CN114972657A - Intelligent machine room management system and method based on three-dimensional model - Google Patents

Abstract

The invention relates to the technical field of machine room management, and discloses an intelligent machine room management system and method based on a three-dimensional model, the method constructs a three-dimensional model of the machine room by acquiring the full-live-action image in the machine room, thereby simulating the environment of the machine room, and obtains the topological data of each device in each area in the machine room, constructs the topological relation of the devices in each area for displaying, judges whether the device is in failure or not according to the operation data of the device, and corresponding equipment is identified in the three-dimensional model of the machine room, and an alarm is given, so that the faulty equipment can be visually determined, the maintenance is convenient, meanwhile, the movement track of the operator in the machine room is also acquired, whether the movement track of the operator exceeds the preset operation range or not is judged, if the movement track of the operator exceeds the preset operation range, and alarming to effectively alarm and remind people beyond the operation range or at wrong intervals.

Description

Intelligent machine room management system and method based on three-dimensional model

Technical Field

The invention relates to the technical field of machine room management, in particular to an intelligent machine room management system and method based on a three-dimensional model.

Background

Along with the construction and development of the smart power grid, secondary equipment of the power system is gradually increased, the system structure is more and more complex, interaction between software and hardware is more and more, and certain challenge is brought to operation and maintenance work of the secondary equipment.

On one hand, a traditional power equipment room management system generally comprises a power environment monitoring system, an access control management system, a video monitoring system and the like, mainly manages and controls the environment, the equipment power utilization state, the access control on-off state and the like in a room, lacks of panoramic visualization of a cabinet, equipment and the environment of the room, and is not intuitive in information display; the node position of the network equipment is only inquired about a network equipment topological graph or a machine room plan which is drawn manually; equipment account information, equipment configuration information, bearing service information and equipment port connection information need to be inquired in equipment or different systems or spreadsheets, so that the efficiency is low and the time consumption is long; the running states of the network equipment such as running memory, cpu and the like are lack of effective monitoring; the operation personnel control the behavior in the machine room, rely on manual monitoring or utilize the whole video recording of video surveillance system, need the manual work to look over, supervise, still be in passive supervision state, be difficult to effectively go out the operation scope or go wrong interval to carry out in time to report an emergency and ask for help or increased vigilance to the personnel.

The invention discloses a Chinese patent with publication number CN 113655828A, which discloses an intelligent interconnected monitoring system for a smart machine room, and the system mainly manages and monitors environmental factors such as temperature, humidity and smoke in the machine room, and monitors and alarms the current and voltage conditions of equipment in the machine room, but the monitoring and management contents are single, and timely alarm reminding is difficult to effectively warn people beyond the operation range or wrong intervals.

Disclosure of Invention

The invention provides an intelligent machine room management system and method based on a three-dimensional model, which are used for solving the technical problems that the existing machine room is single in monitoring function and is difficult to effectively and timely warn and remind people beyond the operation range or wrong intervals.

In view of the above, the first aspect of the present invention provides an intelligent machine room management system based on three-dimensional model, comprising: the system comprises a live-action acquisition module, a three-dimensional construction module, a topology identification module, a topology display module, a state monitoring module and a behavior monitoring module;

the live-action acquisition module is used for acquiring a full live-action image in the machine room, wherein the full live-action image comprises the position relation of each device in the machine room;

the three-dimensional construction module is used for constructing a machine room three-dimensional model based on the full-scene image through a 3D Max technology;

the topology identification module is used for acquiring topology data of each device in each area in the machine room and constructing a device topology relation of the corresponding area based on the topology data of each device in each area;

the equipment topology display module is used for overlapping the equipment topology relation of each area to the three-dimensional model of the machine room for display;

the state monitoring module is used for acquiring operation data of each device in the machine room, judging whether the operation data is abnormal or not, if the operation data is judged to be abnormal, identifying the corresponding device in the three-dimensional model of the machine room, and giving an alarm;

the behavior monitoring module is used for acquiring the motion trail of an operator in a machine room, mapping the motion trail of the operator to the three-dimensional model of the machine room, judging whether the motion trail of the operator exceeds a preset operation range, and giving an alarm if the motion trail of the operator exceeds the preset operation range.

Preferably, the topology identification module comprises a GPS module, a low-voltage topology identification module, a network device topology identification module, a broadband carrier module, a concentrator, and a topology construction module;

the GPS module is used for acquiring the position information of each device in each area;

the low-voltage topology identification module comprises a voltage acquisition module, a broadband carrier module and a topology construction module, wherein the voltage acquisition module is connected with each screen cabinet power inlet wire and is used for acquiring voltage information of each screen cabinet power inlet wire in each area and sending the voltage information to the topology construction module through the broadband carrier module and the concentrator in sequence;

the network equipment topology identification module is used for acquiring connection information of each equipment port in each area and sending the connection information to the topology construction module through the broadband carrier module and the concentrator in sequence;

the topology construction module is used for constructing a low-voltage topology relation according to the voltage information of the incoming line of each screen cabinet power supply; and the device is also used for generating a network device topological relation according to the connection information of each device port.

Preferably, the state monitoring module comprises a low-voltage power loss monitoring module and a link monitoring module;

the low-voltage power loss monitoring module is used for acquiring voltage information of each screen cabinet, judging whether the corresponding screen cabinet loses power according to the voltage information, identifying the corresponding screen cabinet in the three-dimensional model of the machine room if the screen cabinet is judged to lose power, and giving an alarm;

the link monitoring module is used for acquiring link information of each network device, judging whether a link of the network device is interrupted or not according to the link information, if the link of the network device is judged to be interrupted, determining all devices influenced by the network device with the interrupted link according to the device topological relation, identifying the corresponding network device and all the devices influenced by the network device in the three-dimensional model of the machine room, and giving an alarm.

Preferably, the system further comprises: the machine account acquisition module and the information query module;

the standing book acquisition module is used for acquiring configuration information of each device and storing the configuration information into a preset database in a standing book form;

the information query module is used for mapping the configuration information to the machine room three-dimensional model to be associated with the corresponding equipment, and is also used for querying the configuration information and the equipment topological relation of the corresponding equipment in the machine room three-dimensional model according to a query instruction input by a user in advance.

Preferably, the system further comprises: the system comprises an instruction sending module, a character recognition module and a service classification module;

the instruction sending module is used for sending a service instruction sent by the master station in advance to corresponding equipment, and the service instruction sent in advance comprises specific characters;

the character recognition module is used for recognizing specific characters in each device and matching corresponding service instructions in a preset service database according to the specific characters so as to determine all devices under the service instructions, wherein the preset service database comprises a mapping relation between the specific characters and the service instructions;

and the service classification module is used for constructing a service-equipment topological relation according to the service instruction and all corresponding equipment and displaying the service-equipment topological relation in the machine room three-dimensional model.

Preferably, the system further comprises: and the model updating module is used for updating the three-dimensional model of the machine room according to a preset updating instruction, wherein the preset updating instruction comprises an instruction for adding equipment and an instruction for deleting equipment.

Preferably, the system further comprises: and the virtual training module is used for converting the machine room three-dimensional model into a machine room virtual environment model based on a virtual machine technology and modifying the configuration information of equipment in the machine room virtual environment model according to a preset modification instruction.

In a second aspect, the invention further provides a three-dimensional model-based intelligent machine room management method, which includes the following steps:

acquiring a full-live-action image in a machine room, wherein the full-live-action image comprises the position relation of each device in the machine room;

constructing a machine room three-dimensional model based on the full-scene image through a 3D Max technology;

acquiring topological data of each device in each area in the machine room, and constructing a device topological relation of the corresponding area based on the topological data of each device in each area;

superposing the topological relation of the equipment in each area to the three-dimensional model of the machine room for displaying;

collecting operation data of each device in a machine room, judging whether the operation data are abnormal or not, if the operation data are judged to be abnormal, identifying the corresponding device in the three-dimensional model of the machine room, and giving an alarm;

the method comprises the steps of obtaining the movement track of an operator in a machine room, mapping the movement track of the operator to a three-dimensional model of the machine room, judging whether the movement track of the operator exceeds a preset operation range, and giving an alarm if the movement track of the operator exceeds the preset operation range.

Preferably, the step of obtaining topology data of each device in each area in the computer room and constructing a device topology relationship of a corresponding area based on the topology data of each device in each area specifically includes:

acquiring position information of each device in each area;

collecting voltage information of each screen cabinet power inlet wire in each area and connection information of each equipment port in each area;

and constructing a low-voltage topological relation according to the voltage information of the power inlet wires of the panels, and generating a network equipment topological relation according to the connection information of the ports of the equipment.

Preferably, the step of acquiring operation data of each device in the machine room, determining whether the operation data is abnormal, and if it is determined that the operation data is abnormal, identifying the corresponding device in the three-dimensional model of the machine room, and performing an alarm specifically includes:

collecting voltage information of each screen cabinet, judging whether the corresponding screen cabinet loses power according to the voltage information, if the screen cabinet is judged to lose power, identifying the corresponding screen cabinet in the three-dimensional model of the machine room, and giving an alarm;

and acquiring link information of each network device, judging whether a link of the network device is interrupted or not according to the link information, if so, determining all devices influenced by the network device with the interrupted link according to the device topological relation, identifying the corresponding network device and all the devices influenced by the network device in the machine room three-dimensional model, and giving an alarm.

According to the technical scheme, the invention has the following advantages:

the method comprises the steps of establishing a machine room three-dimensional model by acquiring a full-live-action image in the machine room, simulating the machine room environment, acquiring topology data of each device in each area in the machine room, establishing a device topology relation of each area for displaying, judging whether the device is in fault according to operation data of the device, identifying the corresponding device in the machine room three-dimensional model, giving an alarm to visually determine the fault device, and facilitating maintenance, and meanwhile, acquiring a motion track of an operator in the machine room, judging whether the motion track of the operator exceeds a preset operation range, and giving an alarm if the motion track of the operator exceeds the preset operation range, so as to effectively give an alarm to prompt that the operator exceeds the operation range or a wrong interval in time.

Drawings

Fig. 1 is a schematic structural diagram of an intelligent machine room management system based on a three-dimensional model according to an embodiment of the present invention;

fig. 2 is a flowchart of an intelligent machine room management method based on a three-dimensional model according to an embodiment of the present invention.

Detailed Description

In order to make the technical solutions of the present invention better understood, 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.

For easy understanding, referring to fig. 1, the present invention provides an intelligent machine room management system based on a three-dimensional model, including: the system comprises a live-action obtaining module 100, a three-dimensional construction module 200, a topology identification module 300, a topology display module 400, a state monitoring module 500 and a behavior monitoring module 600;

the live-action acquisition module 100 is configured to acquire a full live-action image in the computer room, where the full live-action image includes a position relationship of each device in the computer room.

It can be understood that a camera in the machine room can be called to take a nonlinear image of the environment in the machine room, so as to fully cover the full-live-view image in the machine room.

The three-dimensional construction module 200 is used for constructing a three-dimensional model of a machine room through a 3D Max technology based on a full-scene image.

In this embodiment, a three-dimensional model of the machine room is created by using a 3D max technology, a machine room display environment is simulated, the 3D model truly simulates the machine room environment, and each screen cabinet and each device of the machine room are accurately positioned in the 3D model.

The topology identification module 300 is configured to obtain topology data of each device in each area in the computer room, and construct a device topology relationship of the corresponding area based on the topology data of each device in each area.

In consideration of the safety of the power grid, the power grid is generally divided into a region I, a region II and a region III, and each region is isolated by an isolation device, so that the device topological relation can be constructed in a partitioned manner to distinguish the device topological relation of each region.

The device topology displaying module 400 is configured to superimpose the device topology relationship of each area onto the three-dimensional model of the machine room for displaying.

The state monitoring module 500 is configured to collect operation data of each device in the machine room, determine whether the operation data is abnormal, identify the corresponding device in the three-dimensional model of the machine room if the operation data is determined to be abnormal, and perform an alarm.

The behavior monitoring module 600 is configured to acquire a motion trajectory of an operator in the machine room, map the motion trajectory of the operator to the three-dimensional model of the machine room, determine whether the motion trajectory of the operator exceeds a preset operation range, and alarm if it is determined that the motion trajectory of the operator exceeds the preset operation range.

The behavior monitoring module 600 manages and controls the behavior of the operating personnel in the machine room and the normative of the operation. Through looking screen control and positioner, personnel's position information draws and the personnel scope of operation monitors in the computer lab, converts the movement track of operation personnel at the computer lab into position coordinate to show the movement track at the three-dimensional model of computer lab in real time, and can associate corresponding work ticket, set up the scope of operation, after the operation personnel surpassed the scope of operation that the work ticket stipulated, the system can send out the suggestion of reporting an emergency and asking for help or increased vigilance, avoid the operation personnel to walk wrong interval and cause the accident.

It should be noted that, the intelligent machine room management system based on the three-dimensional model provided in this embodiment constructs the three-dimensional model of the machine room by obtaining the full-scene image in the machine room, thereby simulating the machine room environment, acquiring the topological data of each device in each area in the machine room, constructing the topological relation of the devices in each area for display, judging whether the devices are in failure or not according to the operation data of the devices, and marks the corresponding equipment in the three-dimensional model of the machine room, and gives an alarm so as to visually determine the fault equipment and facilitate maintenance, meanwhile, the movement track of the operator in the machine room is also acquired, whether the movement track of the operator exceeds the preset operation range or not is judged, if the movement track of the operator exceeds the preset operation range, and alarming to effectively alarm and remind people beyond the operation range or at wrong intervals.

In a specific embodiment, the topology identification module comprises a GPS module, a low-voltage topology identification module, a network device topology identification module, a broadband carrier module, a concentrator, and a topology construction module;

the GPS module is used for acquiring the position information of each device in each area;

the low-voltage topology identification module comprises a voltage acquisition module, a broadband carrier module and a topology construction module, wherein the voltage acquisition module is connected with each screen cabinet power inlet wire, is used for acquiring voltage information of each screen cabinet power inlet wire in each area, and is also used for sending the voltage information to the topology construction module through the broadband carrier module and the concentrator in sequence;

the network equipment topology identification module is used for acquiring connection information of each equipment port in each area and sending the connection information to the topology construction module through the broadband carrier module and the concentrator in sequence;

the topology construction module is used for constructing a low-voltage topology relation according to voltage information of the incoming lines of the power supplies of the screen cabinets; and the device is also used for generating a network device topological relation according to the connection information of each device port.

It can be understood that, through disposing the voltage acquisition module on each screen cabinet power supply incoming line and additionally installing the communication module based on the broadband carrier technology, the voltage acquisition module transmits the acquired voltage information to the broadband carrier module, the carrier communication module transmits the voltage information to the concentrator, and finally the value topology construction module is uploaded.

In one embodiment, the status monitoring module comprises a low-voltage power loss monitoring module and a link monitoring module;

the low-voltage power loss monitoring module is used for acquiring voltage information of each screen cabinet, judging whether the corresponding screen cabinet loses power according to the voltage information, and if the screen cabinet is judged to lose power, identifying the corresponding screen cabinet in the three-dimensional model of the machine room and giving an alarm;

in a specific application, the position and the power utilization information of each screen cabinet in the machine room in the low-voltage topology can be visually displayed according to the low-voltage power utilization state of the screen cabinet, when the screen cabinet loses power, the screen cabinet is marked on the three-dimensional model of the machine room, the color change of the corresponding screen cabinet can be specifically distinguished, and a corresponding screen cabinet power loss alarm is sent.

The link monitoring module is used for acquiring link information of each network device, judging whether a link of the network device is interrupted or not according to the link information, if the link of the network device is judged to be interrupted, determining all devices influenced by the network device with the interrupted link according to the device topological relation, identifying the corresponding network device and all the devices influenced by the corresponding network device in the three-dimensional model of the computer lab, and giving an alarm.

In a specific application, when the connection between the network devices is interrupted, the connection can be identified on the three-dimensional model of the machine room, and the connection can be distinguished by carrying out color change on the corresponding network devices and sending out link interruption warning information.

In one embodiment, the system further comprises: the machine account acquisition module and the information query module;

the standing book acquisition module is used for acquiring configuration information of each device and storing the configuration information into a preset database in a standing book form;

and the information query module is used for mapping the configuration information to the machine room three-dimensional model to be associated with the corresponding equipment.

In one example, configuration information (port usage, specifications, defect records, and the like) of each device in the machine room is stored in a database in a standing book form, and then the configuration information is associated with the devices in the three-dimensional model of the machine room, so that the relevant configuration information can be queried by clicking the corresponding device model in the three-dimensional model of the machine room.

In one embodiment, the system further comprises: the system comprises an instruction sending module, a character recognition module and a service classification module;

the instruction sending module is used for sending the service instruction sent by the master station in advance to corresponding equipment, and the service instruction sent in advance comprises specific characters;

the character recognition module is used for recognizing specific characters in each device and matching corresponding service instructions in a preset service database according to the specific characters so as to determine all devices under the service instructions, wherein the preset service database comprises a mapping relation between the specific characters and the service instructions;

and the service classification module is used for constructing a service-equipment topological relation according to the service instruction and all corresponding equipment and displaying the service-equipment topological relation in the machine room three-dimensional model.

It can be understood that after the master station issues a command, the devices through which the data stream formed by the command flows are different, and if the devices through which the command flows are distinguished and acquired, all the devices through which the command flows can be quickly found, and each service corresponds to a device topology relationship, so as to provide convenience for subsequent operation and maintenance.

In one embodiment, the system further comprises: and the model updating module is used for updating the three-dimensional model of the machine room according to a preset updating instruction, wherein the preset updating instruction comprises an instruction for adding equipment and an instruction for deleting the equipment.

It can be understood that, in practical application, according to the use requirement, the devices in the machine room can be added or deleted, and for this reason, the three-dimensional model of the machine room needs to be correspondingly updated. Generally, the position relationship of the added or deleted equipment is obtained, and the added or deleted equipment is added or deleted at the corresponding position of the three-dimensional model of the machine room.

In one embodiment, the system further comprises: and the virtual training module is used for converting the machine room three-dimensional model into a machine room virtual environment model based on a virtual machine technology and modifying the configuration information of the equipment in the machine room virtual environment model according to a preset modification instruction.

The virtual training scene is built by calling the machine room three-dimensional model, and the machine room virtual environment model is built by using the virtual machine technology, so that the equipment environment can be built according to the training requirement. The equipment configuration parameters can be changed arbitrarily in the machine room virtual environment model, and the configuration information related to the real topological structure and the model of the network equipment can not be modified, so that the problems of high training cost and limitation of sites and equipment are solved.

The above is a detailed description of an embodiment of the intelligent machine room management system based on the three-dimensional model, and the following is a detailed description of an embodiment of the intelligent machine room management method based on the three-dimensional model.

For convenience of understanding, please refer to fig. 2, the present invention provides a method for managing an intelligent machine room based on a three-dimensional model, comprising the following steps:

s1, acquiring a full-scene image in the machine room, wherein the full-scene image contains the position relation of each device in the machine room;

s2, constructing a machine room three-dimensional model through a 3D Max technology based on the full live-action image;

s3, acquiring topological data of each device in each area in the machine room, and constructing a device topological relation of the corresponding area based on the topological data of each device in each area;

s4, overlapping the topological relation of the equipment in each area into a three-dimensional model of the machine room for displaying;

s5, collecting operation data of each device in the machine room, judging whether the operation data are abnormal, if the operation data are abnormal, identifying the corresponding device in the three-dimensional model of the machine room, and giving an alarm;

and S6, acquiring the motion trail of the operator in the machine room, mapping the motion trail of the operator to the three-dimensional model of the machine room, judging whether the motion trail of the operator exceeds a preset operation range, and giving an alarm if the motion trail of the operator exceeds the preset operation range.

In a specific embodiment, step S3 specifically includes:

s301, acquiring position information of each device in each area;

s302, collecting voltage information of each screen cabinet power inlet wire in each area and connection information of each equipment port in each area;

s303, constructing a low-voltage topological relation according to voltage information of each screen cabinet power inlet wire, and generating a network equipment topological relation according to connection information of each equipment port.

In a specific embodiment, step S5 specifically includes:

s501, collecting voltage information of each screen cabinet, judging whether the corresponding screen cabinet loses power according to the voltage information, if the screen cabinet loses power, identifying the corresponding screen cabinet in a three-dimensional model of a machine room, and giving an alarm;

s502, obtaining link information of each network device, judging whether a link of the network device is interrupted according to the link information, if the link of the network device is interrupted, determining all devices influenced by the network device with the interrupted link according to the device topological relation, identifying the corresponding network device and all the devices influenced by the corresponding network device in the three-dimensional model of the machine room, and giving an alarm.

In one embodiment, the method further comprises:

acquiring configuration information of each device, and storing the configuration information into a preset database in a standing book form;

and mapping the configuration information to the three-dimensional model of the machine room to be associated with the corresponding equipment.

In one embodiment, the method further comprises:

converting the machine room three-dimensional model into a machine room virtual environment model based on a virtual machine technology;

and modifying the configuration information of the equipment in the machine room virtual environment model according to a preset modification instruction.

In one embodiment, the method further comprises:

sending a service instruction issued in advance by a master station to corresponding equipment, wherein the service instruction issued in advance comprises specific characters;

identifying specific characters in each device, and matching corresponding service instructions in a preset service database according to the specific characters so as to determine all devices under the service instructions, wherein the preset service database comprises a mapping relation between the specific characters and the service instructions;

and constructing a service-equipment topological relation according to the service instruction and all corresponding equipment, and displaying the service-equipment topological relation in the machine room three-dimensional model.

In one embodiment, the method further comprises:

and updating the three-dimensional model of the machine room according to a preset updating instruction, wherein the preset updating instruction comprises an instruction for adding equipment and an instruction for deleting the equipment.

It can be clearly understood by those skilled in the art that, for convenience and simplicity of description, the specific working processes of the above-described systems, apparatuses and units may refer to the corresponding processes in the foregoing method embodiments, and are not described herein again.

In the embodiments provided in the present invention, it should be understood that the disclosed apparatus and method may be implemented in other ways. For example, the above-described apparatus embodiments are merely illustrative, and for example, a division of a unit is merely a logical division, and an actual implementation may have another division, for example, a plurality of units or components may be combined or integrated into another system, or some features may be omitted, or not executed. In addition, the shown or discussed mutual coupling or direct coupling or communication connection may be an indirect coupling or communication connection through some interfaces, devices or units, and may be in an electrical, mechanical or other form.

Units described as separate parts may or may not be physically separate, and parts displayed as units may or may not be physical units, may be located in one place, or may be distributed on a plurality of network units. Some or all of the units can be selected according to actual needs to achieve the purpose of the solution of the embodiment.

In addition, functional units in the embodiments of the present invention may be integrated into one processing unit, or each unit may exist alone physically, or two or more units are integrated into one unit. The integrated unit can be realized in a form of hardware, and can also be realized in a form of a software functional unit.

The above examples are only intended to illustrate the technical solution of the present invention, but not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; and such modifications or substitutions do not depart from the spirit and scope of the corresponding technical solutions of the embodiments of the present invention.

Claims (10)

1. The utility model provides an wisdom computer lab management system based on three-dimensional model which characterized in that includes: the system comprises a live-action acquisition module, a three-dimensional construction module, a topology identification module, a topology display module, a state monitoring module and a behavior monitoring module;

the live-action acquisition module is used for acquiring a full live-action image in the machine room, wherein the full live-action image comprises the position relation of each device in the machine room;

the three-dimensional construction module is used for constructing a machine room three-dimensional model based on the full-scene image through a 3D Max technology;

the topology identification module is used for acquiring topology data of each device in each area in the machine room and constructing a device topology relation of the corresponding area based on the topology data of each device in each area;

the equipment topology display module is used for superposing the equipment topology relationship of each area to the three-dimensional model of the machine room for display;

the state monitoring module is used for acquiring operation data of each device in the machine room, judging whether the operation data are abnormal or not, if the operation data are judged to be abnormal, identifying the corresponding device in the three-dimensional model of the machine room, and giving an alarm;

the behavior monitoring module is used for acquiring the motion trail of an operator in a machine room, mapping the motion trail of the operator to the three-dimensional model of the machine room, judging whether the motion trail of the operator exceeds a preset operation range, and giving an alarm if the motion trail of the operator exceeds the preset operation range.

2. The intelligent machine room management system based on the three-dimensional model is characterized in that the topology identification module comprises a GPS module, a low-voltage topology identification module, a network equipment topology identification module, a broadband carrier module, a concentrator and a topology construction module;

the GPS module is used for acquiring the position information of each device in each area;

the low-voltage topology identification module comprises a voltage acquisition module, a broadband carrier module and a topology construction module, wherein the voltage acquisition module is connected with each screen cabinet power inlet wire and is used for acquiring voltage information of each screen cabinet power inlet wire in each area and sending the voltage information to the topology construction module through the broadband carrier module and the concentrator in sequence;

the network equipment topology identification module is used for acquiring connection information of each equipment port in each area and sending the connection information to the topology construction module through the broadband carrier module and the concentrator in sequence;

the topology construction module is used for constructing a low-voltage topology relation according to the voltage information of the incoming lines of the power supplies of the panels; and the device is also used for generating a network device topological relation according to the connection information of each device port.

3. The intelligent machine room management system based on three-dimensional model as claimed in claim 2, wherein the state monitoring module comprises a low voltage power loss monitoring module and a link monitoring module;

the low-voltage power loss monitoring module is used for acquiring voltage information of each screen cabinet, judging whether the corresponding screen cabinet loses power according to the voltage information, identifying the corresponding screen cabinet in the three-dimensional model of the machine room if the screen cabinet is judged to lose power, and giving an alarm;

the link monitoring module is used for acquiring link information of each network device, judging whether a link of the network device is interrupted or not according to the link information, if the link of the network device is judged to be interrupted, determining all devices influenced by the network device with the interrupted link according to the device topological relation, identifying the corresponding network device and all the devices influenced by the network device in the three-dimensional model of the machine room, and giving an alarm.

4. The three-dimensional model-based intelligent room management system of claim 1, further comprising: the machine account acquisition module and the information query module;

the standing book acquisition module is used for acquiring configuration information of each device and storing the configuration information into a preset database in a standing book form;

the information query module is used for mapping the configuration information to the machine room three-dimensional model to be associated with the corresponding equipment, and is also used for querying the configuration information and the equipment topological relation of the corresponding equipment in the machine room three-dimensional model according to a query instruction input by a user in advance.

5. The three-dimensional model-based intelligent room management system of claim 1, further comprising: the system comprises an instruction sending module, a character recognition module and a service classification module;

the instruction sending module is used for sending a service instruction sent by the master station in advance to corresponding equipment, and the service instruction sent in advance comprises specific characters;

the character recognition module is used for recognizing specific characters in each device and matching corresponding service instructions in a preset service database according to the specific characters so as to determine all devices under the service instructions, wherein the preset service database comprises a mapping relation between the specific characters and the service instructions;

and the service classification module is used for constructing a service-equipment topological relation according to the service instruction and all corresponding equipment and displaying the service-equipment topological relation in the machine room three-dimensional model.

6. The three-dimensional model-based intelligent room management system of claim 1, further comprising: and the model updating module is used for updating the three-dimensional model of the machine room according to a preset updating instruction, wherein the preset updating instruction comprises an instruction for adding equipment and an instruction for deleting equipment.

7. The three-dimensional model-based intelligent room management system of claim 1, further comprising: and the virtual training module is used for converting the machine room three-dimensional model into a machine room virtual environment model based on a virtual machine technology and modifying the configuration information of equipment in the machine room virtual environment model according to a preset modification instruction.

8. An intelligent machine room management method based on a three-dimensional model is characterized by comprising the following steps:

acquiring a full-live-action image in a machine room, wherein the full-live-action image comprises the position relation of each device in the machine room;

constructing a machine room three-dimensional model based on the full-scene image through a 3D Max technology;

acquiring topological data of each device in each area in the machine room, and constructing a device topological relation of the corresponding area based on the topological data of each device in each area;

superposing the topological relation of the equipment in each area to the three-dimensional model of the machine room for displaying;

collecting operation data of each device in a machine room, judging whether the operation data are abnormal or not, if the operation data are judged to be abnormal, identifying the corresponding device in the three-dimensional model of the machine room, and giving an alarm;

the method comprises the steps of obtaining the movement track of an operator in a machine room, mapping the movement track of the operator to a three-dimensional model of the machine room, judging whether the movement track of the operator exceeds a preset operation range, and giving an alarm if the movement track of the operator exceeds the preset operation range.

9. The intelligent machine room management method based on the three-dimensional model as claimed in claim 8, wherein the step of obtaining topology data of each device in each area in the machine room and constructing a device topology relationship of the corresponding area based on the topology data of each device in each area specifically comprises:

acquiring position information of each device in each area;

collecting voltage information of each screen cabinet power inlet wire in each area and connection information of each equipment port in each area;

and constructing a low-voltage topological relation according to the voltage information of the power inlet wires of the panels, and generating a network equipment topological relation according to the connection information of the ports of the equipment.

10. The intelligent machine room management method based on the three-dimensional model as claimed in claim 8, wherein the step of collecting the operation data of each device in the machine room, determining whether the operation data is abnormal, and if the operation data is determined to be abnormal, identifying the corresponding device in the three-dimensional model of the machine room, and giving an alarm specifically comprises:

collecting voltage information of each screen cabinet, judging whether the corresponding screen cabinet loses power according to the voltage information, if the screen cabinet loses power, identifying the corresponding screen cabinet in the three-dimensional model of the machine room, and giving an alarm;

and acquiring link information of each network device, judging whether a link of the network device is interrupted or not according to the link information, if so, determining all devices influenced by the network device with the interrupted link according to the device topological relation, identifying the corresponding network device and all the devices influenced by the network device in the machine room three-dimensional model, and giving an alarm.

Images