CN113766354A

CN113766354A - Intelligent management and control system for machine room equipment

Info

Publication number: CN113766354A
Application number: CN202110649677.8A
Authority: CN
Inventors: 韩磊; 杜明; 吴磊; 袁中琛; 赵玉新; 郑骁麟; 黄潇潇
Original assignee: State Grid Corp of China SGCC; State Grid Tianjin Electric Power Co Ltd; Electric Power Research Institute of State Grid Tianjin Electric Power Co Ltd
Current assignee: State Grid Corp of China SGCC; State Grid Tianjin Electric Power Co Ltd; Electric Power Research Institute of State Grid Tianjin Electric Power Co Ltd
Priority date: 2021-06-10
Filing date: 2021-06-10
Publication date: 2021-12-07

Abstract

The invention relates to an intelligent management and control system for machine room equipment, which comprises: the execution end comprises an inspection robot and is controlled in a machine room to periodically inspect the machine room according to a preset line; the local management system is used for managing and controlling the inspection robot at the execution end, sending an inspection instruction to the inspection robot according to inspection standards and requirements, and uploading inspection data; the cloud main control system issues routing inspection standards and requirements to the local management system, receives routing inspection data which are acquired by routing inspection of the routing inspection robot of the execution end according to routing inspection instructions and uploaded by the local management system, realizes online whole life cycle management of each server, and monitors the working state of each server by combining monitoring information of a networking sensor; the invention can realize efficient and accurate acquisition, input, tracking, inventory and statistics of the equipment in the machine room, greatly reduce the cost of operation and maintenance manpower and improve the utilization efficiency of the equipment in the machine room.

Description

Intelligent management and control system for machine room equipment

Technical Field

The invention belongs to the technical field of machine room operation and maintenance, and particularly relates to an intelligent management and control system for machine room equipment.

Background

The high-efficiency operation and maintenance of a large number of machine room devices in the power grid have important significance for improving the operation performance of power grid enterprises, improving the safe and stable operation level of the power grid and tamping the construction foundation of the intelligent power grid. In recent years, along with expansion of data center scale and rapid rise of labor cost, the importance of users on operation and maintenance of intelligent machine room equipment is increasing.

Through searching, no prior art publication which is the same as or similar to the present invention is found.

Disclosure of Invention

The invention aims to overcome the defects of the prior art, and provides an intelligent management and control system for machine room equipment, which can realize efficient and accurate acquisition, input, tracking, inventory and statistics of the machine room equipment, reduce the operation and maintenance labor cost and improve the utilization efficiency of the machine room equipment.

The invention solves the practical problem by adopting the following technical scheme:

the intelligent management and control system for the machine room equipment comprises:

the execution end comprises an inspection robot, is controlled in a machine room to periodically inspect the machine room according to a preset line, comprises the steps of inspecting a cabinet and servers in the cabinet, acquiring information of digital tags on the cabinet and the servers, acquiring monitoring information of an Internet of things sensor which is installed in the cabinet and used for monitoring the working state of the servers, acquiring image information of the cabinet and the servers in the machine room, and comprehensively identifying position information of the cabinet and the servers and working state information of each server;

the local management system is arranged in the machine room and used for managing and controlling the inspection robot at the execution end, sending an inspection instruction to the inspection robot according to inspection standards and requirements and uploading inspection data;

the cloud end master control system is used for managing and controlling at least one machine room, issuing inspection standards and requirements to the local management system, receiving inspection data which are uploaded by the local management system and acquired by an inspection robot of the execution end performing inspection according to an inspection instruction, processing inspection image data, performing U-bit-level server identification based on a deep learning technology, combining information of a digital tag, accurately identifying the servers, forming account information of the inspection corresponding to each server, and storing the account information in a server account information database; monitoring server account information data in real time, realizing on-line full life cycle management of each server, and simultaneously monitoring the working state of each server by combining the monitoring information of the internet-of-things sensor;

this high in clouds major control system still after obtaining the environment two-dimensional information that patrols and examines the robot and gather, combines three-dimensional modeling technique, to every whole environment in the computer lab, each rack and each inside server of rack carry out 3D and model to realize visual show.

And, the server account information includes a server number, shelving information, editing information, position replacement information, and discard termination information.

Moreover, the digital label adopts an RFID label, stores RFID label data, the RFID label data is in one-to-one correspondence with the data of the cabinet and/or the server, and the data of the cabinet and/or the server uniquely associated with the digital label data can be acquired through the RFID label data, so that the association relationship between the RFID and the cabinet and/or the server is realized.

Moreover, the inspection robot is provided with an information acquisition module which comprises a digital label reading module, an inspection image acquisition module and a server sensor information receiving module; the digital label reading module is used for acquiring the information of the digital labels on the cabinet and the server; the inspection image acquisition module is used for acquiring images of the cabinet and a server installed in the cabinet to realize inspection; the server sensor information receiving module is used for acquiring monitoring information of an internet of things sensor which is installed in the cabinet and used for monitoring the working state of the server.

And, patrol and examine the camera that image acquisition module is for can removing, install on a support that can go up and down and remove about, install the elevator on this support and can carry out horizontal migration's translation piece at the elevator surface, patrol and examine image acquisition module and install on the translation piece, and then carry out image acquisition to the server of installation in rack and the rack and realize patrolling and examining.

And after the server at a position is replaced and abandoned and the digital label on a new server is collected, when the cloud main control system identifies that the digital label corresponding to the server at the position is different from the previous digital label, the abandoned server data is automatically removed from the server account information data to the abandoned server data area for individual storage management, and the new server data is filled and supplemented.

The invention has the advantages and beneficial effects that:

the intelligent machine room equipment operation and maintenance system realizes intelligent machine room equipment operation and maintenance, can realize efficient and accurate machine room equipment acquisition, recording, tracking, inventory and statistics, greatly reduces the operation and maintenance labor cost, and improves the utilization efficiency of the machine room equipment.

Drawings

FIG. 1 is a schematic view of the inspection robot of the present invention;

description of reference numerals:

1-a patrol robot; 2-a scaffold; 3-lifting block; 4-a translation block; 5-a patrol image acquisition module; 6-a server; 7-cabinet.

Detailed Description

The embodiments of the invention will be described in further detail below with reference to the accompanying drawings:

In this embodiment, the viewing angle can be freely adjusted at any time by the 3D rendering technology, and the optimal browsing manner is selected, so as to obtain a better visual effect. The corresponding operations include plane view zooming, rotation, rolling, translation in a 3D environment, and the like. The interface has the advantages of visual display, convenience in operation, interactive friendliness, visual attractiveness and good resolution adaptability, and is suitable for large-screen presentation and display of a display and a mobile terminal screen.

In this embodiment, further, the machine room resource management can be performed based on the correlation of the equipment, resources and service information of the internet data center client machine room, and the existing resource management technology can be supplemented in a manner of performing resource management for indexes by using a networked data center resident client.

In this embodiment, can acquire the interface of high in the clouds equipment standing book information through research and development, patrol and examine and acquire equipment information and automatic update equipment standing book at the high in the clouds and track and will patrol and examine the result and send on the datamation, with regulation and control cloud data center monitored control system integration, realize the visual dynamic show of computer lab data center and equipment and to the panoramic management of computer lab equipment full life cycle.

In this embodiment, through the operation of patrolling and examining of robot, patrol and examine at every turn and can acquire the detailed information of current interior server of rack automatically and upload to regulation and control cloud platform in combination with current state of patrolling and examining, generate this machine account information of patrolling and examining of this server, save to server machine account information database for the monitoring. Therefore, the problems that due to the fact that the number of computer systems of a power grid machine room is increased day by day, environment equipment is increased day by day, meanwhile, the number of machine room equipment is large, the variety is complicated, and the traditional manual mode for managing equipment information has many defects, such as low efficiency, poor confidentiality and great difficulty in searching, updating and maintaining a large amount of files and data are solved.

In this embodiment, the internet of things sensor is arranged, and from the perspective of the internet of things, machine room equipment management based on internet of things monitoring is provided, so that powerful guarantee is provided for efficient management and safe operation of machine room equipment. Machine room equipment management is an important component of data center operations, and traditional equipment tracking tools, such as bar code scanning and spreadsheets, are labor intensive, error prone, and only as accurate as the last inventory. Modern "smarter" data centers require innovative equipment management and control solutions.

In this embodiment, can install various thing networking sensors in the rack, gather server operating condition to the realization is to the tracking management and control of server state. Such as an internet of things temperature sensor, an internet of things fault detection sensor, an internet of things humidity sensor, an internet of things environment sensor and the like.

The server account information comprises a server number, shelving information, editing and repairing information, position replacing information and abandonment termination information.

Therefore, comprehensive tracking and recording are carried out in the whole period of equipment management, and the information can be completely displayed in a cloud system.

The digital label adopts an RFID label, stores RFID label data, the RFID label data is in one-to-one correspondence with data of the cabinet and/or the server, and the data of the cabinet and/or the server uniquely associated with the digital label data can be acquired through the RFID label data, so that the association relationship between the RFID and the cabinet and/or the server is realized.

In this embodiment, various digital tags can be pasted on the outside of the cabinet and the server, so that the robot can accurately identify information of the cabinet and the server by acquiring information of the digital tags in the inspection process, preferably, the digital tags adopt RFID tags and store RFID tag data, the RFID tag data corresponds to data of the cabinet and/or the server one by one, and the data of the cabinet and/or the server uniquely associated with the RFID tag data can be acquired through the RFID tag data, so as to realize the association relationship between the RFID and the cabinet and/or the server.

In this embodiment, the RFID electronic tag can store information such as an SN number, an equipment model, an occupied U number, a rack number, address information, a data center where the equipment is located, a floor where the equipment is located, an equipment room where the equipment is located, a column where the equipment is located, MAC1, equipment description of the equipment room, a manufacturer, an equipment serial number of the equipment room, an equipment supplier of the equipment room, MAC2, a device type, an equipment life cycle of the equipment room, a maintenance cycle, a maintenance person in charge, a maintenance contact manner, a weight (KG), a power consumption (W), a rated current, a rated voltage, a first use time, inventory coding of the equipment room equipment, a last maintenance person, a next maintenance person, a last update time, a next update time, and the like of the equipment room equipment, and the data storage manner is an ASCII code.

The digital intelligent technology is deeply changing the existing operation and maintenance mode and operation and maintenance flow of the data center, and will completely release all the potentials of the data center. The development center of gravity of the global data center is shifting from large-scale construction to refined operation. In this embodiment, a deep learning technology such as a "neural network" is used to perform U-bit-level server identification on an image of a cabinet in a machine room acquired by a robot. The U-bit intelligent machine room equipment management function serves as one of standard functions, a complete flow control and accurate machine room equipment self-identification technology is provided for users, and the problem of machine room equipment management of a large-scale data center is solved. The system automatically detects and identifies equipment within the rack; the intelligent operation and maintenance system has the advantages of accurate positioning and high accuracy, and displays the current state and the deployment history by using a visual tool, thereby further effectively realizing the intelligent operation and maintenance of the equipment in the machine room.

By acquiring the equipment information, the equipment ledger tracking is automatically updated at the cloud, so that the online full-life-cycle management of the equipment in the equipment room is realized. Under the great trend of unattended operation of the machine room, along with the release of more intelligent technologies, the accurate and reliable U-level machine room equipment management technology is applied more and more in machine room equipment management of the machine room.

The inspection robot is provided with an information acquisition module which comprises a digital label reading module, an inspection image acquisition module and a server sensor information receiving module; the digital label reading module is used for acquiring the information of the digital labels on the cabinet and the server; the inspection image acquisition module is used for acquiring images of the cabinet and a server installed in the cabinet to realize inspection; the server sensor information receiving module is used for acquiring monitoring information of an internet of things sensor which is installed in the cabinet and used for monitoring the working state of the server.

In this embodiment, as shown in fig. 1, in order to achieve better data acquisition and accurate data acquisition, a mobile inspection image acquisition module 5, i.e. a mobile camera, is installed on a rack capable of being lifted and moved left and right, and includes a lifting block 3 installed on a bracket 2 and a translation block 4 capable of horizontally moving on the surface of the lifting block, the inspection image acquisition module 5 is installed on the translation block to achieve image acquisition on a cabinet 7 and a server 6 installed in the cabinet to achieve inspection, the camera is installed on the rack, and is driven to be lifted and moved left and right, after stopping at a predetermined acquisition position and being lifted to a corresponding height, uniform horizontal movement is simultaneously performed during image acquisition on a target object, and image acquisition is performed on the target object at the position during horizontal movement, the method and the device have the advantages that the continuous-time multiple images of the target object are collected at the position, the state of the target object is convenient to analyze and process at a later stage, the problem that in the prior art, the image data of the target object is wrong due to the fact that the image of the target object is collected at one moment is solved, noise data interference is prevented, if the target object is collected at a constant position only, the image is unclear or has interference due to the influence of a collection visual angle or other ambient light, and the indication condition of the indicator light cannot be accurately judged.

In this embodiment, after the server at a location is replaced and discarded and the digital tag on a new server is collected, when the cloud main control system recognizes that the digital tag corresponding to the server at the location is different from the previous digital tag, the discarded server data is automatically removed from the server account information data to the discarded server data area for individual storage management, and the discarded server data is filled and supplemented by the new server data.

The embodiment of the invention can also efficiently utilize the information of the equipment in the machine room, particularly the position information of the U-bit-level accurate equipment in the machine room, and effectively discover or solve the operation problem of the data center through a big data analysis technology, thereby improving the overall operation efficiency. If the working state of the server in one machine room or a plurality of machine rooms is analyzed and judged through big data, the network environment using the server or the plurality of servers or the working state of the data center are analyzed and judged, the working state and the problem of the data center can be found out through analyzing the working state of the server in the machine room or the plurality of machine rooms and combing the devices connected with the fault server in the upstream and the downstream, and the operation problem of the data center can be effectively found or solved in time.

In the embodiment of the invention, the intelligent management and control technology of the machine room equipment based on the cloud-end system is adopted, the service digitization of the machine room management operation and maintenance work is realized from the source end, the data aggregation is realized at the cloud end, and the requirements of data mining and other technologies on value mining and data value adding of the machine room basic data can be met.

The method has important significance for promoting the high-efficiency operation and maintenance and management of a large number of machine room equipment in the power grid to improve the operation performance of power grid enterprises, improve the safe and stable operation level of the power grid and tamp the construction foundation of the intelligent power grid.

It should be emphasized that the embodiments described herein are illustrative rather than restrictive, and thus the present invention is not limited to the embodiments described in the detailed description, but also includes other embodiments that can be derived from the technical solutions of the present invention by those skilled in the art.

Claims

1. The utility model provides a computer lab equipment intellectuality management and control system which characterized in that: the method comprises the following steps:

2. The machine room equipment intelligent management and control system according to claim 1, wherein: the server account information comprises a server number, shelving information, editing and repairing information, position replacing information and abandonment termination information.

3. The machine room equipment intelligent management and control system according to claim 1, wherein: the digital label adopts an RFID label, stores RFID label data, the RFID label data is in one-to-one correspondence with data of the cabinet and/or the server, and the data of the cabinet and/or the server uniquely associated with the digital label data can be acquired through the RFID label data, so that the association relationship between the RFID and the cabinet and/or the server is realized.

4. The machine room equipment intelligent management and control system according to claim 1, wherein: the inspection robot is provided with an information acquisition module which comprises a digital label reading module, an inspection image acquisition module and a server sensor information receiving module; the digital label reading module is used for acquiring the information of the digital labels on the cabinet and the server; the inspection image acquisition module is used for acquiring images of the cabinet and a server installed in the cabinet to realize inspection; the server sensor information receiving module is used for acquiring monitoring information of an internet of things sensor which is installed in the cabinet and used for monitoring the working state of the server.

5. The machine room equipment intelligent management and control system according to claim 4, wherein: patrol and examine the camera that image acquisition module is for can removing, install on a support that can go up and down and control, install the elevator on this support and can carry out horizontal migration's translation piece at the elevator surface, patrol and examine image acquisition module and install on the translation piece, and then carry out image acquisition to the server of installation in rack and the rack and realize patrolling and examining.

6. The machine room equipment intelligent management and control system according to claim 1, wherein: after the server at a position is replaced and abandoned, and the digital label on a new server is collected, when the cloud main control system identifies that the digital label corresponding to the server at the position is different from the prior digital label, the abandoned server data is automatically removed from the server account information data to the abandoned server data area for independent storage management, and the new server data is filled and supplemented.