CN111315088A - Miniature data center of intelligent lighting system - Google Patents

Abstract

The invention discloses a micro data center of an intelligent lighting system, which comprises a smart control management center, wherein the smart control management center is used for building a cloud platform, a smart lighting APP and a SHOW APP, the real-time operation processing of big data is realized through the cloud platform, a centralized audio and video output function is expanded by transverse extension, and the audio and video output function is extended to a terminal site through an optical fiber, an Ethernet and a 4G network, so that the remote real-time playing and real-time control are realized; the intelligent city sensing layer and application layer data interaction method adopts an integrated design scheme, integrates a plurality of subsystems such as refrigeration, power supply, power distribution, cabinet and air flow management, environment monitoring, a data center operation and maintenance service management platform and the like into a data port through a core autonomous protocol PAVT-BUS, solves the disordered current situation in the aspect of project construction through a k-mean algorithm, linkage strategy defense and highly integrated design structure 'an intelligent micro data center', and combines edge calculation and Internet of things expansion to solve the interaction problem of the intelligent city sensing layer and the application layer data.

Description

Miniature data center of intelligent lighting system

Technical Field

The invention relates to the field of light control, in particular to a miniature data center of an intelligent lighting system.

Background

Under the promotion of smart cities and intelligent lighting applications, the construction of a data center represented by a constant-temperature cabinet is in a new high trend, and in the face of such a huge market, the traditional data center is solid and lacks flexibility and expansibility. With the development of services and the increase of applications, the defects of the traditional data center are gradually shown; the traditional data center is basically 'one project one deployment' and 'one machine one application' when being deployed and built, and is slow in deployment and low in density. And the server is strictly bound with auxiliary modules for power supply, refrigeration and the like, so that the expansion is difficult and the whole body is driven by pulling one time. In the later period, with the development of services and the increase of applications, a data center system needs more management software, the system is more redundant, and power distribution and refrigeration cannot meet the requirements, so that the whole system has to be redesigned and expanded.

At present, as the scale of landscape projects is continuously enlarged, the functional requirements are comprehensive, the effect requirement is high, so that the dependence on IT equipment is increasingly increased, and the downtime of corresponding IT equipment is more and more sensitive; the landscape lighting control system lacks unified planning and standard, is unordered in construction and is respectively a government in construction, so that the problems of scattered management, untimely response, great waste of resources, great difficulty in coordination and the like are caused; protocols and interface standards are not uniform (eight-seven-piece), systems cannot be interconnected and communicated, data and information resource sharing cannot be realized, great technical obstacles exist, implementation difficulty is increased, and fusion management of other management platform systems of the smart city cannot be realized; the landscape lighting control function is single, the landscape lighting control function only stays at the level of simple time control or remote light on-off, and the scene is also the scene of traditional switches such as 'weekday', 'holiday', 'major holiday', and the like. The requirements of fine control management and fine change of effect dynamic levels of landscape lighting control cannot be met.

Disclosure of Invention

Aiming at the problems, the invention aims to provide a miniature data center of an intelligent lighting system, and the invention adopts an integrated design scheme, integrates a plurality of subsystems such as refrigeration, power supply, power distribution, cabinet and air flow management, environment monitoring, a data center operation and maintenance service management platform and the like into a data port through a kernel autonomous protocol PAVT-BUS, and solves the problem of interaction between a smart city sensing layer and application layer data through a k-mean algorithm, linkage strategy defense and highly integrated design structure 'intelligent miniature data center', in combination with edge calculation and physical connection expansion.

In order to achieve the purpose, the invention provides the following technical scheme: the micro data center of the intelligent lighting system comprises a smart control management center, wherein the smart control management center is used for building a cloud platform, a smart lighting APP and a SHOW APP, the real-time operation processing of big data is realized through the cloud platform, a centralized audio and video output function is expanded in a transverse extension mode, and the concentrated audio and video output function is extended to a terminal site through an optical fiber, an Ethernet and a 4G network, so that the remote real-time playing and real-time control are realized; the intelligent control intelligent terminal cabinet is used for expanding modules and managing acquired data and comprises an internet of things unit, a light signal output unit, an entrance guard unit, a temperature control unit and a power supply unit; the Internet of things unit comprises a plurality of data sensor modules, and the light signal output unit comprises an industrial personal computer and is used for controlling the output of light signals; the access control unit is used for intelligently controlling access control; the temperature control unit starts corresponding control according to the data collected by the Internet of things unit; the power supply unit is used for supplying power to the Internet of things unit, the light signal output unit, the entrance guard unit and the temperature control unit; the data sensor module comprises a PM2.5 sensor, a wind speed sensor, a light sensor, a temperature and humidity sensor, a smoke sensor and a water leakage sensor.

Preferably, the intelligent control management center comprises a management system, a management content element and a management method framework are included, and the management element forms management result evaluation under the configuration of the management method.

Preferably, the management element includes: building brightening management, road brightening management, landscape brightening management and sightseeing brightening management; the management method comprises the following steps: brightening building matrix centralized control management, level 3 hierarchical management of a management unit, level 3 authority management of the management unit and a system daily operation log management mechanism; the management result evaluation comprises the following steps: running logs, system state data overall analysis, terminal sensing data overall analysis, lighting brightening system operation and asset report analysis, and local off-line running management analysis.

Preferably, the internet of things unit further comprises an intelligent control terminal, a time service device and a 4G router, and the intelligent control terminal, the time service device and the 4G router are used for transmitting collected data and intelligently controlling the data sensor.

Preferably, the entrance guard unit comprises an abnormal door opening sensor, an electromagnetic lock and a face recognition entrance guard and is driven by the power supply driving module.

Preferably, the temperature control unit comprises an industrial air conditioner, a T5 lamp tube and a straight ventilator, and the temperature control unit performs corresponding actions according to the instruction of the intelligent control terminal.

Preferably, the power supply unit includes a power distribution unit, a power source sequencer, a UPS host, and a storage battery.

Preferably, the entrance guard unit judges whether to start illumination according to the abnormal door opening sensor and the light sensation data, and records corresponding cabinet opening door information; and the intelligent control terminal receives the operation data of the temperature control unit and the acquired data of the data sensor and sends the operation data and the acquired data to the master control center.

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

1. the intelligent city sensing layer and application layer data interaction method adopts an integrated design scheme, integrates a plurality of subsystems such as refrigeration, power supply, power distribution, cabinet and air flow management, environment monitoring, a data center operation and maintenance service management platform and the like into a data port through a core autonomous protocol PAVT-BUS, solves the disordered current situation in the aspect of project construction through a k-mean algorithm, linkage strategy defense and highly integrated design structure 'an intelligent micro data center', and combines edge calculation and Internet of things expansion to solve the interaction problem of the intelligent city sensing layer and the application layer data.

Drawings

Fig. 1 is a schematic partial structure diagram of a micro data center of an intelligent lighting system according to the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1, the micro data center of the intelligent lighting system provided by the invention comprises an intelligent control management center, wherein the intelligent control management center is used for building a cloud platform, an intelligent lighting APP and a SHOW APP, the cloud platform is used for realizing real-time operation processing of big data, transversely extending and expanding a centralized audio and video output function, and extending to a terminal site through an optical fiber, an ethernet and a 4G network to realize remote real-time playing and real-time control; the intelligent control intelligent terminal cabinet is used for expanding modules and managing acquired data and comprises an internet of things unit, a light signal output unit, an entrance guard unit, a temperature control unit and a power supply unit; the Internet of things unit comprises a plurality of data sensor modules, and the light signal output unit comprises an industrial personal computer and is used for controlling the output of light signals; the access control unit is used for intelligently controlling access control; the temperature control unit starts corresponding control according to the data collected by the Internet of things unit; the power supply unit is used for supplying power to the Internet of things unit, the light signal output unit, the entrance guard unit and the temperature control unit; the data sensor module comprises a PM2.5 sensor, a wind speed sensor, a light sensor, a temperature and humidity sensor, a smoke sensor and a water leakage sensor.

In the invention, the intelligent control management center comprises a management system, a management content element and a management method framework are included, and the management element forms management result evaluation under the configuration of the management method.

In the present invention, the management elements include: building brightening management, road brightening management, landscape brightening management and sightseeing brightening management; the management method comprises the following steps: brightening building matrix centralized control management, level 3 hierarchical management of a management unit, level 3 authority management of the management unit and a system daily operation log management mechanism; the management result evaluation comprises the following steps: running logs, system state data overall analysis, terminal sensing data overall analysis, lighting brightening system operation and asset report analysis, and local off-line running management analysis.

In the invention, the Internet of things unit also comprises an intelligent control terminal, a time service device and a 4G router, and the intelligent control terminal, the time service device and the 4G router are used for transmitting acquired data and intelligently controlling a data sensor; the entrance guard unit comprises an abnormal door opening sensor, an electromagnetic lock and a face recognition entrance guard and is driven by the power supply driving module; the temperature control unit comprises an industrial air conditioner, a T5 lamp tube and a straight ventilator, and the temperature control unit performs corresponding actions according to the instruction of the intelligent control terminal; the power supply unit comprises a power distribution unit, a power supply time sequence device, a UPS host and a storage battery; the entrance guard unit judges whether to start illumination or not according to the abnormal door opening sensor and the light sensation data, and records corresponding cabinet opening door information; and the intelligent control terminal receives the operation data of the temperature control unit and the acquired data of the data sensor and sends the operation data and the acquired data to the master control center.

Referring to fig. 1, the intelligent control management center is used as a core, the intelligent control management center longitudinally extends, the Ethernet, the optical fiber, the IoT network and the 4G network are used as main interconnection means, the intelligent control management center extends downwards to an intelligent control terminal cabinet, the intelligent control terminal cabinet is used as a tail end control core, and the intelligent control terminal cabinet realizes interactive management with a bottommost light source lamp, a multimedia lamp, a special-effect lamp, a laser performance, a music fountain and the like through various interface protocols such as C-BUS, KNX, DALI, NB-loT, RS485, DMX512, RDM, ACN and the like.

The intelligent control management center transversely extends to expand a centralized audio and video output function, mainly extends to a terminal field through physical carriers such as optical fibers, Ethernet, 4G network and the like, and realizes remote real-time playing and real-time control, wherein the audio and video output requirement has multi-channel asynchronous linkage capability. In addition, the intelligent control management center is also connected with a cloud platform, real-time operation processing of big data can be realized through the cloud platform, data integration and on-site instruction triggering tasks are efficiently completed, and the whole system is more flexible. Besides, the intelligent control management center can be connected with portable terminal management platforms through the cloud platform, the portable terminal platforms are mainly universal to a tablet personal computer smart phone, the terminal platforms can be controlled to be open, the functions of opening the terminal platforms can be conveniently used for achieving initial debugging and commissioning of field personnel, and multiple functions of editing operation scenes, triggering the operation scenes by one key and the like can be conveniently achieved in the daily operation management stage. The framework mode solves the absolute dependence on an intelligent control management center from the system level to a great extent, so that the system management is developed from a new mode of coexistence of centralization to centralization and marginalization.

In the whole intelligent lighting ecological system, the lowest layer of the system is most complicated, because different bottom layer units such as street lamp functional lighting, night scene lighting, multimedia lighting, 3D projection, music fountain, special effect lighting, laser performance and the like have special inherent attributes, no matter communication media or communication protocols usually have small differences, the reasons for the differences are not only the factors of the inherent attributes of the equipment, but also because technical barriers of different manufacturers during equipment production, such as a standard DMX512 protocol, most manufacturers can carry out fine adjustment so that the equipment of the manufacturers has technical uniqueness, the complicated complexity of the whole intelligent lighting ecological bottom layer is caused invisibly, and great difficulty is brought to the unified management in the future, so that the intelligent control terminal cabinet in the whole intelligent lighting ecological system is required to have wide absolute compatibility, the method has the most extensive compatibility with common multi-type interface protocols such as C-BUS, KNX, DALI, NB-loT, RS485, DMX512, RDM, ACN and the like and variant protocols thereof, and the compatible library can be expanded and upgraded at any time so as to be better compatible. In addition, in order to ensure the absolute reliability of the network, the network architecture in the intelligent lighting ecosystem also has distinct and abundant characteristics, such as TCP/IP, optical fiber, IoT, VPN private network, etc., and these network media can be fully equipped at the same time when the construction allows, so that when some network media are abnormal, switching to other network media can be performed in time, thereby reducing the risk of system networking to the maximum extent.

The intelligent lighting ecosystem coordination problem is coordinated and completed by a server group of an intelligent control management center, wherein the coordination is mainly determined according to the differentiation characteristics and the regional lighting characteristics brought by different inherent attributes of each lighting unit. Such a differentiated information amount is very huge in a city unit area, and is different from a show, a scene or a street, which is a union of a plurality of such shows, scenes or streets. The data processing requirements brought by linkage and convergence operation of the whole complex are very huge, so that in the intelligent lighting ecosystem, the abnormality of core potential change of an intelligent control management center is prominent, the linkage and convergence operation of the whole intelligent lighting ecosystem is not only complicated data operation, but also is divided into issuing of real-time operation instructions, real-time monitoring and feedback information processing of the operation state of each operation unit, an emergency response mechanism after abnormal alarm, an abnormal alarm dispatching processing mechanism, data integration analysis in a long-term operation process and formation of valuable system improvement guide reports or predictive guide reports and other contents.

From the above, it can be seen that solving the problem of compatibility is a significant feature of the intelligent lighting ecosystem; secondly, the coordination operation capability of the intelligent lighting ecosystem embodies the characteristics of interconnection, safety, fineness, intelligence and a harmonious system in all-round way on the coordination operation.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (8)

1. Miniature data center of intelligent lighting system, its characterized in that: the intelligent control system comprises an intelligent control management center, a cloud platform, an intelligent lighting APP and a SHOW APP, wherein the cloud platform is used for realizing real-time operation processing of big data, transversely extending and expanding a centralized audio and video output function, and extending to a terminal site through an optical fiber, an Ethernet and a 4G network to realize remote real-time playing and real-time control; the intelligent control intelligent terminal cabinet is used for expanding modules and managing acquired data and comprises an internet of things unit, a light signal output unit, an entrance guard unit, a temperature control unit and a power supply unit; the Internet of things unit comprises a plurality of data sensor modules, and the light signal output unit comprises an industrial personal computer and is used for controlling the output of light signals; the access control unit is used for intelligently controlling access control; the temperature control unit starts corresponding control according to the data collected by the Internet of things unit; the power supply unit is used for supplying power to the Internet of things unit, the light signal output unit, the entrance guard unit and the temperature control unit; the data sensor module comprises a PM2.5 sensor, a wind speed sensor, a light sensor, a temperature and humidity sensor, a smoke sensor and a water leakage sensor.

2. The miniature data center for intelligent lighting systems of claim 1, wherein: the intelligent control management center comprises a management system, a management content element and a management method framework, and the management element forms management result evaluation under the configuration of the management method.

3. The miniature data center for intelligent lighting systems of claim 2, wherein: the management elements include: building brightening management, road brightening management, landscape brightening management and sightseeing brightening management; the management method comprises the following steps: brightening building matrix centralized control management, level 3 hierarchical management of a management unit, level 3 authority management of the management unit and a system daily operation log management mechanism; the management result evaluation comprises the following steps: running logs, system state data overall analysis, terminal sensing data overall analysis, lighting brightening system operation and asset report analysis, and local off-line running management analysis.

4. The miniature data center for intelligent lighting systems of claim 3, wherein: the internet of things unit further comprises an intelligent control terminal, a time service device and a 4G router, and the intelligent control terminal, the time service device and the 4G router are used for transmitting collected data and intelligently controlling the data sensors.

5. The miniature data center for intelligent lighting systems of claim 4, wherein: the entrance guard unit comprises an abnormal door opening sensor, an electromagnetic lock and a face recognition entrance guard and is driven by the power driving module.

6. The miniature data center for intelligent lighting systems of claim 5, wherein: the temperature control unit comprises an industrial air conditioner, a T5 lamp tube and a straight ventilator, and the temperature control unit performs corresponding actions according to the instruction of the intelligent control terminal.

7. The miniature data center for intelligent lighting systems of claim 6, wherein: the power supply unit comprises a power distribution unit, a power source time sequence device, a UPS host and a storage battery.

8. The miniature data center for intelligent lighting systems of claim 7, wherein: the entrance guard unit judges whether to start illumination or not according to the abnormal door opening sensor and the light sensation data, and records corresponding cabinet opening door information; and the intelligent control terminal receives the operation data of the temperature control unit and the acquired data of the data sensor and sends the operation data and the acquired data to the master control center.

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