CN109887068B - 3D visual computer lab - Google Patents

Abstract

The invention discloses a 3D visual machine room, which comprises at least one layer of machine room which is independently arranged, wherein the machine room is provided with a plurality of independent machine room units, outer walls are arranged between the machine room units, and a plurality of groups of equipment units are arranged in the machine room units; the client is embedded with the 3D visualization system, and the 3D visualization system comprises a 3D visualization module, a GIS visualization module and a framework visualization module, and has the following beneficial effects: 1) The geographic position visualization function is provided: the method comprises a mode of multiple scenes, hierarchical browsing of GIS and browsing of multiple network points, and can express connection of network lines in GIS. 2) The visual function of core place possesses: including environmental, asset pipeline visualization, capacity visualization, monitoring and presentation visualization.

Description

3D visual computer lab

Technical Field

The invention relates to the technical field of electronic information, in particular to a 3D visual machine room.

Background

At present, machine room network current stage hierarchical management is carried out, as intelligent developing people have insufficient machine room network current stage hierarchical management, as intelligent developing people have insufficient current situations, and current situations of various service of corresponding information network operation and maintenance systems in single industry are carried out, and effective decoupling cannot be achieved among various service of corresponding information network operation and maintenance systems in single industry systems. The traditional information system takes service requirements as guidance, the problem that massive information data cannot be effectively analyzed and utilized and is not suitable for repeated construction waste is solved, the problem that the massive information data cannot be effectively analyzed and utilized and is not suitable for the requirement of a future intensive large-scale dispatching management mode is solved, and the problems are more remarkable:

1) The existing information system and operation and maintenance support are generally based on a single service target, the data service target is mostly used, the database, the chart characters and the two-dimensional network topology are mostly used, the weak connection library, the chart characters and the two-dimensional network topology exist among different services, the weak connection exists among different services, visual management connection is difficult to realize, visual management and analysis are difficult to realize, and the existing analysis of the data volume after intensive management is greatly unable to meet the production management requirement;

2) The communication resource system is based on manual table lookup, and cannot meet the requirement of the large-scale communication resource increasing system in the intensive management background on the basis of the manual table lookup and cannot meet the requirement of the large-scale service supporting capability in the intensive management background;

3) The existing alarm monitoring system is dispersedly built in province and local municipalities, can not support cross-specialty and cross-system association analysis application in the whole province level, and can not realize quick tracing and fault positioning of whole-network alarms.

For a long time, because of the limitation of system implementation technology and operation and maintenance management concept, the system construction of operation and maintenance management of the supporting machine room network operation and support machine room network basically centers on professional functions, thereby generating a large number of professional operation and maintenance management systems, functional operation and maintenance management systems and management domain operation and maintenance management systems, further generating a large number of operation and maintenance islands, needing to be configured with a large number of operation and maintenance personnel to be responsible for the use of the system, and severely restricting the exertion of comprehensive benefits of a large number of scattered operation and maintenance data. Meanwhile, with the introduction of new network technology, the proposal of new business demands and the construction of a new operation and maintenance management system, the operation and maintenance data can be continuously split and increased, precious data cannot be made into assets, the benefit of the operation and maintenance support system is low, and even the phenomenon of information overload becomes increasingly prominent.

On the other hand, the machine room network is characterized in that the machine room network is distributed with the transmission network and the data network in the whole province, so that a large number of lines, equipment, transformer substations and other core sites are managed, once problems occur in the daily operation and maintenance process, a large amount of geographic information, equipment information and monitoring systems and interconnection and intercommunication information are needed to be analyzed and troubleshooted, the information is scattered in various tools at present, the network is needed to be presented in a topological form to effectively assist analysis, the maintenance and management of the communication network architecture itself is simultaneously a huge difficult problem, the information quantity of a large image is large, the image is difficult to find in a plurality of images, the port of each link and each equipment is also provided with a backup redundancy mechanism, the physical location and the supported business information involved by the backup redundancy mechanism are different, so that the information of integrating a plurality of latitudes is needed to be integrated into one view, and the practical importance and the daily operation and maintenance management of the communication network are very important.

Therefore, the research of provincial and regional coordination communication intensive management system is necessary to be carried out, and a theoretical foundation is laid for constructing an intensive communication operation and maintenance management framework. Meanwhile, a three-dimensional visualization scheme suitable for the field of machine rooms is selected by utilizing a three-dimensional modeling interaction linkage presentation technology, and a key technical research of a communication command cockpit is developed.

Disclosure of Invention

The invention aims to solve one or more of the defects, and designs a 3D visual machine room.

In order to achieve the aim of the invention, the technical scheme adopted is as follows:

a 3D visualization machine room, comprising

At least one layer of independent machine room, wherein the machine room is provided with a plurality of independent machine room units,

an outer wall is arranged between the machine room units, and a plurality of groups of equipment units are arranged in the machine room units;

the client is embedded with a 3D (three-dimensional) visualization system, the 3D visualization system comprises a 3D visualization module, a GIS (geographic information system) visualization module and a framework visualization module, the 3D visualization module, the GIS visualization module and the framework visualization module are respectively connected with a 3D engine module and a visualization engine module, and the 3D visualization system is further provided with a loading module, a processing module, a storage module and an interface module which are connected with a device unit;

the loading module is used for importing machine room modeling data, equipment unit modeling data and connecting link data among the equipment units, and embedding the machine room modeling data, the equipment unit modeling data and the connecting link data among the equipment units into the 3D visualization module, the GIS visualization module and the framework visualization module through the processing module;

and the acquisition module acquires real-time data among the machine room, the machine room unit, the equipment unit and the connecting link in real time, sends the real-time data to the processing module for processing through the interface module, and then respectively presents information data of the machine room, the machine room unit, the equipment unit and the connecting link through the 3D visualization module, the GIS visualization module and the framework visualization module through the loading 3D engine module and the visualization engine module.

Preferably, the machine room unit, the equipment unit and the connecting link are respectively provided with a plurality of monitoring units and equipment information acquisition equipment, and the monitoring units and the equipment information acquisition equipment are respectively connected with the acquisition module.

Preferably, the outer wall of the machine room unit includes at least one of a side surface, a bottom surface, a top surface, a corner portion and a corner portion, at least one of the side surfaces is provided with a door and a window, and the top surface is provided with a ventilation unit and a closed cooling channel.

Preferably, each layer of the machine room is provided with a plurality of machine room units in an m×n mode, M and N are integers greater than 1, and the machine room units are provided with equipment units in a plurality of square matrixes.

Preferably, the device units form a constant temperature unit in at least one square matrix, an air conditioning system and a ventilation unit are arranged in the constant temperature unit, and the air conditioning system is connected with a closed cooling channel.

Preferably, the air conditioning system is provided with a primary pump and a secondary pump, one end of the primary pump is connected with each air conditioner, the other end of the primary pump is connected with the reservoir, and the secondary pump is arranged in the reservoir.

Preferably, the machine room units are provided with cable interlayers along a square matrix formed by the equipment units, and heat channels between the machine room units.

Preferably, the machine room modeling data completely presents the appearance of the building of the core place by virtual simulation, completes 3D modeling according to the real appearance of the building, and manages the basic specification information of the building;

the structure of the floor machine room of the core place is completely presented by virtual simulation, 3D modeling is completed according to the actual building structure of the floor, and the information and equipment placement condition of each machine room can be simulated and managed by real identification; and

the machine room structure of the core place is completely presented through virtual simulation, 3D modeling is completed according to the actual building structure of the machine room, and information and equipment placement conditions of the real identification management machine room can be simulated.

Preferably, the equipment unit modeling data is equipment information of the core machine room completely presented in virtual simulation, and the equipment information comprises ID information set in each independent equipment unit.

Preferably, the connection link data completely presents information data of the front panel, the rear panel and the ports of the distribution frame and the equipment by virtual simulation, so as to realize visual management and information inquiry of occupation conditions of the front panel, the rear panel and the ports of the distribution frame and the equipment;

the virtual simulation completely presents the physical connection relation between the devices, including jumper inquiry and management, basic wiring inquiry and management, link inquiry and management; and

and presenting a device ID list according to the ID information of the device unit, and positioning the device according to the selected device.

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

1) The geographic position visualization function is provided: the method comprises a mode of multiple scenes, hierarchical browsing of GIS and browsing of multiple network points, and connection of network lines can be expressed in GIS;

2) The visual function of core place possesses: including environmental, asset pipeline visualization, capacity visualization, monitoring and presentation visualization;

3) The communication architecture visualization function is provided: the method comprises the management of a graphic library, drawing and editing visualization functions: drawing editing and view distribution management functions, and combined drilling inquiry is provided;

4) The end-to-end visual function is provided: geographic information, physical information and logic are combined by adopting a GIS, so that the property alarm data of the monitoring tool can be accessed, and the property alarm data view of the monitoring tool can be accessed for association analysis.

Drawings

FIG. 1 is a schematic diagram of the structure of the present invention;

fig. 2 is a schematic perspective view of a machine room unit in the present invention;

FIG. 3 is a schematic diagram of the structure of the equipment unit in the present invention;

fig. 4 is a schematic structural diagram of a machine room unit in the present invention;

fig. 5 is a schematic diagram of the frame principle of the 3D visualization system according to the present invention.

Detailed Description

The drawings are for illustrative purposes only and are not to be construed as limiting the present patent;

the invention is further illustrated in the following figures and examples.

Example 1

Referring to fig. 1 to 5, the present invention provides a 3D visualization machine room, including at least one layer of machine room 100 that is independently arranged, the machine room 100 is provided with a plurality of independent machine room units 200, each layer of machine room 100 is provided with a plurality of machine room units 200 in an mxn manner, M and N are integers greater than 1, and a plurality of square matrix placement device units 201 are disposed in the machine room units 200; the machine room unit 200 is provided with a cable interlayer 203 along a square matrix formed by the equipment units 201, and a connecting link and a thermal channel 20 between the machine room units 201 are arranged in the cable interlayer 203; an outer wall 300 is arranged between the machine room units 200, and a plurality of groups of equipment units 201 are arranged in the machine room units; the outer wall 300 includes at least one of side surfaces, a bottom surface, a top surface, corner portions, and edge portions, at least one of which is provided with a door 40 and a window 50, and a top surface with a ventilation unit 30 and a closed cooling channel 10; the equipment units 201 form a constant temperature unit in at least one square matrix, an air conditioning system 202 and a ventilation unit 30 are arranged in the constant temperature unit, and the air conditioning system 202 is connected with the closed cooling channel 10; the air conditioning system 202 is provided with a primary pump 500 and a secondary pump 501, one end of the primary pump 500 is connected with each air conditioner, the other end is connected with a reservoir 502, and the secondary pump 501 is arranged in the reservoir 502.

The client is embedded with a 3D (three-dimensional) visualization system, the 3D visualization system comprises a 3D visualization module, a GIS (geographic information system) visualization module and a framework visualization module, the 3D visualization module, the GIS visualization module and the framework visualization module are respectively connected with a 3D engine module and a visualization engine module, and the 3D visualization system is further provided with a loading module, a processing module, a storage module and an interface module which are connected with a device unit;

the loading module is used for importing machine room modeling data, equipment unit modeling data and connecting link data among the equipment units, and embedding the machine room modeling data, the equipment unit modeling data and the connecting link data among the equipment units into the 3D visualization module, the GIS visualization module and the framework visualization module through the processing module;

and the acquisition module acquires real-time data among the machine room, the machine room unit, the equipment unit and the connecting link in real time, sends the real-time data to the processing module for processing through the interface module, and then respectively presents information data of the machine room 100, the machine room unit 200, the equipment unit 201 and the connecting link through the 3D visualization module, the GIS visualization module and the framework visualization module through the loading 3D engine module and the visualization engine module.

The 3D engine module and the visualization engine module provide three-dimensional functional modules: including scene nodes, spatial transformations, renderable objects, rendering queues, GUIs, grids, materials, bulletin boards, particles, sky, math libraries, animations, special effects, resource management, light shadows, inputs, sounds, etc.; the function with characteristics also comprises a three-dimensional scene embedded browser, an embedded Flash and the like.

The machine room 100, the machine room unit 200, the equipment unit 201 and the connecting links are respectively provided with a plurality of monitoring units and equipment information acquisition equipment, and the monitoring units and the equipment information acquisition equipment are respectively connected with an acquisition module.

The machine room modeling data completely presents the appearance of the building of the core place by virtual simulation, completes 3D modeling according to the real appearance of the building, and manages the basic specification information of the building;

the structure of the floor machine room of the core place is completely presented by virtual simulation, 3D modeling is completed according to the actual building structure of the floor, and the information and equipment placement condition of each machine room can be simulated and managed by real identification; and

the machine room structure of the core place is completely presented through virtual simulation, 3D modeling is completed according to the actual building structure of the machine room, and information and equipment placement conditions of the real identification management machine room can be simulated.

The equipment unit modeling data are equipment information which is completely presented in a core machine room through virtual simulation, the equipment information comprises ID information arranged on each independent equipment unit, the equipment units comprise independent equipment such as an air conditioner, a cabinet, a generator, a power distribution cabinet and a UPS, and rack-type equipment such as a PC server, a switch and a router, in the machine room, the number of equipment assets in a core place is huge, the variety is great, the traditional form management mode is low in efficiency and poor in practicability, the asset visual management function adopts an innovative three-dimensional interaction technical means to realize visual management of asset configuration information in the core place, the asset visual management function can be integrated with various IT asset configuration management databases, various asset account forms can be directly imported, the capability of carrying out hierarchical information browsing and advanced information searching in a visual mode is provided, the rigid asset and configuration data become fresh and easy to use, and the availability, the practicability and the use efficiency of the asset data are greatly improved.

Clicking the equipment in the 3D environment can check the asset configuration information of the equipment, check single equipment information, cabinet summarizing information and the like, and call related data aggregation management in various management systems to realize automatic synchronization with the management systems.

Port management: visual management and information inquiry of occupation conditions of a distribution frame, front and rear panels of equipment and ports are realized by visual management in a 3D visual environment.

Link management: the physical connection relationship between the devices is managed in a 3D visual environment. Comprising the following steps: jumper wire inquiry and management, base wiring inquiry and management, link inquiry and management.

And (3) cabinet searching and positioning, namely the cabinet searching and positioning function can search cabinets by inputting cabinet fuzzy query conditions, and the system lists cabinet name lists meeting the conditions in the current view range. The cabinets that are not selected are shown in phantom, with the positioning being based on the cabinet selected by the user. The condition of the fuzzy query of the cabinet comprises all asset information attribute names of the cabinet.

Device search positioning: the device search location function can blur query conditions by entering device, the system lists a list of eligible device IDs in the current view, and locates devices according to the selected device, with unselected devices represented in phantom. The conditions for the device fuzzy query include all asset information attribute names for the device.

The connection link visualization adopts a self-management or other CMDB or resource management system integrated mode, the connection information of the devices in each cabinet is brought into a visualization platform, the relevant link information can be searched through any physically visible device, the relevant device port information can be searched through any one link information, and the link configuration visualization is completed. .

The equipment in the machine room infrastructure is connected with various cables through ports, and the connection relation and the pipeline distribution and wiring condition among the equipment are managed in a 3D visual mode.

The connection link data is information data of the front panel, the rear panel and the ports of the distribution frame and the equipment are completely presented by virtual simulation, so that visual management and information inquiry of occupation conditions of the front panel, the rear panel and the ports of the distribution frame and the equipment are realized;

the virtual simulation completely presents the physical connection relation between the devices, including jumper inquiry and management, basic wiring inquiry and management, link inquiry and management; and presenting a device ID list according to the ID information of the device unit, and performing device positioning according to the selected device.

It is to be understood that the above examples of the present invention are provided by way of illustration only and not by way of limitation of the embodiments of the present invention. Other variations or modifications of the above teachings will be apparent to those of ordinary skill in the art. It is not necessary here nor is it exhaustive of all embodiments. Any modification, equivalent replacement, improvement, etc. which come within the spirit and principles of the invention are desired to be protected by the following claims.

Claims (9)

1. The 3D visual machine room is characterized by comprising at least one layer of machine room which is independently arranged, wherein the machine room is provided with a plurality of independent machine room units; an outer wall is arranged between the machine room units, and a plurality of groups of equipment units are arranged in the machine room units;

the client is embedded with a 3D (three-dimensional) visualization system, the 3D visualization system comprises a 3D visualization module, a GIS (geographic information system) visualization module and a framework visualization module, the 3D visualization module, the GIS visualization module and the framework visualization module are respectively connected with a 3D engine module and a visualization engine module, and the 3D visualization system is further provided with a loading module, a processing module, a storage module and an interface module which are connected with a device unit;

the loading module is used for importing machine room modeling data, equipment unit modeling data and connecting link data among the equipment units, and embedding the machine room modeling data, the equipment unit modeling data and the connecting link data among the equipment units into the 3D visualization module, the GIS visualization module and the framework visualization module through the processing module;

the system comprises a machine room, a machine room unit, a device unit and a connecting link, wherein the machine room, the machine room unit, the device unit and the connecting link are real-time acquired, real-time data are sent to a processing module for processing through an interface module, and then information data of the machine room, the machine room unit, the device unit and the connecting link are respectively presented through a 3D (three-dimensional) visualization module, a GIS (geographic information system) visualization module and a framework visualization module through a loading 3D engine module and a visualization engine module;

clicking equipment in a 3D environment to check asset configuration information of the equipment, checking single equipment information and cabinet summarizing information, and calling related data aggregation management in various management systems to realize automatic synchronization with the management systems;

port management: visual management and information inquiry of occupation conditions of a distribution frame, front and rear panels of equipment and ports are realized by visual management in a 3D visual environment;

link management: managing physical connection relationships between devices in a 3D visual environment, comprising: jumper wire inquiry and management, basic wiring inquiry and management, link inquiry and management;

the cabinet searching and positioning function can search the cabinet through inputting the cabinet fuzzy query condition, and the system lists the cabinet name list meeting the condition in the current view range; positioning according to the cabinets selected by the user, wherein the cabinets which are not selected are represented in a blurring way; the condition of the fuzzy inquiry of the cabinet comprises all asset information attribute names of the cabinet;

device search positioning: the device searching and positioning function can input device fuzzy query conditions, the system lists a device ID list meeting the conditions in the current view range, and performs device positioning according to the selected devices, and unselected devices are represented in a blurring way; the fuzzy query condition of the equipment comprises all asset information attribute names of the equipment;

the connection link visualization adopts a self-management or other CMDB or resource management system integration mode, the connection information of the equipment in each cabinet is brought into a visualization platform, the relevant link information is searched through any physically visible equipment, the relevant equipment port information is searched through any one link information, and the link configuration visualization is completed;

the equipment in the machine room infrastructure is connected with various cables through ports, and the connection relation, the pipeline distribution and the wiring condition among the equipment are managed in a 3D visual mode;

the connection link data is information data of the front panel, the rear panel and the ports of the distribution frame and the equipment are completely presented by virtual simulation, so that visual management and information inquiry of occupation conditions of the front panel, the rear panel and the ports of the distribution frame and the equipment are realized;

the virtual simulation completely presents the physical connection relation between the devices, including jumper inquiry and management, basic wiring inquiry and management, link inquiry and management; and presenting a device ID list according to the ID information of the device unit, and performing device positioning according to the selected device.

2. The 3D visualization machine room of claim 1, wherein the machine room, the machine room unit, the equipment unit and the connection link are respectively provided with a plurality of monitoring units and equipment information acquisition equipment, and the monitoring units and the equipment information acquisition equipment are respectively connected with the acquisition module.

3. A 3D visualization room as defined in claim 1, wherein the outer wall of the room unit comprises at least one of a side surface, a bottom surface, a top surface, a corner and a corner position, wherein at least one of the side surfaces is provided with a door and a window, and wherein the top surface is provided with a ventilation unit and a closed cooling channel.

4. A 3D visualization room as claimed in claim 1, wherein each layer of room houses a number of room units in M x N, M and N each being integers greater than 1, and the room units house equipment units in a number of square arrays.

5. A 3D visualization room as defined in claim 1, wherein the equipment units form a thermostat unit with at least one matrix, and an air conditioning system and a ventilation unit are arranged in the thermostat unit, and the air conditioning system is connected to the closed cooling channel.

6. The 3D visualization room of claim 5, wherein the air conditioning system is provided with a primary pump and a secondary pump, one end of the primary pump is connected to each air conditioner, the other end is connected to the reservoir, and the secondary pump is disposed in the reservoir.

7. A 3D visualization room as claimed in claim 1, wherein the room units are provided with cable interlayers along a matrix of equipment units and thermal channels between the room units.

8. The 3D visualization machine room of claim 1, wherein the machine room modeling data is an appearance of a core site building completely presented in a virtual simulation, and the 3D modeling is completed according to a real appearance of the building, and basic specification information of the building is managed;

the method comprises the steps that a virtual simulation is used for completely showing the floor machine room structure of a core place, 3D modeling is completed according to the actual building structure of floors, and real identification is simulated to manage information and equipment placement conditions of each machine room; and

and the virtual simulation is used for completely presenting the machine room structure of the core place, 3D modeling is completed according to the actual building structure of the machine room, and the information and equipment placement condition of the real identification management machine room are simulated.

9. A 3D visualization room as defined in claim 1, wherein the equipment unit modeling data is equipment information for completely presenting the core room in a virtual simulation, the equipment information including ID information provided at each individual equipment unit.

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