light controller;

and the light sub-controller is used for receiving a second light control instruction sent by the second light controller, acquiring a second light performance scheme stored locally according to the second light control instruction, and controlling the second lamp according to the second light performance scheme.

According to the embodiment of the application, the projection subsystem and the electric power subsystem are connected into the cloud server of the light protocol through the projection gateway and the electric power gateway, so that the projection subsystem, the electric power subsystem and the light subsystem are controlled in a unified mode through the cloud server. The other end of the cloud server is connected with a management subsystem, and the outdoor projection subsystem, the electric subsystem and the light subsystem are remotely controlled through the management subsystem, so that remote coordination control over the outdoor projection subsystem, the electric subsystem and the light subsystem is achieved, and the control efficiency is improved.

Drawings

Fig. 1 is a schematic structural diagram of a light projection control system according to an embodiment of the present disclosure;

FIG. 2 is a schematic structural diagram of a projection subsystem according to an embodiment of the present disclosure;

fig. 3 is a schematic structural diagram of a distributed light control subsystem according to an embodiment of the present application.

Detailed Description

In order to make the objects, technical solutions and advantages of the present application more apparent, specific embodiments of the present application will be described in detail with reference to the accompanying drawings. It is to be understood that the specific embodiments described herein are merely illustrative of the application and are not limiting of the application. It should be further noted that, for the convenience of description, only some but not all of the relevant portions of the present application are shown in the drawings. Before discussing exemplary embodiments in more detail, it should be noted that some exemplary embodiments are described as processes or methods depicted as flowcharts. Although a flowchart may describe the operations (or steps) as a sequential process, many of the operations can be performed in parallel, concurrently or simultaneously. In addition, the order of the operations may be re-arranged. The process may be terminated when its operations are completed, but could have additional steps not included in the figure. The processes may correspond to methods, functions, procedures, subroutines, and the like.

The embodiment of the application discloses a light projection control system, which aims to connect a projection subsystem and an electric subsystem into a cloud server of a light protocol through a projection gateway and the electric gateway so as to uniformly control the projection subsystem, the electric subsystem and the light subsystem through the cloud server. The other end of the cloud server is connected with a management subsystem, and the outdoor projection subsystem, the electric subsystem and the light subsystem are remotely controlled through the management subsystem, so that remote coordination control over the outdoor projection subsystem, the electric subsystem and the light subsystem is achieved, and the control efficiency is improved. Compared with the traditional control system, the control system is used for separately controlling the lighting equipment or the projection equipment in the lighting control and projection control processes, and the control efficiency is low. Based on this, this application embodiment provides a light projection control system to solve current control system management and control inefficiency, operate complicated technical problem.

Example one

Fig. 1 is a schematic structural diagram of a light projection control system according to an embodiment of the present disclosure. The light projection control system that this application embodiment provided is applied to the open air to control outdoor projector can work safely efficient. Specifically, referring to fig. 1, the light projection control system includes: the cloud server is respectively connected with the light subsystem, the electric subsystem, the projection subsystem and the management subsystem, and the electric subsystem supplies power to the light subsystem and the projection subsystem.

The cloud server is used for receiving the projection control instruction sent by the management subsystem, sending the projection control instruction to the projection subsystem, receiving the light control instruction sent by the management subsystem and sending the light control instruction to the light subsystem; and receiving a first power control command and a second power control command sent by the management subsystem, and sending the first power control command and the second power control command to the power subsystem. Illustratively, the cloud server may take hua-yun.

And the light subsystem is used for receiving the light control instruction sent by the cloud server and controlling the corresponding light equipment according to the light control instruction.

The projection subsystem is used for receiving the projection control instruction sent by the cloud server through the projection gateway and controlling the corresponding projection equipment according to the projection control instruction.

The power subsystem is used for receiving a first power control instruction and a second power control instruction sent by the cloud server through the power gateway, and respectively controlling the corresponding power supply equipment to supply power to the lighting equipment and the projection equipment according to the first power control instruction and the second power control instruction.

The management subsystem is used for acquiring a first light performance scheme stored locally, generating a corresponding light control instruction according to the light performance scheme, and sending the light control instruction to the cloud server; receiving a projection control instruction sent by a cloud server through a projection gateway, and controlling corresponding projection equipment according to the projection control instruction; the method comprises the steps of generating a first power control instruction according to a first light performance scheme stored locally, generating a second power control instruction according to a projection control instruction, and sending the first power control instruction and the second power control instruction to a cloud server.

In one embodiment, a manager inputs projection control operation in a management subsystem, the management subsystem generates a projection control instruction and a second power control instruction according to the projection control operation, the projection control instruction and the second power control instruction are uploaded to a cloud server, and the cloud server issues the projection control instruction and the second power control instruction to the projection subsystem and the power subsystem respectively. The projection subsystem receives the projection control instruction through the projection gateway and controls the working state of the corresponding projection equipment according to the projection control instruction. And the power subsystem receives the second power control instruction through the power gateway and controls the corresponding power supply equipment to supply power to the corresponding projection equipment according to the second power control instruction.

In another embodiment, a manager selects a first locally stored light performance scheme in a management subsystem, the management subsystem generates a light control instruction and a first power control instruction according to the first light performance scheme, the light control instruction and the first power control instruction are uploaded to a cloud server, and the cloud server issues the light control instruction and the first power control instruction to the light subsystem and the power subsystem respectively. And the light subsystem receives the light control instruction sent by the cloud server and controls the working state of the corresponding light equipment according to the light control instruction. The power subsystem receives the first power control instruction through the power gateway and controls the corresponding power supply equipment to supply power to the corresponding lighting equipment according to the first power control instruction.

Fig. 2 is a schematic structural diagram of a projection subsystem according to an embodiment of the present disclosure. As shown in fig. 2, the projection subsystem specifically includes a projection gateway, a first computer terminal, a projector and a protection box, the projection gateway is connected to the first computer terminal, the projector and the protection box, the first computer terminal is connected to the projector, wherein: the projection gateway is used for receiving a video playing instruction and an environment adjusting instruction sent by the cloud server, sending the video playing instruction to the first computer terminal and sending the environment adjusting instruction to the protection box; receiving the environmental parameters sent by the protective box and sending the environmental parameters to the cloud server so that the cloud server generates an environmental regulation instruction according to the environmental parameters; the first computer terminal is used for receiving the projection control instruction sent by the projection gateway, correspondingly acquiring a locally stored video according to the projection control instruction and sending the video to the projector; the projector is used for receiving the video sent by the first computer terminal and projecting and playing the video; the protection box is used for measuring the environmental parameters of the projector through the temperature and humidity sensor and sending the environmental parameters to the projection gateway; and receiving an environment adjusting instruction sent by the projection gateway so as to adjust the working power of the cooling device, the heating device and/or the drying device according to the environment adjusting instruction. It can be understood that the projection gateway converts DMX512 data transmitted by the cloud server into 232 bus data, so that projection subsystems and light subsystems of different communication protocols can be arranged in the same control system. According to the embodiment, the first computer terminal, the projector and the protection box are connected into the cloud server through the projection gateway, so that the management end remotely controls the outdoor projector to play selected contents, the remote control outdoor protection box maintains limit working environment parameters of the projector, and the outdoor management convenience is improved.

Further, the projection subsystem is provided with a plurality of projectors. Correspondingly, the first computer terminal is also used for extracting at least one piece of video information and corresponding projector information from the projection control instruction, correspondingly acquiring a locally stored video according to the video information, and sending the video to the corresponding projector according to the projector information. For example, suppose that four projectors are arranged in a projection subsystem, an administrator wants to play different videos on the four projectors, the administrator selects video content played by each projector at a management subsystem end, the management subsystem generates a projection control instruction according to video information input by the administrator and projector information corresponding to the played videos, sends the projection control instruction to a cloud server, the cloud server sends the projection control instruction to a projection gateway, and the projection gateway converts the data type of the projection control instruction into a data type processable by a first computer terminal and sends the converted projection control instruction to a second computer terminal. And the second computer terminal responds to the projection control instruction, extracts video information and projector information for correspondingly playing the video from the projection control instruction, correspondingly obtains the locally stored video according to the video information, and sends the video to the corresponding projector according to the projector information so as to realize that the plurality of projectors simultaneously display the corresponding video.

In one embodiment, the power subsystem specifically includes a power gateway and a power supply controller, where the power gateway is connected to the power supply controller, and the power supply controller is connected to the power supply device. Wherein: the power gateway is used for receiving a second power control instruction sent by the cloud server and sending the second power control instruction to the power supply controller; and the power supply controller is used for receiving a second power control instruction sent by the power gateway and controlling the power supply equipment to supply power to the first computer terminal and the projector according to the second power control instruction so as to remotely start the first computer terminal and the projector. The first computer terminal and the projector are powered by the remote control power supply equipment, so that the first computer terminal and the projector can be started remotely without manual startup and shutdown of workers on site, and the working convenience is improved.

In one embodiment, the cloud server includes a data processing unit, the power supply controller includes a preprocessing unit, and the protective box includes a control unit. Wherein: the data processing unit is used for acquiring current environmental parameters, geographic information and weather information, inputting the current environmental parameters, the geographic information and the weather information into a pre-trained neural network model, and obtaining the preprocessing time output by the neural network model, wherein the preprocessing time is the time required by the protective box for adjusting the environmental parameters to the rated working parameters of the projector; determining the starting time of the protective box according to the preprocessing time and the preset starting time of the projector, and sending a preprocessing instruction to the electric gateway and the projection gateway at the starting time; the preprocessing unit is used for receiving a preprocessing instruction sent by the power gateway and controlling the power supply equipment to supply power to the cooling device, the heating device and/or the drying device according to the preprocessing instruction; the control unit is used for receiving the preprocessing instruction sent by the projection gateway and controlling the working power of the cooling device, the heating device and/or the drying device according to the preprocessing instruction.

Exemplarily, the temperature and humidity sensor arranged in the protective box detects the environmental parameters of the projector all the year round, so the temperature and humidity sensor can generate a large amount of environmental parameter data for a long time, and the environmental parameter big data are processed through the cloud server and are used for analyzing the required adjusting time of the current environmental parameters of the projector to the rated working parameters under different weather and geographic environments. Specifically, historical environmental parameters are obtained, weather and geographic information when the historical environmental parameters are collected are obtained, corresponding historical adjusting time is obtained, and the neural network model is trained through the data, so that the neural network model which is trained in advance is obtained. And inputting the current environmental parameters, weather and geographic information into a pre-trained neural network model to obtain the adjusting time output by the neural network model. The difference between the adjusting time and the starting time of the projector can determine how long the cooling device, the heating device and/or the drying device in the protective box need to be opened in advance to preprocess the working environment of the projector. The preprocessing time is accurately acquired through the big data so as to save the preprocessing electric quantity. Further, when the environmental parameters of the projector reach rated working parameters, the cloud server sends a second power control instruction to the power gateway at the startup time of the projector so as to control the power equipment to supply power to the projector and the first computer terminal and remotely start up the projector. The embodiment can be executed on the cloud server from preprocessing to startup, an administrator is not required to operate on site, the operation is convenient and simple, and the control efficiency is high.

Further, the control unit comprises an early warning module, the early warning module is used for acquiring the environmental parameters, comparing the environmental parameters with a preset parameter range, generating an early warning signal when the environmental parameters exceed the parameter range, and sending the early warning signal to the projection gateway, so that the projection gateway sends the early warning signal to the management subsystem through the cloud server. For example, the projector is an expensive electronic device, and the working environment of the projector affects the service life of the projector, so that the early warning module is arranged, whether the working environment of the projector is suitable or not is monitored on site through the early warning module, if not, an alarm signal is generated and reported to the cloud server, and the cloud server sends the alarm signal to the management subsystem, so that a manager at the management subsystem end informs a field worker to the site to check and maintain the projector.

In one embodiment, the management subsystem comprises a mobile phone terminal and a second computer terminal. The mobile phone terminal is used for determining a management area corresponding to the mobile phone terminal according to account information logged in by the mobile phone terminal, receiving operation data of a lighting subsystem, a projection subsystem or an electric power subsystem sent by the cloud server, acquiring equipment operation data of the corresponding area from the operation data according to the management area, and monitoring the operation condition of the management area according to the equipment operation data. The management subsystem further comprises a second computer terminal, and the second computer terminal is used for receiving the operation condition data of the light subsystem, the projection subsystem and the power subsystem, which are sent by the cloud server, and monitoring the operation conditions of the light subsystem, the projection subsystem and the power subsystem according to the operation condition data.

Illustratively, the management subsystem is provided with a mobile phone terminal and a second computer terminal which are respectively used by field workers and a remote management administrator, and the corresponding client functions are different due to different users. The mobile phone terminal mainly displays the equipment operation data of the corresponding region on the mobile phone terminal according to the working region to which the worker belongs, so that the worker can check the equipment operation data of the working region through the mobile phone terminal in real time. And the second computer terminal can display the equipment operation data of all areas on the screen, so that an administrator can control the whole working state of the whole system. According to the embodiment of the application, the mobile phone terminal and the second computer terminal are used for realizing on-site and remote cooperative management, and the management efficiency is improved.

Further, the mobile phone terminal comprises a monitoring unit, wherein the monitoring unit is used for comparing the equipment operation data with preset equipment operation parameters, and when the equipment operation data exceeds the effective range of the equipment operation parameters, the address information and the alarm signal of the alarm equipment are displayed in a display screen of the mobile phone terminal. Illustratively, when the operation data of a certain device exceeds the operation data range of the reasonably working device, the mobile phone terminal can remind the user of the corresponding position information of the device, so that the user can conveniently check and maintain the device.

In one embodiment, the light subsystem may be provided with two control schemes, one being a centralized control scheme and the other being a distributed control scheme.

Specifically, if the light subsystem is a centralized light control subsystem, the centralized light control subsystem comprises a first light controller and a first lamp, and the first light controller is connected with the cloud server and the first lamp. Wherein: the first light controller is used for receiving a first light control instruction sent by the cloud server and controlling the first lamp according to the first light control instruction. Illustratively, a user selects a first light performance scheme stored locally at a second computer terminal, the second computer terminal generates a first light control instruction and a first power control instruction and uploads the first light control instruction and the first power control instruction to a cloud server, the cloud server issues the first light control instruction and the first power control instruction to a centralized light control subsystem and a power subsystem respectively, the power subsystem controls a power supply device to supply power to a first lamp according to the first power control instruction, and the centralized light control subsystem controls the first lamp according to the first light control instruction, so that the first lamp performs according to the first light performance scheme.

Fig. 3 is a schematic structural diagram of a distributed light control subsystem according to an embodiment of the present application. As shown in fig. 3, if the light subsystem is a distributed light control subsystem, it includes a second light controller, a light sub-controller and a second lamp, the second light controller is connected to a plurality of light sub-controllers, and each light sub-controller is connected to the second lamp. Wherein: the second light controller is used for receiving a second light control instruction sent by the cloud server and sending the second light control instruction to the corresponding light controller; and the light controller is used for receiving a second light control instruction sent by the second light controller, acquiring a second light show scheme stored locally according to the second light control instruction, and controlling a second lamp according to the second light show scheme. Illustratively, the light sub-controllers correspondingly control a second lamp of one area, a user selects a light show number corresponding to each area at a second computer terminal, the second computer terminal generates a second light control instruction and a first power control instruction and uploads the second light control instruction and the first power control instruction to the cloud server, the cloud server issues the second light control instruction and the first power control instruction to the distributed light control subsystem and the power subsystem respectively, the power subsystem controls the power supply equipment to supply power to the second lamp according to the second power control instruction, the second light controller issues the light show number corresponding to the area to the corresponding light sub-controllers according to the area in the second light control instruction, and the light sub-controllers obtain a second light show scheme corresponding to local storage according to the light show number and control the second lamp according to the second light show scheme, so that the second lamp performs a show according to the second light show scheme.

In summary, the projection lighting control system provided by the embodiment of the present application accesses the projection subsystem and the power subsystem into the cloud server of the lighting protocol through the projection gateway and the power gateway, so as to uniformly control the projection subsystem, the power subsystem and the lighting subsystem through the cloud server. The other end of the cloud server is connected with a management subsystem, and the outdoor projection subsystem, the electric subsystem and the light subsystem are remotely controlled through the management subsystem, so that remote coordination control over the outdoor projection subsystem, the electric subsystem and the light subsystem is achieved, and the control efficiency is improved.

The foregoing is considered as illustrative only of the preferred embodiments of the invention and the principles of the technology employed. The present application is not limited to the particular embodiments described herein, but is capable of various obvious changes, rearrangements and substitutions as will now become apparent to those skilled in the art without departing from the scope of the invention. Therefore, although the present application has been described in more detail with reference to the above embodiments, the present application is not limited to the above embodiments, and may include other equivalent embodiments without departing from the spirit of the present application, and the scope of the present application is determined by the scope of the claims.

Claims

1. A light projection control system for outdoor use, the system comprising: cloud server, projection subsystem, electric power subsystem and management subsystem, the projection subsystem includes projection gateway, projector and protective housing, the projection gateway is connected projector and protective housing, the protective housing includes the control unit, the electric power subsystem includes electric power gateway and power supply controller, the power supply controller includes preprocessing unit, wherein:

the management subsystem is used for generating a corresponding projection control instruction according to an input operation of an administrator and sending the projection control instruction to the cloud server; generating a second power control instruction according to the projection control instruction, and sending the second power control instruction to the cloud server;

the cloud server is used for receiving the projection control instruction sent by the management subsystem and sending the projection control instruction to the projection subsystem; receiving a second power control instruction sent by the management subsystem, and sending the second power control instruction to the power subsystem;

the projection subsystem is used for receiving a projection control instruction sent by the cloud server through the projection gateway and controlling a corresponding projector according to the projection control instruction;

the power subsystem is used for receiving a second power control instruction sent by the cloud server through the power gateway and controlling corresponding power supply equipment to supply power to the projector according to the second power control instruction;

the cloud server comprises a data processing unit, wherein:

the data processing unit is used for acquiring current environmental parameters, geographic information and weather information of the projector, inputting the current environmental parameters, the geographic information and the weather information of the projector into a pre-trained neural network model, and obtaining preprocessing time output by the neural network model, wherein the preprocessing time is the time required by the protective box for adjusting the environmental parameters to the rated working parameters of the projector; determining the starting time of the protective box according to the preprocessing time and the preset starting time of the projector, and sending a preprocessing instruction to the electric gateway and the projection gateway at the starting time;

the preprocessing unit is used for receiving a preprocessing instruction sent by the power gateway and controlling the power supply equipment to supply power to a cooling device, a heating device and/or a drying device of the protective box according to the preprocessing instruction;

the control unit is used for receiving the preprocessing instruction sent by the projection gateway and controlling the working power of the cooling device, the heating device and/or the drying device of the protective box according to the preprocessing instruction.

2. The system of claim 1, wherein the light projection control system further comprises a light subsystem, wherein:

the lighting subsystem is used for receiving the lighting control instruction sent by the cloud server and controlling corresponding lighting equipment according to the lighting control instruction;

the management subsystem is further used for acquiring a first light performance scheme stored locally, generating a corresponding light control instruction according to the first light performance scheme, and sending the light control instruction to the cloud server;

3. The system of claim 1, wherein the light projection control system further comprises a power subsystem, wherein:

the power subsystem is used for receiving a first power control instruction sent by the cloud server through a power gateway and controlling corresponding power supply equipment to supply power to lighting equipment according to the first power control instruction;

the management subsystem is further used for generating a first power control instruction according to a first locally stored light performance scheme and sending the first power control instruction to the cloud server;

the cloud server is further used for receiving the first power control instruction sent by the management subsystem and sending the first power control instruction to the power subsystem.

4. The system of claim 3, wherein the projection control command comprises a video playback command and an environmental adjustment command, the projection subsystem further comprises a first computer terminal, the projection gateway is connected to the first computer terminal, and the first computer terminal is connected to the projector, wherein:

the protection box is used for measuring the environmental parameters of the projector through a temperature and humidity sensor and sending the environmental parameters to the projection gateway; receiving an environment adjusting instruction sent by the projection gateway, and adjusting the working power of the cooling device, the heating device and/or the drying device according to the environment adjusting instruction.

5. The system of claim 4, wherein the projection subsystem is provided with a plurality of the projectors;

correspondingly, the first computer terminal is further used for extracting at least one piece of video information and corresponding projector information from the projection control instruction, correspondingly obtaining a locally stored video according to the video information, and sending the video to a corresponding projector according to the projector information.

6. The system of claim 4, wherein the power gateway is further configured to receive a second power control command sent by the cloud server and send the second power control command to the power supply controller;

the power supply controller is further used for receiving a second power control instruction sent by the power gateway and controlling the power supply equipment to supply power to the first computer terminal and the projector according to the second power control instruction so as to remotely start the first computer terminal and the projector.

7. The system of claim 1, wherein the control unit comprises an early warning module, and the early warning module is configured to obtain a current environmental parameter of the projector, compare the current environmental parameter of the projector with a preset parameter range, generate an early warning signal when the current environmental parameter of the projector exceeds the parameter range, and send the early warning signal to the projection gateway, so that the projection gateway sends the early warning signal to the management subsystem through the cloud server.

8. The system according to claim 1, wherein the management subsystem comprises a mobile phone terminal, and the mobile phone terminal is configured to determine a management area corresponding to the mobile phone terminal according to account information logged in by the mobile phone terminal, receive operation data of a lighting subsystem, a projection subsystem or an electric power subsystem sent by the cloud server, obtain device operation data of a corresponding area from the operation data according to the management area, and monitor an operation status of the management area according to the device operation data.

9. The system according to claim 8, wherein the mobile phone terminal comprises a monitoring unit, the monitoring unit is configured to compare the device operation data with preset device operation parameters, and when the device operation data exceeds an effective range of the device operation parameters, address information and an alarm signal of an alarm device are displayed on a display screen of the mobile phone terminal.

10. The system of claim 1, wherein the management subsystem further comprises a second computer terminal, and the second computer terminal is configured to receive operating condition data of the light subsystem, the projection subsystem and/or the power subsystem, which is sent by the cloud server, and monitor operating conditions of the light subsystem, the projection subsystem and the power subsystem according to the operating condition data.

11. The system of claim 2, wherein the light subsystem is a centralized light control subsystem comprising a first light controller and a first light fixture, the first light controller connecting the cloud server and the first light fixture, wherein:

12. The system of claim 2, wherein the light subsystem is a distributed light control subsystem comprising a second light controller, a light sub-controller, and a second light fixture, the second light controller coupled to a plurality of the light sub-controllers, each light sub-controller coupled to the second light fixture, wherein: