CN110958752A - Three-dimensional visual light control system - Google Patents
Three-dimensional visual light control system Download PDFInfo
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- CN110958752A CN110958752A CN201911363949.7A CN201911363949A CN110958752A CN 110958752 A CN110958752 A CN 110958752A CN 201911363949 A CN201911363949 A CN 201911363949A CN 110958752 A CN110958752 A CN 110958752A
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- 230000000007 visual effect Effects 0.000 title claims abstract description 34
- 238000012544 monitoring process Methods 0.000 claims abstract description 38
- 238000001514 detection method Methods 0.000 claims description 26
- 238000005265 energy consumption Methods 0.000 claims description 14
- 238000013523 data management Methods 0.000 claims description 6
- 238000012800 visualization Methods 0.000 claims description 4
- 230000006855 networking Effects 0.000 description 14
- 230000000694 effects Effects 0.000 description 8
- 238000004891 communication Methods 0.000 description 7
- 238000004134 energy conservation Methods 0.000 description 6
- 230000008901 benefit Effects 0.000 description 3
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- 238000005516 engineering process Methods 0.000 description 2
- 238000012360 testing method Methods 0.000 description 2
- 230000007547 defect Effects 0.000 description 1
- 230000007613 environmental effect Effects 0.000 description 1
- 238000005286 illumination Methods 0.000 description 1
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02B—CLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO BUILDINGS, e.g. HOUSING, HOUSE APPLIANCES OR RELATED END-USER APPLICATIONS
- Y02B20/00—Energy efficient lighting technologies, e.g. halogen lamps or gas discharge lamps
- Y02B20/40—Control techniques providing energy savings, e.g. smart controller or presence detection
Abstract
The invention belongs to the technical field of light control, and discloses a three-dimensional visual light control system, which comprises: the wireless ad hoc network unit of the three-dimensional visual light control platform is connected with the system monitoring platform, the light control unit is connected with the three-dimensional visual light control platform and the system monitoring platform through the wireless ad hoc network unit, the light control unit is connected with the automatic energy-saving adjusting unit through the wireless ad hoc network unit, and the automatic energy-saving adjusting unit is connected with the environment monitoring unit through the wireless ad hoc network unit. The invention can improve the intelligence and the intuition of the light control.
Description
Technical Field
The invention belongs to the technical field of light control, and particularly relates to a three-dimensional visual light control system.
Background
Under the background of increasingly tense global energy sources, how to realize energy conservation and emission reduction becomes the subject of the world at present, wherein illumination accounts for a large part of human energy consumption and accounts for about 20 percent of the total generated energy.
The prior art has no three-dimensional visual light control effect, or provides wired mode control, or controls through wireless but has wired network scale, or cannot realize automatic networking, or provides light scenes alone, or cannot provide light environment and air environment, or cannot realize automatic energy consumption adjustment, or has low automation degree, or has complex system, or needs too many devices.
Disclosure of Invention
The embodiment of the invention aims to provide a three-dimensional visual light control system which can improve the intelligence and intuition of light control.
The embodiment of the invention is realized as follows:
a light control system that is three-dimensional visualized, comprising: the system comprises a three-dimensional visual light control platform, a system monitoring platform, a plurality of wireless ad hoc network units, a plurality of light control units, a plurality of automatic energy-saving adjusting units and a plurality of environment monitoring units, wherein the wireless ad hoc network units of the three-dimensional visual light control platform are connected with the system monitoring platform;
the environment monitoring unit carries out environment detection on the light environment and sends the detection result to the automatic energy-saving adjusting unit through the wireless ad hoc network unit;
the automatic energy-saving adjusting unit sends control commands including automatic energy saving, switching, color temperature adjustment and color control commands to the light control unit through the wireless ad hoc network unit according to the environment data;
the light control unit receives the instruction, executes the control instruction to control light and detects the light state;
the three-dimensional visual light control platform monitors, remotely controls and automatically controls the state and energy consumption of light through the light control unit, and displays the three-dimensional state of the light in real time;
the system monitoring platform performs equipment access state detection, accesses lighting equipment with different types and different interfaces, provides a standard Internet of things data interface, performs two-dimensional display, checks the state and energy consumption of the access equipment in real time, and realizes remote control on the lighting equipment, performs wireless ad hoc network unit network state detection, and checks the current wireless ad hoc network state and network topology structure in real time;
the three-dimensional visual light control platform is provided with a three-dimensional model display module, a three-dimensional data management module and a three-dimensional equipment monitoring module, wherein all light is distributed; through the three-dimensional model display module, the lamplight scene can be checked in a three-dimensional mode; the real-time data of the lamplight is visually displayed on the three-dimensional model through the three-dimensional data management module; and the lighting equipment is remotely managed in real time through the three-dimensional equipment monitoring module.
The invention overcomes the defects that the prior art provides wired control, or wireless control but wired network scale, or cannot realize automatic networking, or independently provide light scenes, or cannot provide light environment and air environment, or cannot realize automatic energy consumption adjustment, or has low automation degree, complex system or excessive required equipment. The system of the invention can realize a light control system quickly and efficiently by a combination of embedded software and hardware which integrates wireless communication, automatic networking, automatic detection, environment detection, automatic energy conservation, dimming, color temperature control, color control and the like, and realizes visual control, automatic display of energy-saving data and the like by monitoring, thereby greatly improving the automation degree and realizing energy conservation and emission reduction to the utmost extent; the lamplight state is displayed in a three-dimensional mode through a three-dimensional visual model of the platform, and the visual effect, namely the controlled effect, is realized; the economic benefit and social contribution are improved, and the contribution to the society can be digitalized and visually embodied.
Drawings
FIG. 1 is a schematic diagram of a three-dimensional visual light control system networking of the present invention;
fig. 2 is a three-dimensional visual light control system control schematic diagram of the invention.
Detailed Description
In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.
The invention relates to a three-dimensional visual display light control system, which can display the light state in a three-dimensional manner, realize the visual effect, namely the controlled effect, realize the automatic networking function, automatically adjust the light according to the real-time environment, and realize the purposes of energy conservation, emission reduction and automatic control; the wireless device automatic networking, automatic detection and automatic restoration are realized through the ad hoc network, the network state is visually displayed in real time through software, and visual control, automatic energy-saving data display and the like are realized through monitoring. The light control system of the invention integrates wireless communication, automatic networking, automatic detection, environment detection, automatic energy conservation, dimming, color temperature control, color control and the like into a whole, and is a combination of embedded software and hardware.
The following detailed description of specific implementations of the present invention is provided in conjunction with specific embodiments:
the light control system is an intelligent system which can give consideration to wireless communication, wireless ad hoc network, expandable node scale, automatic node detection and automatic energy consumption control.
A light control system that is three-dimensional visualized, comprising: the system comprises a three-dimensional visual light control platform, a system monitoring platform, a plurality of wireless ad hoc network units, a plurality of light control units, a plurality of automatic energy-saving adjusting units and a plurality of environment monitoring units, wherein the wireless ad hoc network units of the three-dimensional visual light control platform are connected with the system monitoring platform;
the environment monitoring unit carries out environment detection on the light environment and sends the detection result to the automatic energy-saving adjusting unit through the wireless ad hoc network unit;
the automatic energy-saving adjusting unit sends control commands including automatic energy saving, switching, color temperature adjustment and color control commands to the light control unit through the wireless ad hoc network unit according to the environment data;
the light control unit receives the instruction, executes the control instruction to control light and detects the light state;
the three-dimensional visual light control platform monitors, remotely controls and automatically controls the state and energy consumption of light through the light control unit, and displays the three-dimensional state of the light in real time;
the system monitoring platform performs equipment access state detection, accesses lighting equipment with different types and different interfaces, provides a standard Internet of things data interface, performs two-dimensional display, checks the state and energy consumption of the access equipment in real time, and realizes remote control on the lighting equipment, performs wireless ad hoc network unit network state detection, and checks the current wireless ad hoc network state and network topology structure in real time;
the three-dimensional visual light control platform is provided with a three-dimensional model display module, a three-dimensional data management module and a three-dimensional equipment monitoring module, wherein all light is distributed; through the three-dimensional model display module, the lamplight scene can be checked in a three-dimensional mode; the real-time data of the lamplight is visually displayed on the three-dimensional model through the three-dimensional data management module; and the lighting equipment is remotely managed in real time through the three-dimensional equipment monitoring module.
The system structure related to the invention is shown in figure 1: the system comprises a three-dimensional visual light control platform 1, a system monitoring platform 2, a wireless ad hoc network unit 3, a light control unit 4, an automatic energy-saving adjusting unit 5 and an environment monitoring unit 6.
The three-dimensional visual light control platform 1 shows the field light layout condition through the three-dimensional model, and can implement the light control effect by clicking light on the three-dimensional model, thereby realizing the visible and controlled effect and being a master control platform. The platform adopts a unified engine to load three-dimensional visualization, provides a unified interface, can be adapted to different types of three-dimensional models, can use oblique photography, professional CAD, panoramic cameras and the like to model the three-dimensional models, adopts a unified Internet of things data interface software module, adapts physical network data protocols of different protocols under a heterogeneous network, and is unified into standard data through the interface software module, so that the universality of the three-dimensional visualization platform is realized.
The system monitoring platform 2 realizes functions of equipment access, two-dimensional display, equipment setting and the like, integrates functions of network self-checking, automatic node display, remote upgrading, communication detection, signal collision detection, signal testing and the like into a whole for functions of wireless network, automatic networking condition, network condition diagnosis, network maintenance and the like, and integrates automatic light control, energy consumption monitoring and automatic energy conservation into a whole.
The three-dimensional visual light control platform is mainly used for displaying the scene situation more intuitively in a three-dimensional mode, realizing the effect of being personally on the scene and realizing equipment state viewing and remote control on a three-dimensional model; the system monitoring platform mainly shows field conditions in a two-dimensional mode, realizes equipment state viewing and remote control on a two-dimensional plane, realizes functions such as equipment access equipment setting and the like, and integrates functions such as network self-checking, automatic node display, remote upgrading, communication detection, signal collision detection (detecting whether wireless signals conflict or not), signal testing and the like on functions such as a wireless network, automatic networking conditions, network condition diagnosis, network overhaul and the like.
The wireless ad hoc network unit 3 adopts a wireless ad hoc network mode, can adopt communication technologies such as Zigbee, RF, WIFI, Bluetooth and the like, realizes automatic networking, self-repairing of networks and automatic network expansion functions, and does not need to manually set the networks. Through a wireless ad hoc network mode, all lights are connected into a system, and a system structure which can be controlled, detected, maintained and energy-saving is realized.
The light control unit 4 realizes terminal light control, realizes functions such as dimming, color temperature adjustment, color control, brightness adjustment, automatic switch and time switch, and the light control unit 4 realizes communication with each functional unit through the wireless ad hoc network unit 3.
The automatic energy-saving adjusting unit 5 realizes linkage control with the environment monitoring unit 6 and the light control unit 4 through the wireless ad hoc network unit 3, and after the environment monitoring unit 6 detects the environment information meeting the set conditions, the automatic energy-saving adjusting unit 5 realizes automatic light adjustment and automatic energy consumption adjustment of the light control unit 4 through control signals.
The environment monitoring unit 6 collects various kinds of environment information, such as temperature, humidity, wind speed, illuminance, air quality and the like.
Referring to fig. 2, an environment monitoring unit 6 performs environment detection, state information transmission, and the like; the automatic energy-saving adjusting unit 5 sends control commands including automatic energy saving, switching, color temperature adjustment, color control and the like according to the environmental data; the light control unit 4 receives the command, executes the command of automatic energy saving and the like, and detects the light state; the wireless ad hoc network 3 plays the roles of a data transmission channel, network self-checking and automatic networking; the system monitoring platform 2 performs equipment access, two-dimensional display, network state detection and the like; the three-dimensional visual light control platform 1 is used for starting login and monitoring light state, energy consumption and the like according to authority; remote control and automatic control; and (6) analyzing the data.
In the invention, the platform end shows the light control effect through three-dimensional visualization, the system realizes light control in a wireless mode, automatic networking can be realized wirelessly, manual network setting is not needed, and the network scale can be expanded as required; providing remote light management, remotely realizing automatic detection and display of network nodes, setting condition parameters for automatic control, realizing automatic energy consumption adjustment according to the surrounding environment, automatic energy-saving control and the like; the wireless device automatic networking, automatic detection and automatic restoration are realized through the ad hoc network, the network state is visually displayed in real time through software, and visual control, automatic energy-saving data display and the like are realized through monitoring.
Therefore, the wireless energy-saving system monitors and controls the light in a wireless mode, automatically adjusts the light brightness through the real-time environment to achieve the energy-saving aim to the maximum extent, is convenient for system configuration and can be expanded subsequently, adopts the wireless mode, can achieve the automatic networking function, and shows the light state in a three-dimensional mode through the three-dimensional visual model of the platform to achieve the visible and controlled effect, so as to finally create economic benefits for the society, and contributes to the society through the technology, and the contribution to the society can be digitally and visually embodied.
The above description is only exemplary of the present invention and should not be taken as limiting the invention, as any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.
Claims (1)
1. A light control system for three-dimensional visualization, comprising: the system comprises a three-dimensional visual light control platform, a system monitoring platform, a plurality of wireless ad hoc network units, a plurality of light control units, a plurality of automatic energy-saving adjusting units and a plurality of environment monitoring units, wherein the wireless ad hoc network units of the three-dimensional visual light control platform are connected with the system monitoring platform;
the environment monitoring unit carries out environment detection on the light environment and sends the detection result to the automatic energy-saving adjusting unit through the wireless ad hoc network unit;
the automatic energy-saving adjusting unit sends control commands including automatic energy saving, switching, color temperature adjustment and color control commands to the light control unit through the wireless ad hoc network unit according to the environment data;
the light control unit receives the instruction, executes the control instruction to control light and detects the light state;
the three-dimensional visual light control platform monitors, remotely controls and automatically controls the state and energy consumption of light through the light control unit, and displays the three-dimensional state of the light in real time;
the system monitoring platform performs equipment access state detection, accesses lighting equipment with different types and different interfaces, provides a standard Internet of things data interface, performs two-dimensional display, checks the state and energy consumption of the access equipment in real time, and realizes remote control on the lighting equipment, performs wireless ad hoc network unit network state detection, and checks the current wireless ad hoc network state and network topology structure in real time;
the three-dimensional visual light control platform is provided with a three-dimensional model display module, a three-dimensional data management module and a three-dimensional equipment monitoring module, wherein all light is distributed; through the three-dimensional model display module, the lamplight scene can be checked in a three-dimensional mode; the real-time data of the lamplight is visually displayed on the three-dimensional model through the three-dimensional data management module; and the lighting equipment is remotely managed in real time through the three-dimensional equipment monitoring module.
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CN104735875A (en) * | 2015-03-24 | 2015-06-24 | 上海大学 | LED illumination real-time simulation control system and simulation control method thereof |
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