CN116319851A - Intelligent network scheduling control equipment and machine room management system and method applied by same - Google Patents

Abstract

The invention discloses intelligent network dispatching control equipment and a machine room management system and a method applied by the intelligent network dispatching control equipment, wherein an automatic on-off control of a circuit between network ports is formed by utilizing a circuit capable of automatically controlling on-off between the network ports, and the intelligent network dispatching control equipment is applied to machine room management, so that the labor cost is reduced; compared with the original manual jumper wire scheduling work, the efficiency and the accuracy are improved; compared with the prior art, the management trace implementation is converted into system flow handling and timing controllable network connection by means of paper form filling and equipment configuration information random modification by technicians; visual management, marking the twin machine room to prompt the operated equipment, popping up the visual twin network topological structure, and recording the working time by a clock.

Description

Intelligent network scheduling control equipment and machine room management system and method applied by same

Technical Field

The invention relates to the technical field of network scheduling control, in particular to intelligent network scheduling control equipment and a machine room management system and method applied by the intelligent network scheduling control equipment.

Background

The machine room generally refers to telecommunications, network communication, mobile, two-wire, electric power, government or enterprise, etc., where servers are stored and IT services are provided for users and employees, small tens of square meters are typically placed in twenty-three cabinets, large thousands of square meters are placed in thousands of cabinets, even more, various servers and small machines, such as IBM small machines, HP small machines, SUN small machines, etc., are typically placed in the machine room, temperature and humidity of the machine room and antistatic measures are strictly required, non-professional project personnel cannot generally enter, and the servers in the machine room are running many services, such as mobile multimedia messages, short messages, call services, etc. The machine room is important, and is not needed, so that work and life can be greatly influenced, each machine room is managed by professionals, and normal operation of the service is guaranteed. The machine room is an area where a network server and a network main device are placed and run, information center personnel must wear a signboard to enter, and other personnel in the unit cannot enter the machine room at will without permission; authorized personnel enter and exit the machine room, the machine room entry and exit registration form is filled in, and other unauthorized personnel are prevented from entering the machine room privately for any reason by accompanying the machine room manager; if the working needs, other personnel (such as system developers) who must enter the machine room should fill in the machine room access registration form, and the personnel can enter the machine room access registration form; in addition, after system developers, power constructors and the like needing to frequently access the machine room in a period of time are approved by the information center owner, temporary identity identification cards can be handled and recovered after the use is finished; any equipment in the information center machine room is not allowed to be moved out of the machine room and foreign equipment is not allowed to enter the machine room without authorization of the information center owner. Therefore, in the prior art, when related staff needs to deploy or operate a data server in a machine room, the related staff often needs to operate a certain computer to control corresponding network equipment to set, and needs to frequently replace the computer or the network cable, so that the problems of time consumption, unsafe, difficult management and the like exist, the corresponding computer and network port are complicated, the manual operation safety is poor, and the effective and safe management is inconvenient. How to improve the management efficiency and the safety is a difficult problem in the current machine room management.

Informationization is a major trend in the current age and represents an advanced productivity. In the generation of value of the information, the information equipment is connected statically or accessed dynamically through a network, and in general, the static connection is subjected to strict network planning design and security policy planning, and the dynamic access is the dynamic access of the planning scheduling or operation and maintenance management in the network planning design. The dynamic access involves manual intervention, and risks may be brought to network security and information security in management, behavior, technology and other aspects.

Disclosure of Invention

In order to solve the defects and the shortcomings of the prior art, the inventor provides a controller capable of intelligently managing network scheduling and a machine room management system and a machine room management method applied by the controller through research and development, and the convenience, controllability and safety of machine room operation processing can be greatly improved. Specifically, the scheme of the invention is as follows:

an intelligent network scheduling control device, comprising: the system comprises a main board, a plurality of network inlets and a plurality of network outlets which are arranged on two sides of the main board, a network scheduling controller, a network scheduling circuit and a plurality of relays; the network scheduling circuit and the relays form an on-off connection line which can be communicated with the network inlet and the network outlet in pairs; the network scheduling controller is connected with the relays and can be used for switching on or off a plurality of relays through received instructions so as to realize on-off connection between a certain network inlet and a certain network outlet.

Further, the network access port is used for connecting the direct connection ports of each local area network switch and the intelligent network scheduling control equipment and connecting local area network information to the interface; the network outlet comprises a plurality of interfaces for directly connecting an operation host with the intelligent network scheduling control equipment, and the intelligent network scheduling control equipment further comprises a control management port, wherein the control management port is used for directly connecting the intelligent network scheduling control equipment with the intelligent network scheduling control switch and can conduct centralized control on the network scheduling controller through a control line.

In another aspect of the present invention, a machine room management system based on an application intelligent network scheduling control device is provided, including a service application domain, a management application domain, a dynamic access domain, and a twin control domain connected to each network domain, where the twin control domain includes at least one intelligent network scheduling control device described above, where: the service application domain and the exchange unit of the management application domain are both connected to the network access port of the intelligent network scheduling control device, the unit of the dynamic access domain is connected to the network outlet port of the intelligent network scheduling control device, the scheduling device of the twin control domain is connected to the control management port of the intelligent network scheduling control device, the scheduling device group comprises a twin scheduling server, a twin scheduling controller and a scheduling work order printer, and the twin scheduling controller can control the network scheduling controller of the intelligent network scheduling control device to be connected with a certain exchange unit in the service application domain corresponding to the required operation in the dynamic access domain and the work order according to the work order, or control the application server in the management application domain.

Furthermore, the network in each network domain is not changed, and is connected to the local area network switch, each local area network is connected to the intelligent network scheduling control equipment for three-in and one-out, and the intelligent network scheduling control equipment for three-in and one-out is converged to the intelligent network scheduling control equipment for eight-in and eight-out.

Furthermore, the dispatching equipment group also comprises a network management network access switch, and the twin dispatching server, the twin dispatching controller and the dispatching work order printer are accessed to the network management network access switch and are directly connected with the intelligent network dispatching control equipment, so that the controller on the intelligent network dispatching control equipment can be controlled to control the on-off of corresponding lines through the quick connection of the network management network access switch; and when the scheduling equipment group controls the intelligent network scheduling control equipment, the scheduling equipment group cannot communicate with an upper-layer switch of the intelligent network scheduling control equipment.

Further, the network domains are domains and independent networks in the domains, which are counted and need to be controlled separately, the same networks in adjacent domains are combined according to a three-in one-out product control method, each three domains are a group, and an intelligent network scheduling control device is connected; the local area networks which are not connected with the same network domain are connected to one host computer of the unit by using the same VLAN, and the situation of IP address conflict is avoided under the condition that only one of the three local area networks can be connected at the same time.

Furthermore, each operation host of the unit has an independent IP address, all the operation hosts are in the same network, the intelligent network scheduling control equipment can access the operation hosts to the local area network only when the operation hosts need to operate, and the operation hosts are directly connected with the local area network, so that the condition of IP address conflict does not exist.

In still another aspect of the present invention, a machine room management method based on an application intelligent network scheduling control device is provided, including the following steps: acquiring application information of a machine room operation work sheet, examining and approving the application information, acquiring operation information, and through examination and approval, acquiring a network port on intelligent network dispatching control equipment between a network line of a host corresponding to the network and the position of the network corresponding to the operation through a twin dispatching controller based on the position of the network corresponding to the operation and unit host information or distributed host information of an operator, controlling a controller on the intelligent network dispatching control equipment to perform communication control on a relay related to the line to automatically connect the network corresponding to the machine room operation work sheet and the host, implementing operation by the operator, recording the operation after the operation is finished, ending the operation after the operation verification, controlling the relay on the intelligent network dispatching control equipment to disconnect the operation network through the operation verification, sending a disconnection prompt, and ending the printing of a dispatch sheet and an operation sheet stub by the dispatching equipment.

Further, the method further comprises the steps of: the network in each network domain is not changed, the network is accessed to the local area network switch, the domains needing to be separately controlled and the independent networks in the domains are counted, the same networks in adjacent domains are combined according to a three-in one-out product control method, each three domains are in a group, each group is accessed to a three-in one-out intelligent network scheduling control device, each three-in one-out intelligent network scheduling control device is connected to a host computer of one unit, the controller of each three-in one-out intelligent network scheduling control device is connected to the network management network access switch of the scheduling device group, and the network management network access switch is controlled by the twin scheduling controller of the scheduling device group.

Furthermore, the network in each network domain is not changed, the network is accessed to each local area network switch, the domains needing to be separately controlled and the independent networks in the domains are counted, the same networks in adjacent domains are combined according to a three-in one-out product separate control method, each three domains are in a group, each group is accessed to a three-in one-out intelligent network scheduling control device, the three-in one-out intelligent network scheduling control devices are converged on an eight-in eight-out intelligent network scheduling control device, the eight-in eight-out intelligent network scheduling control device is connected with eight job hosts or debugging machines, each three-in one-out intelligent network scheduling control device and each controller of the eight-in eight-out intelligent network scheduling control device are connected to a network management network access switch of a scheduling device group, and the network management network access switch is connected with a group of small-sized switches, a twin scheduling server, a twin scheduling controller and a dispatcher single printer, and each intelligent network scheduling control device is controlled through the twin scheduling controller.

The working principle and beneficial effects of the invention are introduced: the intelligent network scheduling control equipment and the machine room management system and method applied by the intelligent network scheduling control equipment realize management standardization, behavior standardization and technology popularization by using a system formed by combining hardware equipment and a scheduling method formed by the system and the hardware from a method of dynamic access scheduling management of a digital twin network, fully reduce capital investment, reduce asset waste and facilitate the upgrading and reconstruction of the original network and a seamless fusion network scheduling technology. The invention utilizes the circuit capable of automatically controlling the on-off of the network ports to form the automatic on-off control of the circuit between the network ports, and is applied to the machine room management, compared with the prior art, because the combination of three-in one-out intelligent network scheduling control equipment is used, three computers such as a business application domain, a management application domain, an authorized domain and the like are reduced to one computer; two three-in and one-out are used for three business application domains, and the original nine computers are reduced to one computer; compared with the prior art, the probe type network authorized access reduces the labor cost, and needs professional technicians to cooperate with the conditions of operation and maintenance personnel at the same time, so that the remote operation of the operation and maintenance personnel is only required, the automatic connection of the interface for completing network scheduling is completed, the labor cost required by the number of people is reduced, and the requirement on professional capability of the personnel is correspondingly reduced; compared with the original manual jumper wire scheduling work, the efficiency and the accuracy are improved; compared with the prior art, the management trace implementation is converted into system flow handling and timing controllable network connection by means of paper form filling and equipment configuration information random modification by technicians; visual management, marking the twin machine room to prompt the operated equipment, popping up the visual twin network topological structure, and recording the working time by a clock.

Drawings

FIG. 1 is a schematic diagram of a prior art machine room maintenance operation flow;

FIG. 2 is a schematic diagram of a basic architecture of a machine room management system based on an application intelligent network scheduling control device of the present invention;

fig. 3 is a schematic diagram of a three-in one-out configuration of the intelligent network scheduling control device according to the present invention;

fig. 4 is a schematic diagram of a basic architecture of a machine room management system based on an application intelligent network scheduling control device in embodiment 2;

fig. 5 is a schematic diagram of an eight-in eight-out structure of the intelligent network scheduling control device of the present invention;

fig. 6 is a schematic diagram of a basic architecture of a machine room management system based on an application intelligent network scheduling control device in embodiment 3;

FIG. 7 is a schematic diagram of a system architecture of a machine room management system based on an application intelligent network scheduling control device of the present invention;

fig. 8 is a flow chart of a machine room management method based on an application intelligent network scheduling control device according to the present invention;

Detailed Description

The objects, technical solutions and advantages of the present invention will become more apparent by the following detailed description of the present invention with reference to the accompanying drawings. It should be understood that the description is only illustrative and is not intended to limit the scope of the invention. In addition, in the following description, descriptions of well-known structures and techniques are omitted so as not to unnecessarily obscure the present invention.

Example 1: an intelligent network scheduling control device, comprising: the system comprises a main board, a plurality of network inlets and a plurality of network outlets which are arranged on two sides of the main board, a network scheduling controller, a network scheduling circuit and a plurality of relays; the network scheduling circuit is integrated on the main board, and the network ports and the network outlets form an on-off connection line which can be communicated with each other in pairs through the network scheduling circuit and the relays; the network scheduling controller is connected to the relays and can be used for switching on or switching off a plurality of relays through received instructions so as to realize on-off connection between a certain network inlet and a certain network outlet;

the network access ports are used for connecting direct connection ports of all local area network switches and intelligent network scheduling control equipment, interfaces for connecting local area network information can be laid according to the size and the requirement of the whole equipment, and three network access ports are generally used and matched with one network access port to serve as a small product; the device can also be in the shape of eight net inlets and eight net outlets, and the volume of the device is slightly larger. Each device comprises a plurality of network outlets for directly connecting an operation host with the intelligent network scheduling control device, and a control management port for directly connecting the intelligent network scheduling control device with the intelligent network scheduling control switch, so that the network scheduling controller can be controlled in a centralized way through a control line.

Example 2: based on a machine room management system applying intelligent network scheduling control equipment, counting domains needing to be divided and independent networks in the domains, merging the same networks in adjacent domains according to a three-in one-out product dividing control method, and accessing one intelligent network scheduling control equipment every three domains into a group. As shown in fig. 4: the network within each domain is unchanged and is accessed to the management switch. Each local area network is respectively connected to intelligent network scheduling control equipment, and the intelligent network scheduling control equipment is directly connected with an operation host of the job; all intelligent network scheduling control equipment is accessed into a switch to be used for centralized control and is used as an independent network connection. The local area networks which are not connected in the same domain will use the same VLAN to connect to a host, and the situation of IP address conflict is not used under the condition that only one of the three local area networks can be connected at the same time. For example: the local commission shared service domain service sw1, the operation and maintenance sw2 and the authorization sw3, the uplink server manages VLAN unchanged, the port which is connected to the sub-control equipment in a descending mode is planned to a newly built VLAN10, the management addresses are 222.89.10.1, and the host addresses are 222.89.10.100, so that the operation and maintenance network or the authorization network can be normally accessed after the host accesses the service network, and the host IP address is unchanged. Configuring a new VLAN on the intelligent network scheduling control apparatus control switch to manage the intelligent network scheduling control apparatus, for example: the configuration VLAN 20 uses 192.168.20.1/24 as the management address of the intelligent network scheduling control devices, the address of each intelligent network scheduling control device is 192.168.20.2-192.168.20.253, and the IP of the offload control terminal is 192.168.20.254, so as to achieve management control over the intelligent network scheduling control devices once. The service application domain and the exchange unit of the management application domain are both connected with the network access port of the intelligent network scheduling control equipment, the unit of the dynamic access domain is connected with the network outlet port of the intelligent network scheduling control equipment, and the scheduling equipment of the twin control domain is connected with the control management port of the intelligent network scheduling control equipment; the twin control domain is the network management control domain, the dispatching equipment group comprises a twin dispatching server, a twin dispatching controller and a dispatching work order printer, and the twin dispatching controller can control the network dispatching controller of the intelligent network dispatching control equipment to switch on a certain machine set in the dynamic access domain and a certain exchange set in the corresponding service application domain needing to operate in the work order according to the work order requirement, or manage a certain application server in the application domain.

Example 3: on the basis of embodiment 2, the network in each network domain is not changed, and is connected to the local area network switch, and each local area network is connected to the intelligent network scheduling control device for three-in and one-out respectively, and the intelligent network scheduling control device for three-in and one-out is converged to the intelligent network scheduling control device for eight-in and eight-out, so that flexible switching of each local area network is realized. Meanwhile, all local area network exchanger ports are bound with ports of IP-MAC, so that only the operation host with address binding can access the local area network; the network pipe network access switch is directly connected with each intelligent network scheduling control device, and the intelligent network scheduling control device comprises three-in one-out products and eight-in eight-out products. The controller requiring control can be connected quickly, but the intelligent network schedules the control device to be unable to communicate with the upper layer switch of the controller.

Each operation host has an independent IP address, all the operation hosts are in the same network, the intelligent network scheduling control device can access the operation hosts to the local area network only when the operation hosts need to operate, and the operation hosts are directly connected with the local area network, so that the condition of IP address conflict does not exist. For example:

the service switch, the operation switch and the authorization switch of the user domain are connected with the server management VLAN, the port is unchanged, and the service switch, the operation switch and the authorization switch are connected to the same network of the intelligent network scheduling controller port, the network management network access switch upper port and the operation host in a downlink mode, and the control host, the operation application host and the approval host are located in a network, and the network of the network management network belongs to the network.

As shown in fig. 6, when the operation host 1 applies for using the user domain service network, the network management network control access host uses the two-layer intelligent network scheduling control device to directly connect the operation host with the user domain service network, and the other networks are not operated, i.e. disconnected. Meanwhile, the operation host 2 needs to use the user domain operation and maintenance network, and then the network management network controls the access host and controls the operation host 2 to be directly connected with the user domain operation and maintenance network, and other networks are not operated, namely disconnected. When two operation hosts work simultaneously, the operation hosts are direct to the target network and do not communicate with each other.

The operation hosts are controlled by the intelligent network scheduling control equipment, and each operation host is directly connected with the target network when working and does not communicate with other networks. Therefore, the working mode of freely switching, communicating with each other and high-efficiency and quick between the working host and the target network is realized.

Example 4: the machine room management method based on the intelligent network scheduling control equipment comprises the following steps:

acquiring application information of a machine room operation work sheet, examining and approving the application information, acquiring operation information, and through examination and approval, acquiring a network port on intelligent network dispatching control equipment between a network line of a host corresponding to the network and the position of the network corresponding to the operation through a twin dispatching controller based on the position of the network corresponding to the operation and unit host information or distributed host information of an operator, controlling a controller on the intelligent network dispatching control equipment to perform communication control on a relay related to the line to automatically connect the network corresponding to the machine room operation work sheet and the host, implementing operation by the operator, recording the operation after the operation is finished, ending the operation after the operation verification, controlling the relay on the intelligent network dispatching control equipment to disconnect the operation network through the operation verification, sending a disconnection prompt, and ending the printing of a dispatch sheet and an operation sheet stub by the dispatching equipment.

It is to be understood that the above-described embodiments of the present invention are merely illustrative of or explanation of the principles of the present invention and are in no way limiting of the invention. Accordingly, any modification, equivalent replacement, improvement, etc. made without departing from the spirit and scope of the present invention should be included in the scope of the present invention. Furthermore, the appended claims are intended to cover all such changes and modifications that fall within the scope and boundary of the appended claims, or equivalents of such scope and boundary.

Claims (10)

1. An intelligent network scheduling control device, characterized by comprising: the system comprises a main board, a plurality of network inlets and a plurality of network outlets which are arranged on two sides of the main board, a network scheduling controller, a network scheduling circuit and a plurality of relays;

the network scheduling circuit and the relays form an on-off connection line which can be communicated with the network inlet and the network outlet in pairs;

the network scheduling controller is connected with the relays and can be used for switching on or off a plurality of relays through received instructions so as to realize on-off connection between a certain network inlet and a certain network outlet.

2. The intelligent network scheduling control apparatus according to claim 1, wherein the network access port is an interface for connecting the local area network information with the direct connection port of the intelligent network scheduling control apparatus and each local area network switch;

the network outlet comprises a plurality of interfaces for operating the host to be directly connected with the intelligent network scheduling control equipment,

the intelligent network scheduling control system also comprises a control management port, wherein the control management port is used for directly connecting the intelligent network scheduling control equipment with the intelligent network scheduling control switch and can perform centralized control on the network scheduling controller through a control line.

3. A machine room management system based on application intelligent network scheduling control equipment, which is characterized by comprising a service application domain, a management application domain, a dynamic access domain, and a twin control domain connected with each network domain, wherein the twin control domain comprises at least one intelligent network scheduling control equipment as claimed in claim 1 or 2, and the machine room management system comprises the following components:

the service application domain and the exchange unit of the management application domain are both connected to the network access port of the intelligent network scheduling control device, the unit of the dynamic access domain is connected to the network access port of the intelligent network scheduling control device, the scheduling device of the twin control domain is connected to the control management port of the intelligent network scheduling control device,

the dispatching equipment group comprises a twin dispatching server, a twin dispatching controller and a dispatching work order printer, wherein the twin dispatching controller can control a network dispatching controller of intelligent network dispatching control equipment according to the work order requirement to connect a certain machine group in a dynamic access domain with a certain exchange machine group in a service application domain corresponding to the required operation in the work order, or manage a certain application server in the application domain.

4. A machine room management system according to claim 3 wherein the network in each network domain is unchanged and is connected to a respective local area network switch, each local area network is connected to an intelligent network scheduling control device for three-in and one-out, and the intelligent network scheduling control devices for three-in and one-out are converged to an intelligent network scheduling control device for eight-in and eight-out.

5. The machine room management system according to claim 3 or 4, wherein the dispatching equipment group further comprises a network management network access switch, the twin dispatching server, the twin dispatching controller and the dispatching work order printer are accessed to the network management network access switch and are directly connected with the intelligent network dispatching control equipment, and the controller on the intelligent network dispatching control equipment can be controlled to control the on-off of corresponding lines through the quick connection of the network management network access switch;

and when the scheduling equipment group controls the intelligent network scheduling control equipment, the scheduling equipment group cannot communicate with an upper-layer switch of the intelligent network scheduling control equipment.

6. The machine room management system according to claim 3, wherein the network domain is a domain requiring sub-control by statistics and an independent network in the domain, the same network of adjacent domains is combined according to a three-in one-out product sub-control method, each three domains are a group, and an intelligent network scheduling control device is connected; the local area networks which are not connected with the same network domain are connected to one host computer of the unit by using the same VLAN, and the situation of IP address conflict is avoided under the condition that only one of the three local area networks can be connected at the same time.

7. The system of claim 6, wherein each of the operation hosts of the unit has an independent IP address, and all of the operation hosts are in the same network, and the intelligent network scheduling control device accesses the operation hosts to the local area network only when the operation hosts need to operate, and is directly connected to the local area network, so that no IP address collision exists.

8. The machine room management method based on the application intelligent network scheduling control equipment is characterized by comprising the following steps of:

acquiring application information of a machine room operation work sheet, examining and approving the application information, acquiring operation information, and through examination and approval, acquiring a network port on intelligent network dispatching control equipment between a network line of a host corresponding to the network and the position of the network corresponding to the operation through a twin dispatching controller based on the position of the network corresponding to the operation and unit host information or distributed host information of an operator, controlling a controller on the intelligent network dispatching control equipment to perform communication control on a relay related to the line to automatically connect the network corresponding to the machine room operation work sheet and the host, implementing operation by the operator, recording the operation after the operation is finished, ending the operation after the operation verification, controlling the relay on the intelligent network dispatching control equipment to disconnect the operation network through the operation verification, sending a disconnection prompt, and ending the printing of a dispatch sheet and an operation sheet stub by the dispatching equipment.

9. The machine room management method according to claim 8, further comprising the step of:

the network in each network domain is not changed, the network is accessed to the local area network switch, the domains needing to be separately controlled and the independent networks in the domains are counted, the same networks in adjacent domains are combined according to a three-in one-out product control method, each three domains are in a group, each group is accessed to a three-in one-out intelligent network scheduling control device, each three-in one-out intelligent network scheduling control device is connected to a host computer of one unit, the controller of each three-in one-out intelligent network scheduling control device is connected to the network management network access switch of the scheduling device group, and the network management network access switch is controlled by the twin scheduling controller of the scheduling device group.

10. The machine room management method according to claim 8, further comprising the step of: the network in each network domain is not changed, the network is accessed to a local area network switch, the domains needing to be separately controlled and the independent networks in the domains are counted, the same networks in adjacent domains are combined according to a three-in-one-out product control method, each three domains are in a group, each group is accessed to a three-in-one-out intelligent network dispatching control device, the three-in-one-out intelligent network dispatching control devices are converged on an eight-in-eight-out intelligent network dispatching control device, the eight-in-eight-out intelligent network dispatching control device is connected with an eight-job host or a debugging machine, each three-in-one-out intelligent network dispatching control device and each controller of the eight-in-eight-out intelligent network dispatching control device are connected to a network management network access switch of a dispatching device group, and the network management network access switch is connected with a group of small switches, a twin dispatching server, a twin dispatching controller and a dispatching work order printer, and each intelligent network dispatching control device is controlled through the twin dispatching controller.

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