CN110837879A - Intelligent management system and management method for machine room assets based on U-bit level monitoring - Google Patents

Abstract

The invention relates to a machine room asset intelligent management system based on U-bit level monitoring and a management method thereof, the management method is based on an intelligent management system comprising RFID tags, an in-out warehouse unit, a scanning and positioning unit, a central server, a request unit, an alarm unit and a display, inputting the equipment information of the warehousing equipment into the RFID label through the warehousing-out unit, positioning the RFID label by using the scanning positioning unit and scanning and acquiring the equipment information stored in the RFID label, matching the position information acquired by the scanning positioning unit with the equipment information by the central server to form a logic position diagram of the equipment, and sending the logic position diagram to the display, meanwhile, the central server can perform data management statistics on the equipment according to the acquired equipment information, integrate the data for statistics, and send the data to a display for display in a 3D or 2D image form. The invention realizes the high-efficiency and quick positioning and management of machine room assets.

Description

Intelligent management system and management method for machine room assets based on U-bit level monitoring

Technical Field

The invention belongs to the field of data management, and particularly relates to an intelligent management system based on U-bit level monitoring and a management method thereof.

Background

The existing IT assets are positioned and checked manually, the manual checking has the defects of low efficiency, high missing detection rate and error detection rate, high labor cost, manual recording of asset positions and the like, and the code scanning checking also has the defects of low efficiency, high missing detection rate and error detection rate, high labor cost, manual recording of asset position information and the like; and large-scale IDC operation and maintenance have the defects that the utilization rate of equipment is low, redundant equipment consumes excessive power, the position of the equipment is recorded manually, and 80 percent of fault repair time is consumed in the process of searching for the fault equipment.

Disclosure of Invention

Based on the problems in the prior art, the invention provides a machine room asset intelligent management system based on U-bit level monitoring and a management method thereof.

The specific implementation content of the invention is as follows:

a machine room asset intelligent management system based on U-bit level monitoring comprises an in-out unit, an RFID tag, a scanning positioning unit, a central server and a display screen;

the RFID tags are provided with unique id and fixedly adhered to machine room equipment through magnets, and each RFID tag is provided with a storage module for storing data;

the warehouse entry and exit unit is connected with the central server, and when each device enters and exits the machine room, corresponding device information is input into the storage module of the RFID tag corresponding to the device, and the id of each RFID tag and the stored device information are sent to the central server for storage;

the scanning positioning unit is used for scanning the positions of the RFID tags on the equipment in each machine room and transmitting the results to the central server;

the central server receives the position scanning result of the RFID label transmitted by the scanning and positioning unit and constructs a position logic diagram according to the position scanning result;

the display screen is connected with the central server, and after the central server establishes the position logic diagram, the position logic diagram is transmitted to the display screen for display.

In order to better implement the present invention, further, the central server includes a data management module, a data processing module, and a data transceiver module; the data transceiver module is responsible for data transmission and reception of the central server; the data management module stores the data received by the data transceiver module; the data processing module comprises an engine processing layer, a GIS management layer, a view management module and a data processing layer, analyzes and processes the data stored by the data management module, sends the analysis and processing result to the data transceiver module, and sends the analysis and processing result to the data transceiver module.

In order to better realize the invention, the system further comprises a request unit and an alarm unit; the request unit is connected with the data transceiver module of the central server and used for sending a warehouse-out request to the data transceiver module; the data transceiver module receives the warehouse-out request and sends warehouse-out request feedback to the request unit, the scanning positioning unit and the warehouse-in and warehouse-out unit; the alarm unit is connected with the data transceiver module, and when the data processing module detects a fault or an alarm, the alarm unit sends the alarm to the alarm unit through the data transceiver module and carries out the alarm; the alarm unit is provided with flashing lamps and buzzers with different colors.

In order to better realize the invention, the invention further comprises a monitoring unit, a machine room temperature control device, a machine room power supply device, a device power consumption detector and a rack bearing detector; the monitoring unit is respectively connected with the machine room temperature control device, the machine room power supply device, the device power consumption detector, the rack bearing detector and the data transceiver module, monitors the temperature condition of the machine room, the power supply connection condition of the machine room, the power consumption condition of the device and the rack bearing condition in real time, and sends a detection result to the data transceiver module.

On the other hand, the invention discloses a machine room asset intelligent management method based on U-bit level monitoring, which is realized based on the machine room asset intelligent management system and is characterized by comprising the following steps:

s1, fixing an RFID label on warehousing equipment through a magnet, and inputting equipment information of the warehousing equipment into a storage module of the RFID label for storage through a warehousing-in and warehousing-out unit; the in-out unit sends the id of the RFID label corresponding to the in-out equipment and the equipment information stored in the RFID label to a central server for storage; the equipment information comprises equipment model, warehousing time, shelf loading time and shelf unloading time;

s2, after the equipment is put in a warehouse, the equipment is placed on a rack, all RFID tags fixed on the equipment put in the warehouse are subjected to position scanning through a scanning positioning module, and the id and position scanning information of the scanned RFID tags are sent to a data receiving and sending module;

s3, sending the received id and position scanning information of the RFID tag to a data management module through a data transceiver module for storage; the data processing module matches and corresponds the ID of the RFID label stored by the data management module with the position scanning information, draws the logic position diagrams of all the warehousing equipment, and the data receiving and transmitting module sends the logic position diagrams to the display screen for displaying.

In order to better realize the invention, further, the id of the RFID tag is the unique id, the machine room rack is divided according to the area, and the id of the RFID tag is set according to the area placed in a warehouse; and scanning and determining warehousing equipment in all racks through the scanning positioning module, storing scanning results to the data management module, and drawing a comparison graph of the capacity of all racks displayed by using different colors and the use capacity of the warehousing equipment by the data processing module according to the scanning results.

In order to better implement the invention, further, different alarm types and alarm levels are set; the data processing module is used for integrating data in the data management module, when the conditions specified by different set alarm types occur, the data receiving and sending module sends alarm commands corresponding to alarm levels to the alarm unit, and the alarm unit flashes flashing lamps with different colors according to different levels of the received alarm commands and sounds a buzzer for a long time.

In order to better implement the present invention, further, the data processing module is used to extract the data stored in the data management module, and the following functions are specifically implemented:

function one: the data processing layer counts alarm types, equipment models, warehousing time, racking time and racking time, sends results to the engine processing layer for 2D and 3D view processing, and finally sends the results to the display for display through the data transceiver module;

and a second function: the data processing layer counts the alarm type, equipment model, warehousing time, racking time and racking time historical data of each RFID tag, realizes the historical data statistics of a single RFID tag and the historical data comparison statistics of a plurality of RFID tags, sends the statistical result to the engine processing layer for 2D and 3D view processing, and finally sends the statistical result to the display for displaying through the data receiving and sending module;

and function III: counting the unique id of the RFID tag and the corresponding rack area, realizing position positioning through a GIS management layer, and generating a simulated position map by a view management module;

and the function is four: the monitoring unit monitors data of the machine room temperature control equipment, the machine room power supply equipment, the equipment power consumption detector and the rack bearing detector in real time, and feeds the data back to the data processing module through the data receiving and sending module, and the data processing module analyzes the data detected by the machine room temperature control equipment, the machine room power supply equipment, the equipment power consumption detector and the rack bearing detector and feeds back abnormal conditions;

and a fifth function: and counting the unique id of the RFID label and the corresponding rack area, and selecting different ranges according to different rack areas to realize functions from one to three.

In order to better implement the present invention, further, supportable devices are automatically discovered and added through a network.

In order to better realize the invention, the real-time monitoring of the operation of the CPU, the memory, the fan and the power supply of the X86 architecture server of the data center Intel protocol is further realized through the Intel self-contained bottom layer protocol.

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

1) the rapid positioning of the warehousing equipment is realized;

2) various data of the warehousing equipment are compared in a statistical mode, and are displayed in a 3D or 2D view mode, so that the data are clearer and clearer;

3) the monitoring of the warehousing equipment is realized, and the alarm can be given in time when special conditions occur.

Drawings

FIG. 1 is a schematic diagram showing the connection of each unit module of the system;

FIG. 2 is a schematic diagram of the operation of the modules of the central server;

fig. 3 is a schematic flow chart of the equipment from warehousing to positioning.

Detailed Description

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, 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 should be understood that the described embodiments are only a part of the embodiments of the present invention, and not all embodiments, and therefore should not be considered as a limitation to the scope of protection. All other embodiments, which can be obtained by a person skilled in the art without any inventive step based on the embodiments of the present invention, are within the scope of the present invention.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "disposed," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Example 1:

a machine room asset intelligent management system based on U-bit level monitoring is disclosed, as shown in figure 1, and comprises an entrance and exit unit, an RFID tag, a scanning and positioning unit, a central server and a display screen;

the RFID tags are provided with unique id and fixedly adhered to machine room equipment through magnets, and each RFID tag is provided with a storage module for storing data;

the warehouse entry and exit unit is connected with the central server, and when each device enters and exits the machine room, corresponding device information is input into the storage module of the RFID tag corresponding to the device, and the id of each RFID tag and the stored device information are sent to the central server for storage;

the scanning positioning unit is used for scanning the positions of the RFID tags on the equipment in each machine room and transmitting the results to the central server;

the central server receives the position scanning result of the RFID label transmitted by the scanning and positioning unit and constructs a position logic diagram according to the position scanning result;

the display screen is connected with the central server, and after the central server establishes the position logic diagram, the position logic diagram is transmitted to the display screen for display.

Example 2:

in order to better implement the present invention, further, as shown in fig. 2, the central server includes a data management module, a data processing module, and a data transceiver module; the data transceiver module is responsible for data transmission and reception of the central server; the data management module stores the data received by the data transceiver module; the data processing module comprises an engine processing layer, a GIS management layer, a view management module and a data processing layer, analyzes and processes the data stored by the data management module, sends the analysis and processing result to the data transceiver module, and sends the analysis and processing result to the data transceiver module.

Other parts of this embodiment are the same as embodiment 1, and thus are not described again.

Example 3:

in order to better implement the present invention, further, as shown in fig. 1, the present invention further includes a request unit, an alarm unit; the request unit is connected with the data transceiver module of the central server and used for sending a warehouse-out request to the data transceiver module; the data transceiver module receives the warehouse-out request and sends warehouse-out request feedback to the request unit, the scanning positioning unit and the warehouse-in and warehouse-out unit; the alarm unit is connected with the data transceiver module, and when the data processing module detects a fault or an alarm, the alarm unit sends the alarm to the alarm unit through the data transceiver module and carries out the alarm; the alarm unit is provided with flashing lamps and buzzers with different colors.

Other parts of this embodiment are the same as any of embodiments 1-2 described above, and thus are not described again.

Example 4:

in order to better realize the invention, the invention further comprises a monitoring unit, a machine room temperature control device, a machine room power supply device, a device power consumption detector and a rack bearing detector; the monitoring unit is respectively connected with the machine room temperature control device, the machine room power supply device, the device power consumption detector, the rack bearing detector and the data transceiver module, monitors the temperature condition of the machine room, the power supply connection condition of the machine room, the power consumption condition of the device and the rack bearing condition in real time, and sends a detection result to the data transceiver module.

The working principle is as follows:

other parts of this embodiment are the same as any of embodiments 1 to 3, and thus are not described again.

Example 5:

on the other hand, the method for intelligently managing the assets in the machine room based on the U-bit level monitoring is realized based on the intelligent management system of the assets in the machine room, and specifically comprises the following steps as shown in fig. 1, fig. 2 and fig. 3:

s1, fixing an RFID label on warehousing equipment through a magnet, and inputting equipment information of the warehousing equipment into a storage module of the RFID label for storage through a warehousing-in and warehousing-out unit; the in-out unit sends the id of the RFID label corresponding to the in-out equipment and the equipment information stored in the RFID label to a central server for storage; the equipment information comprises equipment model, warehousing time, shelf loading time and shelf unloading time;

s2, after the equipment is put in a warehouse, the equipment is placed on a rack, all RFID tags fixed on the equipment put in the warehouse are subjected to position scanning through a scanning positioning module, and the id and position scanning information of the scanned RFID tags are sent to a data receiving and sending module;

s3, sending the received id and position scanning information of the RFID tag to a data management module through a data transceiver module for storage; the data processing module matches and corresponds the ID of the RFID label stored by the data management module with the position scanning information, draws the logic position diagrams of all the warehousing equipment, and the data receiving and transmitting module sends the logic position diagrams to the display screen for displaying.

Other parts of this embodiment are the same as any of embodiments 1 to 4, and thus are not described again.

Example 6:

in order to better realize the invention, further, the id of the RFID tag is the unique id, the machine room rack is divided according to the area, and the id of the RFID tag is set according to the area placed in a warehouse; and scanning and determining warehousing equipment in all racks through the scanning positioning module, storing scanning results to the data management module, and drawing a comparison graph of the capacity of all racks displayed by using different colors and the use capacity of the warehousing equipment by the data processing module according to the scanning results.

Other parts of this embodiment are the same as any of embodiments 1 to 5, and thus are not described again.

Example 7:

in order to better implement the invention, further, different alarm types and alarm levels are set; the data processing module is used for integrating data in the data management module, when the conditions specified by different set alarm types occur, the data receiving and sending module sends alarm commands corresponding to alarm levels to the alarm unit, and the alarm unit flashes flashing lamps with different colors according to different levels of the received alarm commands and sounds a buzzer for a long time.

Other parts of this embodiment are the same as any of embodiments 1 to 6, and thus are not described again.

Example 8:

in order to better implement the present invention, further, the data processing module is used to extract the data stored in the data management module, and the following functions are specifically implemented:

function one: the data processing layer counts alarm types, equipment models, warehousing time, racking time and racking time, sends results to the engine processing layer for 2D and 3D view processing, and finally sends the results to the display for display through the data transceiver module;

and a second function: the data processing layer counts the alarm type, equipment model, warehousing time, racking time and racking time historical data of each RFID tag, realizes the historical data statistics of a single RFID tag and the historical data comparison statistics of a plurality of RFID tags, sends the statistical result to the engine processing layer for 2D and 3D view processing, and finally sends the statistical result to the display for displaying through the data receiving and sending module;

and function III: counting the unique id of the RFID tag and the corresponding rack area, realizing position positioning through a GIS management layer, and generating a simulated position map by a view management module;

and the function is four: the monitoring unit monitors data of the machine room temperature control equipment, the machine room power supply equipment, the equipment power consumption detector and the rack bearing detector in real time, and feeds the data back to the data processing module through the data receiving and sending module, and the data processing module analyzes the data detected by the machine room temperature control equipment, the machine room power supply equipment, the equipment power consumption detector and the rack bearing detector and feeds back abnormal conditions;

and a fifth function: and counting the unique id of the RFID label and the corresponding rack area, and selecting different ranges according to different rack areas to realize functions from one to three.

Other parts of this embodiment are the same as any of embodiments 1 to 7, and thus are not described again.

Example 9:

in order to better realize the invention, the operation of the CPU, the memory, the fan and the power supply of the X86 architecture server of the data center Intel protocol is monitored in real time through automatically discovering and adding supportable devices through a network and through the Intel self-contained bottom layer protocol.

Other parts of this embodiment are the same as any of embodiments 1 to 8, and thus are not described again.

The above description is only a preferred embodiment of the present invention, and is not intended to limit the present invention in any way, and all simple modifications and equivalent variations of the above embodiments according to the technical spirit of the present invention are included in the scope of the present invention.

Claims (10)

1. A machine room asset intelligent management system based on U-bit level monitoring is characterized by comprising an entrance and exit unit, an RFID tag, a scanning and positioning unit, a central server and a display screen;

the RFID tags are provided with unique id and fixedly adhered to machine room equipment through magnets, and each RFID tag is provided with a storage module for storing data;

the warehouse entry and exit unit is connected with the central server, and when each device enters and exits the machine room, corresponding device information is input into the storage module of the RFID tag corresponding to the device, and the id of each RFID tag and the stored device information are sent to the central server for storage;

the scanning positioning unit is used for scanning the positions of the RFID tags on the equipment in each machine room and transmitting the results to the central server;

the central server receives the position scanning result of the RFID label transmitted by the scanning and positioning unit and constructs a position logic diagram according to the position scanning result;

the display screen is connected with the central server, and after the central server establishes the position logic diagram, the position logic diagram is transmitted to the display screen for display.

2. The machine room asset intelligent management system based on U bit level monitoring as claimed in claim 1, wherein said central server comprises a data management module, a data processing module, a data transceiver module; the data transceiver module is responsible for data transmission and reception of the central server; the data management module stores the data received by the data transceiver module; the data processing module comprises an engine processing layer, a GIS management layer, a view management module and a data processing layer, analyzes and processes the data stored by the data management module, sends the analysis and processing result to the data transceiver module, and sends the analysis and processing result to the data transceiver module.

3. The machine room asset intelligent management system based on U bit level monitoring as claimed in claim 2, further comprising a request unit, an alarm unit; the request unit is connected with the data transceiver module of the central server and used for sending a warehouse-out request to the data transceiver module; the data transceiver module receives the warehouse-out request and sends warehouse-out request feedback to the request unit, the scanning positioning unit and the warehouse-in and warehouse-out unit; the alarm unit is connected with the data transceiver module, and when the data processing module detects a fault or an alarm, the alarm unit sends the alarm to the alarm unit through the data transceiver module and carries out the alarm; the alarm unit is provided with flashing lamps and buzzers with different colors.

4. The machine room asset intelligent management system based on U-bit level monitoring as claimed in claim 1, further comprising a monitoring unit, a machine room temperature control device, a machine room power supply device, a device power consumption detector and a rack bearing detector; the monitoring unit is respectively connected with the machine room temperature control device, the machine room power supply device, the device power consumption detector, the rack bearing detector and the data transceiver module, monitors the temperature condition of the machine room, the power supply connection condition of the machine room, the power consumption condition of the device and the rack bearing condition in real time, and sends a detection result to the data transceiver module.

5. A computer room asset intelligent management method based on U-bit level monitoring is realized based on a computer room asset intelligent management system and is characterized by comprising the following steps:

s1, fixing an RFID label on warehousing equipment through a magnet, and inputting equipment information of the warehousing equipment into a storage module of the RFID label for storage through a warehousing-in and warehousing-out unit; the in-out unit sends the id of the RFID label corresponding to the in-out equipment and the equipment information stored in the RFID label to a central server for storage; the equipment information comprises equipment model, warehousing time, shelf loading time and shelf unloading time;

s2, after the equipment is put in a warehouse, the equipment is placed on a rack, all RFID tags fixed on the equipment put in the warehouse are subjected to position scanning through a scanning positioning module, and the id and position scanning information of the scanned RFID tags are sent to a data receiving and sending module;

s3, sending the received id and position scanning information of the RFID tag to a data management module through a data transceiver module for storage; the data processing module matches and corresponds the ID of the RFID label stored by the data management module with the position scanning information, draws the logic position diagrams of all the warehousing equipment, and the data receiving and transmitting module sends the logic position diagrams to the display screen for displaying.

6. The machine room asset intelligent management method based on U-bit level monitoring as claimed in claim 5, wherein the id of the RFID tag is a unique id, machine room racks are divided according to areas, and the id of the RFID tag is set according to the areas placed in a warehouse; and scanning and determining warehousing equipment in all racks through the scanning positioning module, storing scanning results to the data management module, and drawing a comparison graph of the capacity of all racks displayed by using different colors and the use capacity of the warehousing equipment by the data processing module according to the scanning results.

7. The intelligent management method for assets of the machine room based on the U-bit level monitoring as claimed in claim 5, characterized in that different alarm types and alarm levels are set; the data processing module is used for integrating data in the data management module, when the conditions specified by different set alarm types occur, the data receiving and sending module sends alarm commands corresponding to alarm levels to the alarm unit, and the alarm unit flashes flashing lamps with different colors according to different levels of the received alarm commands and sounds a buzzer for a long time.

8. The machine room asset intelligent management method based on U-bit level monitoring as claimed in claim 6, wherein the data processing module is used for extracting data stored in the data management module, and the following functions are implemented:

function one: the data processing layer counts alarm types, equipment models, warehousing time, racking time and racking time, sends results to the engine processing layer for 2D and 3D view processing, and finally sends the results to the display for display through the data transceiver module;

and a second function: the data processing layer counts the alarm type, equipment model, warehousing time, racking time and racking time historical data of each RFID tag, realizes the historical data statistics of a single RFID tag and the historical data comparison statistics of a plurality of RFID tags, sends the statistical result to the engine processing layer for 2D and 3D view processing, and finally sends the statistical result to the display for displaying through the data receiving and sending module;

and function III: counting the unique id of the RFID tag and the corresponding rack area, realizing position positioning through a GIS management layer, and generating a simulated position map by a view management module;

and the function is four: the monitoring unit monitors data of the machine room temperature control equipment, the machine room power supply equipment, the equipment power consumption detector and the rack bearing detector in real time, and feeds the data back to the data processing module through the data receiving and sending module, and the data processing module analyzes the data detected by the machine room temperature control equipment, the machine room power supply equipment, the equipment power consumption detector and the rack bearing detector and feeds back abnormal conditions;

and a fifth function: and counting the unique id of the RFID label and the corresponding rack area, and selecting different ranges according to different rack areas to realize functions from one to three.

9. The method as claimed in claim 8, wherein supportable devices are automatically discovered and added through network.

10. The machine room asset intelligent management method based on U-bit level monitoring as claimed in claim 9, wherein real-time monitoring of CPU, memory, fan, power supply operation of X86 architecture server of data center Intel protocol is realized through Intel self-contained bottom layer protocol.

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