CN117201556A - Intelligent debugging robot for IT equipment - Google Patents

Abstract

The invention provides an IT equipment intelligent debugging robot, which comprises a robot body; the robot body includes: the remote end control unit is in charge of carrying out data communication with the debugged equipment after being accessed to the debugged equipment, and issuing a control command and collecting a control result to the access end control unit; the access terminal control unit, the communication medium of the remote terminal control unit and the service terminal control unit is responsible for establishing the network communication of the service terminal control unit between the remote terminal control units and encrypting and decrypting the data transmitted in the network communication; and the server processing unit is used for intensively taking over the remote control unit, issuing the operation and maintenance command and collecting the operation and maintenance command processing result. The invention can remotely debug office points which have a plurality of devices and affect a plurality of users, and the technology of the Internet of things is combined, so that the fault processing efficiency is improved.

Description

Intelligent debugging robot for IT equipment

Technical Field

The invention relates to the technical field of management on a demand side in the power industry, in particular to an IT equipment intelligent debugging robot.

Background

When a plurality of office points of a multi-level unit are distributed widely, and maintenance personnel are short, the equipment of each office point is short of personnel maintenance for a long time. The equipment handling is time consuming. After each equipment abnormality, nearby information stationing personnel are needed to rush to the site to process the faults of the equipment, a great amount of time is consumed on the way, and most stationing personnel mainly master terminal fault processing skills and do not have network equipment fault capability.

Disclosure of Invention

Aiming at the defects of the prior art, the invention aims to provide the intelligent debugging robot for the IT equipment, which can remotely debug office points which have a plurality of equipment and affect a plurality of users, and is combined with the technology of the Internet of things, so that the fault processing efficiency is improved. The device may be used to test the performance and functionality of network devices, including routers, switches, firewalls, etc., which support a variety of test modes and protocols, and provide detailed test reports.

In order to achieve the above purpose, the technical scheme adopted by the invention is as follows:

the intelligent IT equipment debugging robot comprises a robot body; the robot body includes:

the remote end control unit is in charge of carrying out data communication with the debugged equipment after being accessed to the debugged equipment, and issuing a control command and collecting a control result to the access end control unit; the control command is a command for establishing network communication; the control result is data transmitted in network communication;

the access terminal control unit, the communication medium of the remote terminal control unit and the service terminal control unit is responsible for establishing the network communication of the service terminal control unit between the remote terminal control units and encrypting and decrypting the data transmitted in the network communication;

the server processing unit is used for intensively taking over the remote control unit, issuing operation and maintenance commands and collecting operation and maintenance command processing results; the operation and maintenance command is a command for carrying out equipment operation and debugging on network equipment which is faulty or needs to be operated and maintained; the operation and maintenance command processing result is a result after equipment operation and debugging processing; the server processing unit is also used for generating and outputting a test report according to the collected operation and maintenance command processing results.

Further, the robot body further includes a user interface unit; the user interface unit is used for returning the processing result of the server processing unit and interacting with the user.

Further, the remote control unit is connected with the debugged equipment through an interface and a cable.

Further, the remote end control unit comprises a COM module and a 4G router module; the COM module is used for accessing the debugged equipment and carrying out data communication with the debugged equipment through an RS232 protocol; the COM module transmits data to the 4G router module through a serial port or a network port; the 4G router module can be connected with a 4G network and automatically find an access terminal control unit.

Further, the remote control unit and the access control unit are connected by using a LAN port or a cone port.

Further, the access terminal control unit comprises a networking router module; the networking router module is used for constructing a local area network and distributing an IP address to the accessed debugged equipment by using a DHCP protocol.

Further, the server processing unit comprises an internet of things server, an operation and maintenance platform or an operation and maintenance interface.

Further, the COM module uses the encrypted MQTT protocol to send the data to an Internet of things platform or an operation and maintenance interface.

An IT device intelligent debugging method for an IT device intelligent debugging robot comprises the following steps:

step 1: the robot body enables the remote end control unit to be connected with the debugged equipment;

step 2: the remote terminal control unit issues a control command to the access terminal control unit; the control command is a command for establishing network communication;

step 3: the access terminal control unit establishes network communication of the server terminal control units between the remote terminal control units and encrypts and decrypts data transmitted in the network communication;

step 4: the server processing unit transmits an operation and maintenance command to the remote control unit through the access control unit; the operation and maintenance command is a command for carrying out equipment operation and debugging on network equipment which is faulty or needs to be operated and maintained;

step 5: the remote terminal control unit performs equipment operation and debugging on the debugged equipment according to the operation and maintenance command;

step 6: and (5) the remote terminal control unit transmits the operation and maintenance command processing result obtained in the step (5) to the server terminal processing unit through network communication and data of the access terminal control unit.

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

1. the invention can rapidly locate remote areas to solve the problem of network terminals: when the office site network is interrupted, remote debugging and investigation operation can be realized by using the intelligent debugging robot scheme, the participation of field personnel is not needed, and the fault processing efficiency is improved.

2. The invention solves the problem that remote areas cannot reach the scene in time: when the road is remote and the road cannot reach the scene in time, the intelligent debugging robot can be connected to the network equipment remotely for configuration and operation and maintenance operation, and the operation and maintenance efficiency is improved.

3. The invention can provide network technical service: when the equipment is located without information professionals in a resident place, the intelligent debugging robot can be remotely connected to the network equipment to provide network technology service, so that the requirements of users are met.

4. The invention increases the standardization of equipment debugging: when the equipment debugging is not standard due to uneven skill level of personnel, automatic test and intelligent debugging can be realized through an intelligent debugging robot scheme, manual intervention and errors are reduced, and the standardization of the equipment debugging is improved.

5. The invention reduces the fault detection period and the service interruption time: the intelligent debugging robot scheme can be used for quickly finding and solving faults and reducing the fault troubleshooting period, so that the service interruption time caused by faults is greatly reduced, and the satisfaction degree and experience of users are improved; the running efficiency of the equipment is improved: through automatic test and intelligent debugging, equipment problems can be found and solved, and the performance and stability of equipment are improved, so that the operation efficiency of the equipment is improved.

6. The invention improves the user experience: when equipment fails or needs to be operated and maintained, the intelligent debugging robot scheme can rapidly respond and remotely process the equipment, so that the user experience is improved.

7. The invention reduces the cost and risk: the intelligent debugging robot scheme can reduce manual intervention and labor cost; meanwhile, travel cost and risk can be reduced through remote operation, so that cost and risk of enterprises are reduced.

8. The invention improves the monitoring and management efficiency: through the internet of things technology, the state of the equipment can be monitored in real time and data can be collected, so that the monitoring and management efficiency is improved. In addition, the data can be analyzed and processed, and a reference basis is provided for optimizing and upgrading the equipment.

9. The invention promotes digital transformation: the intelligent debugging robot scheme can promote the digital transformation of enterprises, and improves the business efficiency and the competitiveness.

Drawings

In order to more clearly illustrate the embodiments of the invention or the technical solutions of the prior art, the drawings which are used in the description of the embodiments or the prior art will be briefly described, it being obvious that the drawings in the description below are only some embodiments of the invention, and that other drawings can be obtained according to these drawings without inventive faculty for a person skilled in the art.

Fig. 1 is a schematic diagram of the operation of an embodiment of the present invention.

Detailed Description

Embodiments of the present disclosure are described in detail below with reference to the accompanying drawings.

Other advantages and effects of the present disclosure will become readily apparent to those skilled in the art from the following disclosure, which is a description of the embodiments given by way of specific examples. It will be apparent that the described embodiments are only some, but not all, embodiments of the invention. The invention may be practiced or carried out in other embodiments that depart from the specific details, and the details of the present description may be modified or varied from the spirit and scope of the present invention. It should be noted that the following embodiments and features in the embodiments may be combined with each other without conflict. All other embodiments, which can be made by one of ordinary skill in the art without inventive effort, based on the embodiments in this disclosure are intended to be within the scope of this disclosure.

As shown in fig. 1, the IT device intelligent debugging robot includes a robot body. The robot body includes:

the remote end control unit is responsible for carrying out data communication with the debugged equipment after being accessed to the debugged equipment, and issuing a control command and collecting a control result to the access end control unit. The control command is a command to establish network communication. The control result is the data transmitted in the network communication;

the access terminal control unit, the communication medium of the remote terminal control unit and the service terminal control unit is responsible for establishing the network communication of the service terminal control unit between the remote terminal control units and encrypting and decrypting the data transmitted in the network communication;

and the server processing unit is used for intensively taking over the remote control unit, issuing the operation and maintenance command and collecting the operation and maintenance command processing result. The operation and maintenance command is a command for performing device operation and debugging on network devices which are faulty or need to be operated and maintained. And the operation and maintenance command processing result is the result after the equipment operation and debugging processing. The server processing unit is also used for generating and outputting a test report according to the collected operation and maintenance command processing results.

The robot body further includes a user interface unit. The user interface unit is used for returning the processing result of the server processing unit and interacting with the user.

The remote end control unit is connected with the debugged equipment through an interface and a cable.

The remote end control unit comprises a COM module and a 4G router module. The COM module is used for accessing the debugged equipment and communicating data with the debugged equipment through an RS232 protocol. The COM module transmits data to the 4G router module through a serial port or a network port. The 4G router module can connect to the 4G network and automatically find the access terminal control unit.

The remote control unit and the access control unit are connected by using a LAN port or a Console port.

The access terminal control unit comprises a networking router module. The group network router module is used for constructing a local area network and distributing IP addresses to accessed debugged equipment by using a DHCP protocol.

The server processing unit comprises an Internet of things server, an operation and maintenance platform or an operation and maintenance interface.

And the COM module uses the encrypted MQTT protocol to send the data to an Internet of things platform or an operation and maintenance interface.

An IT device intelligent debugging method for an IT device intelligent debugging robot comprises the following steps:

step 1: the robot body enables the remote end control unit to be connected with the debugged equipment;

step 2: the remote end control unit issues a control command to the access end control unit. The control command is a command for establishing network communication;

step 3: the access terminal control unit establishes network communication of the server terminal control units between the remote terminal control units and encrypts and decrypts data transmitted in the network communication;

step 4: the server processing unit transmits an operation and maintenance command to the remote control unit through the access control unit. The operation and maintenance command is a command for carrying out equipment operation and debugging on network equipment which is faulty or needs to be operated and maintained;

step 5: the remote terminal control unit performs equipment operation and debugging on the debugged equipment according to the operation and maintenance command;

step 6: and (5) the remote terminal control unit transmits the operation and maintenance command processing result obtained in the step (5) to the server terminal processing unit through network communication and data of the access terminal control unit.

While the invention has been described in detail in the foregoing general description and with reference to specific embodiments thereof, it will be apparent to one skilled in the art that modifications and improvements can be made thereto. Accordingly, such modifications or improvements may be made without departing from the spirit of the invention and are intended to be within the scope of the invention as claimed.

Claims (9)

1. An IT equipment intelligent debugging robot comprises a robot body; the robot body is characterized by comprising:

   the remote end control unit is in charge of carrying out data communication with the debugged equipment after being accessed to the debugged equipment, and issuing a control command and collecting a control result to the access end control unit; the control command is a command for establishing network communication; the control result is data transmitted in network communication;

   the access terminal control unit, the communication medium of the remote terminal control unit and the service terminal control unit is responsible for establishing the network communication of the service terminal control unit between the remote terminal control units and encrypting and decrypting the data transmitted in the network communication;

   the server processing unit is used for intensively taking over the remote control unit, issuing operation and maintenance commands and collecting operation and maintenance command processing results; the operation and maintenance command is a command for carrying out equipment operation and debugging on network equipment which is faulty or needs to be operated and maintained; the operation and maintenance command processing result is a result after equipment operation and debugging processing; the server processing unit is also used for generating and outputting a test report according to the collected operation and maintenance command processing results.
2. 2. The IT device intelligent debugging robot of claim 1, wherein the robot body further comprises a user interface unit; the user interface unit is used for returning the processing result of the server processing unit and interacting with the user.
3. 3. The IT device intelligent debugging robot of claim 1, wherein the remote end control unit is connected with the debugged device through an interface and a cable.
4. 4. The IT device intelligent debugging robot of claim 1, wherein the remote-side control unit comprises a COM module, a 4G router module; the COM module is used for accessing the debugged equipment and carrying out data communication with the debugged equipment through an RS232 protocol; the COM module transmits data to the 4G router module through a serial port or a network port; the 4G router module can be connected with a 4G network and automatically find an access terminal control unit.
5. 5. The IT device intelligent debugging robot of claim 1, wherein the remote end control unit and the access end control unit are connected using a LAN port or a cone port.
6. 6. The IT device intelligent commissioning robot of claim 1, wherein the access terminal control unit comprises a networking router module; the networking router module is used for constructing a local area network and distributing an IP address to the accessed debugged equipment by using a DHCP protocol.
7. 7. The IT device intelligent debugging robot of claim 1, wherein the server processing unit comprises an internet of things server, an operation and maintenance platform, or an operation and maintenance interface.
8. 8. The IT device intelligent debugging robot of claim 1, wherein the COM module sends data to an internet of things platform or an operation and maintenance interface using an encrypted MQTT protocol.
9. 9. An IT device intelligent commissioning method using the IT device intelligent commissioning robot of any one of claims 1-8, comprising the steps of:

   step 1: the robot body enables the remote end control unit to be connected with the debugged equipment;

   step 2: the remote terminal control unit issues a control command to the access terminal control unit; the control command is a command for establishing network communication;

   step 3: the access terminal control unit establishes network communication of the server terminal control units between the remote terminal control units and encrypts and decrypts data transmitted in the network communication;

   step 4: the server processing unit transmits an operation and maintenance command to the remote control unit through the access control unit; the operation and maintenance command is a command for carrying out equipment operation and debugging on network equipment which is faulty or needs to be operated and maintained;

   step 5: the remote terminal control unit performs equipment operation and debugging on the debugged equipment according to the operation and maintenance command;

   step 6: and (5) the remote terminal control unit transmits the operation and maintenance command processing result obtained in the step (5) to the server terminal processing unit through network communication and data of the access terminal control unit.