CN110018676B - Distributed networking acousto-optic vision mechanical control system - Google Patents

Abstract

The invention provides a distributed networking acousto-optic mechanical control system, which comprises a plurality of distributed stations, wherein all the distributed stations are mutually connected; each distributed site includes: the system comprises an acousto-optic vision mechanical processor and at least one terminal control board card; the acousto-optic vision mechanical processor is connected with the terminal control panel card, each terminal control panel card is connected with a terminal device, and the acousto-optic vision mechanical processor controls the terminal device through the terminal control panel card. In the system, other sites are not influenced by the loss of any site, and any site stores the latest information content, so that the system is safer compared with a network structure of a master control center.

Description

Distributed networking acousto-optic vision mechanical control system

Technical Field

The invention relates to the field of equipment control, in particular to an acousto-optic mechanical control system of distributed networking.

Background

At present, more and more acousto-optic and visual mechanical terminal equipment is applied to the industries of landscape brightening, live-action performance and the like, including stage lamps, videos, projection, sound, machinery, water curtain fountains, smoke machines, flaming and the like. More and more night tour projects begin to contain multiple small scenic spots, each of which has a different acousto-optic vision equipment to show artistic effects.

As the patent with publication number CN 108227533a discloses an electric stage controller, the control system of this kind of project usually adopts a centralized control manner, and the safety and flexibility are poor. Once the master control end goes wrong, all small scenic spots cannot perform, and the safety is very poor.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to provide a distributed networking acousto-optic mechanical control system.

The acousto-optic mechanical control system of the distributed networking comprises a plurality of distributed stations, wherein all the distributed stations are connected with one another;

each distributed site includes: the system comprises an acousto-optic vision mechanical processor and at least one terminal control board card;

the acousto-optic vision mechanical processor is connected with the terminal control board cards, and each terminal control board card is connected with a terminal device.

Preferably, at least one of the distributed sites is configured with programming equipment such as a light console, a sound console and the like as a control programming center, and the control programming center is connected with other distributed sites through a switch.

Preferably, the acousto-optic mechanical processor includes a remote control interface that receives control commands from a network.

Preferably, the terminal equipment comprises light, music, video or mechanical, laser, a cigarette machine, a fog machine, a flaming equipment and the like.

Preferably, the acousto-optic mechanical processor has a memory built in.

Preferably, the acousto-optic mechanical processor is internally provided with a background processing program for synchronizing the storage class information among the distributed stations.

Preferably, the method of synchronization comprises: and the background processing program monitors the storage information change request in the network, and receives and stores the storage information from other distributed sites.

Preferably, the acousto-optic mechanical processor comprises a PC.

Preferably, the acousto-optic vision mechanical processor is internally provided with control software of the terminal equipment and a driving program of the terminal control board card.

Preferably, the terminal control board card comprises a USB, RS232, RJ45, PCI or PCI-E interface.

Compared with the prior art, the invention has the following beneficial effects:

1. in the structure, the loss of any station in the system does not affect other stations, and the system is safer compared with a network structure of a master control center;

2. any site can be selected as a control programming center, where light programming devices, sound programming devices, video programming devices, etc. are equipped, and the programming devices access the entire network through the switch.

Drawings

Other features, objects and advantages of the invention will become more apparent upon reading of the detailed description of non-limiting embodiments with reference to the following drawings:

FIG. 1 is a diagram of the hardware configuration of the present invention;

FIG. 2 is a schematic diagram of the hardware architecture of the acousto-optic vision processor of the present invention;

fig. 3 is a schematic diagram of a network connection structure according to the present invention.

Detailed Description

The present invention will be described in detail with reference to specific examples. The following examples will assist those skilled in the art in further understanding the invention, but are not intended to limit the invention in any way. It should be noted that it would be obvious to those skilled in the art that various changes and modifications can be made without departing from the spirit of the invention. All falling within the scope of the present invention.

As shown in fig. 1, the distributed networked acousto-optic mechanical control system provided by the present invention includes a plurality of distributed sites, all of which are connected to each other;

each distributed site includes: the acousto-optic vision mechanical processor and the terminal control board card are existing products in the market, and the internal structure of the acousto-optic vision mechanical processor and the terminal control board card is not limited;

the acousto-optic vision mechanical processor is connected with the terminal control panel card, each terminal control panel card is connected with a terminal device, and the acousto-optic vision mechanical processor controls the terminal devices through the terminal control panel card.

The system is designed in a decentralized mode, a master control center is not arranged, and any station in the system stores the latest information content which comprises program files and content files; each station has its own device configuration information according to the situation of its own connected terminal device.

As shown in fig. 2 and fig. 3, the acousto-optic vision instrument processor used in the distributed site is embedded with one or more types of acousto-optic vision instrument playing control software, which can realize control and playing of light, music, video and machinery.

The acousto-optic vision mechanical processor used by the distributed station is internally provided with driving systems of different terminal control board cards and is used for supporting different types of control board cards.

The playing control software provides a remote control interface and can realize playing and control of a mobile terminal or a remote network.

The acousto-optic vision mechanical processor used by the distributed station adopts a PC mainboard and a windows system.

The acousto-optic vision instrument processor used by the distributed site is internally provided with a storage device for storing various information contents including program files and content files of light, music, video and machinery and also storing configuration files of acousto-optic vision instruments, wherein the configuration files are used for setting configuration information of relevant terminal devices such as light, music, video and machinery.

A background processing program is arranged in an acousto-optic vision mechanical processor used by a distributed site, and is used for synchronizing storage information of the site. Through the background processing program, all distributed site processors in the network can have the latest information content.

The terminal control board card realizes the control of various terminal devices, including various terminal devices such as light, sound, video, machinery, laser, projection, fountain and the like, and supported protocols include DANTE, DMX512, Artnet, HDMI, EtherCAT and the like. For example, the sound card plays sound, the video display card outputs video content, the fountain board card controls the fountain module, and the RS232 board card controls mechanical equipment.

Each distributed station uses 1 or more terminal control board cards of different types according to different connected terminal devices.

The terminal control board card has different interface types (USB, PCI-E, RJ45, RS232, etc.) and can be directly connected to corresponding slots or interfaces (USB, PCI-E, RJ45, RS232, etc.) provided by a PC mainboard of the acousto-optic mechanical processor.

Any station in the system is disconnected without influencing other stations, and the latest information content is stored in any station, so that the system is safer compared with a network structure of a master control center.

The user can select any site as a control programming center, and the center is provided with a light programming device, a sound programming device, a video programming device and the like, and the programming device accesses the whole network through the switch. Through this type of programming device, the latest program and content files of the acousto-optic vision instrument are stored in the local site processor, and the local site processor background program informs the processors of the rest sites to update the program and content files. The network structure of the master control center on the user logic is realized, and the resources of programming equipment are saved.

Through this type of programming device, the latest program and content files of the acousto-optic vision instrument are stored in the local site processor, and the local site processor background program informs the processors of the rest sites to update the program and content files. The network structure of the master control center on the user logic is realized, and the resources of programming equipment are saved.

Each distributed site is controlled through self broadcast control software, independent of other sites and independent in operation, and real-time performance of control is guaranteed. And the broadcast control software receives a broadcast instruction from a user, transmits corresponding program information to the terminal board card according to the configuration information of the sites, and transmits the program information to the terminal lamp.

The foregoing description of specific embodiments of the present invention has been presented. It is to be understood that the present invention is not limited to the specific embodiments described above, and that various changes or modifications may be made by one skilled in the art within the scope of the appended claims without departing from the spirit of the invention. The embodiments and features of the embodiments of the present application may be combined with each other arbitrarily without conflict.

Claims (7)

1. The acousto-optic mechanical control system of the distributed network is characterized by comprising a plurality of distributed stations, wherein all the distributed stations are connected with each other;

each distributed site includes: the system comprises an acousto-optic vision mechanical processor and at least one terminal control board card;

the acousto-optic vision mechanical processor is connected with the terminal control board card, and each terminal control board card is connected with a terminal device;

a background processing program is built in the acousto-optic visual mechanical processor, storage class information among all the distributed stations is synchronized, and the synchronization method comprises the following steps: a background processing program monitors a storage information change request in a network, receives and stores storage information from other distributed sites;

at least one distributed site is used as a control programming center and is configured with programming equipment, and the control programming center is connected with other distributed sites through a switch;

selecting any distributed site as a control programming center, accessing the programming equipment to the whole network through a switch, storing the latest program and content files of the acousto-optic video instrument in a local distributed site processor through the programming equipment, and simultaneously informing processors of other distributed sites of updating the program and content files by background programs of the local distributed site processor.

2. The distributed networked acousto-optic vision mechanical control system according to claim 1, wherein said acousto-optic vision mechanical processor includes a remote control interface that receives control commands from a network.

3. The distributed networked acousto-optic mechanical control system according to claim 1, wherein said terminal devices include lights, music, video, mechanical, laser, smoke machine, fog machine, or fire-jet device.

4. The distributed networked acousto-optic mechanical control system according to claim 1, wherein the acousto-optic mechanical processor has a built-in memory.

5. The distributed networked acousto-optic vision mechanical control system according to claim 1, wherein the acousto-optic vision mechanical processor comprises a PC.

6. The distributed networking acousto-optic vision mechanical control system according to claim 1, wherein the acousto-optic vision mechanical processor is internally provided with control software of the terminal device and a driver of the terminal control board.

7. The distributed networked acousto-optic mechanical control system according to claim 1, wherein said terminal control board includes a USB, RS232, RJ45, PCI or PCI-E interface.

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