CN111682967A - Information system architecture management system - Google Patents

Abstract

The invention provides an information system architecture management system, which comprises a background management system, a mobile client, a load monitoring subsystem and a machine room intelligent device, the machine room environment scanning device comprises a machine room environment scanning device and an IT device, the IT device comprises a management system server, an information system server and a routing device, the machine room intelligent device comprises an intelligent cabinet, the information system server is arranged in the intelligent cabinet, a background management system runs in the management system server, the management system server is connected with the information system server through an internal network, a load monitoring subsystem is deployed at a network core node and is connected with the background management system, the machine room environment scanning device is used for scanning the machine room environment to obtain machine room modeling data, the background management system is used for realizing three-dimensional display and management of the machine room internal environment, the IT device and resources, and a mobile client is connected with the background management system through a network.

Description

Information system architecture management system

Technical Field

The invention relates to the technical field of management systems, in particular to an information system architecture management system.

Background

Along with the attention of enterprises to information-based construction, more and more enterprise-level application systems and other business systems are gradually put into operation, the scale of a corresponding matched machine room is gradually enlarged, along with the increase of the scale of the machine room, IT equipment, computing resources, storage resources, network resources and the like in the machine room are increasingly huge, the architecture of an information system is increasingly complex, and in the face of the complicated IT environment, the existing machine room management mode is difficult to take various resources into account in management, the visualization degree is poor, and the information-based management of the machine room resources and the stable and safe operation of the enterprise information system are difficult to realize.

Disclosure of Invention

It is an object of the present invention to provide an information system architecture management system that overcomes or at least partially solves the above mentioned problems of the prior art.

An information system architecture management system comprises a software part and a hardware part, wherein the software part comprises a background management system, a mobile client and a load monitoring subsystem, the hardware part comprises a machine room intelligent device, a machine room environment scanning device and an IT device, the IT device comprises a management system server, an information system server and a routing device, the machine room intelligent device comprises an intelligent cabinet, the intelligent cabinet is provided with an electric control lock, the information system server is arranged in the intelligent cabinet, the background management system runs in the management system server, the management system server is connected with the information system server through an internal network, the load monitoring subsystem is arranged in a network core node and is connected with the background management system, the electric control lock is connected with the management system server through a control panel, the machine room environment scanning device is used for scanning a machine room environment to acquire machine room modeling data, the machine room environment scanning device is connected with the management system server through the routing device, the background management system is used for achieving three-dimensional display and management of the internal environment, the IT devices and resources of the machine room, and the mobile client runs on the mobile intelligent terminal and is connected with the background management system through a network.

Furthermore, the computer room intelligent equipment further comprises a primary distribution equipment monitoring device and a secondary distribution equipment monitoring device, wherein the primary distribution equipment monitoring device and the secondary distribution equipment monitoring device are respectively in communication connection with the management system server.

Further, the machine room environment scanning device comprises a first environment scanning device, the first environment scanning device comprises a first machine body, a first adsorption mechanism and a first traveling mechanism are arranged at the top of the first machine body, a first control main board and a first communication device are arranged inside the first machine body, a first supporting mechanism with an adjustable angle is arranged at the bottom of the first machine body, a laser scanning device is arranged on the first supporting mechanism, the first control main board and the laser scanning device are respectively in communication connection with the first communication device, the first communication device is in communication connection with a routing device, and the first adsorption mechanism is used for fixedly adsorbing the first machine body at the top of the machine room.

Further, computer lab environment scanning equipment includes second environment scanning equipment, second environment scanning equipment includes the second organism, second organism top is equipped with second adsorption device and second running gear, and inside second control mainboard and the second communication device of being equipped with of second organism, and second bottom of the body portion is equipped with angularly adjustable second supporting mechanism, be provided with thermal imaging image acquisition equipment on the second supporting mechanism, second control mainboard, thermal imaging image acquisition equipment are connected with the communication of second communication device respectively, second communication device is connected with the communication of route equipment, second adsorption device is used for fixed the absorption in the computer lab top with the second organism.

Further, intelligence rack still is equipped with U position detection mechanism, U position detection mechanism includes electronic jar, be provided with spectral sensor and wireless communication module on electronic jar's the active cell, the active cell reciprocates along intelligent rack direction of height, spectral sensor and wireless communication module signal connection, wireless communication module and routing equipment communication are connected, information system server surface is provided with RGB LED lamp, and spectral sensor is used for detecting the emission spectrum of RGB LED lamp, electronic jar and control panel signal connection.

Furthermore, the intelligent cabinet is also provided with an intelligent PDU, and the intelligent PDU is used for monitoring and managing the current and the voltage of equipment in the cabinet electrically connected with the intelligent PDU.

Furthermore, the background management system comprises an information system architecture management module, an environment modeling module, a cabinet equipment management module, a visualization module, a fault simulation module, a line resource management module, a power distribution equipment management module and a monitoring alarm module.

Further, the information system architecture management module includes a physical architecture management module and a logical architecture management module.

Further, the visualization module comprises a temperature visualization module, a capacity visualization module, a wiring visualization module, a power distribution visualization module and an asset visualization module.

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

according to the information system architecture management system provided by the invention, the hardware part manages and monitors IT equipment such as an information system server and the like through machine room intelligent equipment such as an intelligent cabinet and the like, the machine room environment is scanned through machine room environment scanning equipment, the software part monitors the load condition of a network key node through a load monitoring subsystem, the background management system realizes three-dimensional display and management of the internal environment, the IT equipment and resources of a machine room, operation and maintenance personnel can remotely monitor the condition of each resource of the machine room through a mobile client, the system can realize visual management of the physical architecture of an enterprise information system and a plurality of resources related to the network architecture, and can realize management and control of enterprise information resources, rapid fault processing, improvement of IT operation and maintenance capacity such as system maintenance and the like, so that the safety, stability, reliability and the like of the enterprise information system are, Operates efficiently.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings needed to be used in the description of the embodiments will be briefly introduced below, and it is apparent that the drawings in the following description are only preferred embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained based on these drawings without inventive efforts.

Fig. 1 is a schematic diagram of an overall structure of an information system architecture management system according to an embodiment of the present invention.

Fig. 2 is a schematic diagram of an overall structure of an intelligent cabinet according to an embodiment of the present invention.

Fig. 3 is a schematic structural diagram of a first environment scanning apparatus according to an embodiment of the present invention.

Fig. 4 is a schematic diagram of an overall structure of a second environment scanning device according to an embodiment of the present invention.

Fig. 5 is a schematic diagram of an overall structure of the background management system according to an embodiment of the present invention.

Fig. 6 is a schematic structural diagram of an overall visualization module according to an embodiment of the present invention.

In the figure, 1 is a background management system, 101 is an information system architecture management module, 1011 is a physical architecture management module, 1012 is a logical architecture management module, 102 is an environment modeling module, 103 is a cabinet equipment management module, 104 is a visualization module, 1041 is a temperature visualization module, 1042 is a capacity visualization module, 1043 is a wiring visualization module, 1044 is a power distribution visualization module, 1045 is an asset visualization module, 105 is a fault simulation module, 106 is a line resource management module, 107 is a power distribution equipment management module, 108 is a monitoring alarm module, 2 is a mobile client, 3 is a load monitoring subsystem, 4 is a management system server, 5 is an information system server, 51 is an RGB LED lamp, 6 is a routing device, 7 is an intelligent cabinet, 71 is an electric control lock, 72 is a control board, 73 is a U-bit detection mechanism, 731 is an electric cylinder, 732 is a mover, 733 is a spectrum sensor, 734 is a wireless communication module, 8 is a mobile intelligent terminal, 9 is a primary distribution equipment monitoring device, 10 is a secondary distribution equipment monitoring device, 11 is a first environment scanning device, 111 is a first body, 112 is a first adsorption mechanism, 113 is a first walking mechanism, 114 is a first control main board, 115 is a first communication device, 116 is a first support mechanism, 117 is a laser scanning device, 12 is a second environment scanning device, 121 is a second body, 122 is a second adsorption mechanism, 123 is a second walking mechanism, 124 is a second control main board, 125 is a second communication device, 126 is a second support mechanism, and 127 is a thermal imaging image acquisition device.

Detailed Description

The principles and features of this invention are described below in conjunction with the following drawings, the illustrated embodiments are provided to illustrate the invention and not to limit the scope of the invention.

Referring to fig. 1, the present invention provides an information system architecture management system comprising a software component and a hardware component. The software part comprises a background management system 1, a mobile client 2 and a load monitoring subsystem 3. The hardware part comprises machine room intelligent equipment, machine room environment scanning equipment and IT equipment. The IT device comprises a management system server 4, an information system server 5 and a routing device 6.

Wherein, computer lab smart machine includes intelligent rack 7. As shown in fig. 2, the intelligent cabinet 7 is provided with a cabinet door, the cabinet door is provided with an electric control lock 71, a plurality of U positions are arranged in the intelligent cabinet 7, and the U positions are provided with the information system server 5. The electric control lock 71 is connected with a control board 72, and the control board 72 is connected with the management system server 4. The information system server 5 is used to operate an enterprise information management system or other business systems.

The background management system 1 runs on a management system server 4, and the management system server 4 is connected with an information system server 5 through an enterprise internal network. The load monitoring subsystem 3 is deployed in a core node of a network, the core node of the network is specifically a core node of an information system server 5 connected to an external network, and the load monitoring subsystem 3 is used for monitoring the load of each information system server 5 and realizing load balancing. The machine room environment scanning device is connected with the management system server 4 through the routing device 6. The background management system is used for realizing three-dimensional display and management of the internal environment, the IT equipment and the resources of the machine room. The mobile client 2 runs on the mobile intelligent terminal 8, and the mobile client 2 is connected with the background management system 1 through a network to realize data interaction.

In some embodiments, the intelligent device in the computer room further includes a primary distribution equipment monitoring device 9 and a secondary distribution equipment monitoring device 10, and the primary distribution equipment monitoring device 9 and the secondary distribution equipment monitoring device 10 are respectively in communication connection with the management system server 4. Wherein, one-level distribution equipment monitoring devices 9 is used for realizing the monitoring to the operating condition of the owner of the switch board of multiple rank, branch return circuit, monitoring operating condition includes the monitoring to data such as voltage, electric current, frequency, power includes active power, reactive power, apparent power, power factor. The secondary distribution equipment monitoring device 10 is used for monitoring a switch socket, UPS equipment and lightning protection equipment. Wherein, the monitoring of the switch socket comprises monitoring the on/off condition of the switch in each stage of circuit; the monitoring of the UPS equipment comprises monitoring of electric parameters such as current, voltage, frequency and power input/output of the UPS equipment and states such as voltage, backup time and temperature of a battery pack of the USP equipment; the monitoring of the lightning protection equipment comprises monitoring whether the lightning protection equipment is influenced by lightning or surge.

In some embodiments, the machine room environment scanning device includes a first environment scanning device 11, as shown in fig. 3, the first environment scanning device includes a first body 111, a suction mechanism 112 and a first traveling mechanism 113 are disposed on a top of the first body 111, a first control main board 114 and a first communication device 115 are disposed inside the first body 111, a first supporting mechanism 116 with an adjustable angle is disposed at a bottom of the first body 111, and a laser scanning device 117 is disposed on the first supporting mechanism 116. The first control main board 114 and the laser scanning device 117 are respectively in communication connection with a first communication device 115, the first communication device 115 is in communication connection with the routing device 6, and the first adsorption mechanism 112 is used for fixedly adsorbing the first machine body 111 on the top of the machine room.

The first environment scanning device 11 is adsorbed on the top of the machine room through the first adsorption mechanism 112, the first environment scanning device 11 can move on the top of the machine room under the driving of the first traveling mechanism 113, in the moving process, the laser scanning device 117 scans the internal environment of the machine room to obtain three-dimensional point cloud data of devices such as the internal space of the machine room and a cabinet, the three-dimensional point cloud data is sent to the management system server 4 through the first communication device 115, and the background management system 4 realizes the visualization of the internal environment of the machine room according to the three-dimensional point cloud data. The management system server 4 may issue a control command to the first control motherboard 114 through a network to control the movement of the first environment scanning apparatus 11.

In some embodiments, the machine room environment scanning device further includes a second environment scanning device 12, as shown in fig. 4, the second environment scanning device 12 includes a second body 121, a second adsorption mechanism 122 and a second traveling mechanism 123 are disposed on the top of the second body 121, a second control main board 124 and a second communication device 125 are disposed inside the second body 121, a second supporting mechanism 126 with an adjustable angle is disposed at the bottom of the second body 121, a thermal imaging image collecting device 127 is disposed on the second supporting mechanism 126, the second control main board 124 and the thermal imaging image collecting device 127 are respectively in communication connection with the second communication device 125, the second communication device 125 is in communication connection with the routing device 6, and the second adsorption mechanism 122 is configured to fixedly adsorb the second body 121 on the top of the machine room.

The second environmental scanning device 12 is adsorbed on the top of the machine room through the second adsorption mechanism 122, under the driving of the second traveling mechanism 123, the second environmental scanning device 12 can move on the top of the machine room, in the moving process, the thermal imaging image acquisition device 127 acquires image data such as a cold and hot air flowing image in the machine room and a thermal imaging image of equipment such as a cabinet, the image data is sent to the management system server 4 through the second communication device 125, and the background management system 4 realizes visualization of the internal thermal circulation of the machine room and the operating temperature of each device according to the image data. The management system server 4 may issue a control command to the second control motherboard 124 through the network to control the movement of the first environmental scanning apparatus 12.

In the above embodiment, the first adsorption mechanism 112 and the second adsorption mechanism 122 may adopt a vacuum pump or a blower device; the first control main board 114 and the second control main board 124 may adopt single-chip microcomputers; the first support mechanism 116 and the second support mechanism 126 may adopt an electric pan-tilt; the first communication device 115 and the second communication device 116 may employ WiFi or 4G or 5G communication devices.

The intelligent cabinet 7 is further provided with a U-position detection mechanism 73. The U-position detection mechanism 73 comprises an electric cylinder 731, the electric cylinder 731 is vertically arranged in the intelligent cabinet 7, a spectrum sensor 733 and a wireless communication module 734 are arranged on a rotor 732 of the electric cylinder 731, the rotor 732 moves up and down along the height direction of the intelligent cabinet under the driving of the electric cylinder 731, the spectrum sensor 733 is in signal connection with the wireless communication module 734, the wireless communication module 734 is in communication connection with the routing equipment 6, an RGB LED lamp 51 is arranged on the surface of the information system server 5, the spectrum sensor 733 is used for detecting the emission spectrum of the RGB LED lamp 51, and the electric cylinder 731 is in signal connection with the control board 72.

For each information system server 5 arranged on a U position in the intelligent cabinet 7, the background management system 4 allocates a unique spectrum value to each information system server 5 in advance, and establishes a corresponding relation between the spectrum value and basic information of the information system server 5, wherein the basic information comprises a unique number, a model and the like of the information system server 5, and when the information system server 5 is powered on, the RGB LED lamp emits specific color light according to the spectrum value corresponding to the information system server 5. When the electric cylinder 731 drives the mover 732 to move up and down, the spectrum sensor 733 receives the color light emitted by the RGB LED lamp 51 and analyzes the spectrum value thereof, and the spectrum value is transmitted to the background management system 1 through the wireless communication module 734. The background management system 1 can judge whether the corresponding information system server 5 normally operates on line according to the network connection between the management system server 4 and the information system server 5 and the monitoring data returned by the load monitoring subsystem 3, can identify the corresponding information system server 5 information according to the spectrum value returned by the spectrum sensor 733, and can judge whether the corresponding information system server 5 information is still in the U position under the condition of network disconnection, thereby realizing U-position asset management.

In some embodiments, the intelligent cabinet 7 is further provided with an intelligent PDU, and the intelligent PDU is used for monitoring and managing the current and voltage of the electric equipment such as a server in the intelligent cabinet 7 electrically connected with the intelligent PDU. The intelligent PDU performs data interaction with the management system server 4 through a network.

As shown in fig. 5, the background management system 1 includes an information system architecture management module 101, an environment modeling module 102, an enclosure equipment management module 103, a visualization module 104, a fault simulation module 105, a line resource management module 106, a distribution equipment management module 107, and a monitoring alarm module 108.

The information system architecture management module 101 includes a physical architecture management module 1011 and a logical architecture management module 1012. The physical architecture management module 1011 is used for implementing online management of the basic physical architecture of the operation of the enterprise information management system, including the used information system server, related network equipment and the like. The logical architecture management module 1012 is used to implement online management of each logical unit module of the enterprise information management system.

The environment modeling module 102 is used for building a three-dimensional model of the internal environment of the machine room according to the three-dimensional point cloud data, and intelligently identifying each device in the three-dimensional model of the machine room based on machine learning and neural network technology.

The cabinet equipment management module 103 is used for realizing online management and control of devices such as an electric control lock, a U-position detection mechanism and an intelligent PDU (protocol data unit) in the intelligent cabinet 7, realizing U-position asset management and carrying out callable configuration statistics according to a preset application scene.

The visualization module 104 is used for realizing three-dimensional display and management of resources such as an internal environment of a machine room, IT equipment, port connection lines, pipelines and the like.

The fault simulation module 105 is configured to perform fault simulation on the enterprise information management system, analyze the influence of various faults on the enterprise information management system, generate a fault detection analysis report, and form a fault detection and elimination policy.

The line resource management module 106 is configured to edit and manage line resources such as connection lines and pipelines of internal ports of the computer room.

The power distribution equipment management module 107 is used for receiving monitoring data collected by the first-level power distribution monitoring device and the second-level power distribution monitoring device, and realizing on-line monitoring and management of power distribution equipment of a machine room.

The monitoring alarm module 108 is used for performing data interaction with the mobile client 2, and the display and query of information such as machine room asset equipment and cabinet capacity can be realized through the mobile client 2. When system software or hardware has faults, the monitoring alarm module 108 alarms through the visual human-computer interface and sends alarm information to the mobile client 2.

In some embodiments, as shown in fig. 6, the visualization module 104 includes a temperature visualization module 1041, a capacity visualization module 1042, a wiring visualization module 1043, a power distribution visualization module 1044, and an asset visualization module 1045.

The temperature visualization module 1041 is configured to combine the cold and hot air flow images in the machine room collected by the second environment scanning device and the thermal imaging images of the equipment such as the cabinet with the three-dimensional model of the environment in the machine room in real time, so as to implement dynamic visualization display and management of the environment temperature in the machine room.

The capacity visualization module 1042 is configured to combine the cabinet U-bit monitoring data collected by the intelligent cabinet 7 with the three-dimensional model of the internal environment of the machine room in real time, so as to visually display and manage the real-time capacity of the internal space of the machine room and the real-time capacity of the interior of the cabinet.

The wiring visualization module 1043 is configured to combine line resources such as connection lines and pipelines of internal ports of the machine room with the three-dimensional model of the internal environment of the machine room, so as to implement three-dimensional display and management of the line resources of the internal ports of the machine room.

The asset visualization module 1045 is configured to combine the real-time U-bit asset data inside the cabinet with the three-dimensional model of the internal environment of the machine room, so as to implement three-dimensional display and management of the real-time U-bit asset data of the machine room.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents, improvements and the like that fall within the spirit and principle of the present invention are intended to be included therein.

Claims (9)

1. An information system architecture management system is characterized by comprising a software part and a hardware part, wherein the software part comprises a background management system, a mobile client and a load monitoring subsystem, the hardware part comprises a machine room intelligent device, a machine room environment scanning device and an IT device, the IT device comprises a management system server, an information system server and a routing device, the machine room intelligent device comprises an intelligent machine cabinet, the intelligent machine cabinet is provided with an electric control lock, the information system server is arranged in the intelligent machine cabinet, the background management system runs in the management system server, the management system server is connected with the information system server through an internal network, the load monitoring subsystem is arranged in a network core node and is connected with the background management system server, the electric control lock is connected with the management system server through a control panel, the machine room environment scanning device is used for scanning a machine room environment to obtain machine room modeling data, the machine room environment scanning device is connected with the management system server through the routing device, the background management system is used for achieving three-dimensional display and management of an internal environment, IT equipment and resources of the machine room, and the mobile client runs on the mobile intelligent terminal and is connected with the background management system through a network.

2. The information system architecture management system of claim 1, wherein the machine room intelligent device further comprises a primary distribution equipment monitoring device and a secondary distribution equipment monitoring device, and the primary distribution equipment monitoring device and the secondary distribution equipment monitoring device are respectively in communication connection with a management system server.

3. The information system architecture management system according to claim 1, wherein the machine room environment scanning device comprises a first environment scanning device, the first environment scanning device comprises a first machine body, a first adsorption mechanism and a first traveling mechanism are arranged on a top of the first machine body, a first control main board and a first communication device are arranged inside the first machine body, a first support mechanism with an adjustable angle is arranged at a bottom of the first machine body, a laser scanning device is arranged on the first support mechanism, the first control main board and the laser scanning device are respectively in communication connection with the first communication device, the first communication device is in communication connection with the routing device, and the first adsorption mechanism is used for fixedly adsorbing the first machine body on the top of the machine room.

4. The information system architecture management system according to claim 1, wherein the machine room environment scanning device comprises a second environment scanning device, the second environment scanning device comprises a second machine body, a second adsorption mechanism and a second traveling mechanism are arranged on a top of the second machine body, a second control main board and a second communication device are arranged inside the second machine body, a second supporting mechanism with an adjustable angle is arranged at a bottom of the second machine body, a thermal imaging image acquisition device is arranged on the second supporting mechanism, the second control main board and the thermal imaging image acquisition device are respectively in communication connection with a second communication device, the second communication device is in communication connection with the routing device, and the second adsorption mechanism is used for fixedly adsorbing the second machine body on the top of the machine room.

5. The information system architecture management system of claim 1, wherein the intelligent cabinet is further provided with a U-position detection mechanism, the U-position detection mechanism comprises an electric cylinder, a movable cell of the electric cylinder is provided with a spectrum sensor and a wireless communication module, the movable cell moves up and down along the height direction of the intelligent cabinet, the spectrum sensor is in signal connection with the wireless communication module, the wireless communication module is in signal connection with the routing device, the surface of the information system server is provided with an rgbd lamp, the spectrum sensor is used for detecting the emission spectrum of the RGB LED lamp, and the electric cylinder is in signal connection with the control panel.

6. The information system architecture management system of claim 1, wherein the intelligent cabinet is further provided with an intelligent PDU, and the intelligent PDU is used for monitoring and managing the current and the voltage of equipment in the cabinet electrically connected with the intelligent PDU.

7. The information system architecture management system of claim 1, wherein the backend management system comprises an information system architecture management module, an environment modeling module, a cabinet equipment management module, a visualization module, a fault simulation module, a line resource management module, a power distribution equipment management module, and a monitoring alarm module.

8. The information system architecture management system of claim 7 wherein the information system architecture management modules comprise a physical architecture management module and a logical architecture management module.

9. The information system architecture management system of claim 7, wherein the visualization module comprises a temperature visualization module, a capacity visualization module, a wiring visualization module, a power distribution visualization module, an asset visualization module.

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