CN103729905B - Graphical cruising inspection system and method for inspecting - Google Patents

Abstract

The present invention relates to a graphical inspection system and inspection method, which is characterized in that it includes an identification label, a hand-held intelligent terminal for identifying the identification label, and a server connected to the hand-held self-energy terminal. The hand-held self-energy terminal includes a body , a touch display board arranged on the front of the body, a label identification module arranged in the body and connected to the touch display board in communication, a processing module connected to the label identification module in communication, a data archiving module connected in communication with the processing module, the data The archiving module communicates with the server, and the processing module includes a warning description module, a graphic inspection module, an intelligent line checking module, a device positioning module, an abnormal management module, and a statistical query module that are respectively connected to the label identification module. The present invention has the beneficial effects of displaying inspection or line inspection content in a graphical form, intuitively and effectively prompting staff to carry out specific work, and effectively improving inspection efficiency and inspection quality.

Description

Graphical inspection system and inspection method

technical field

The invention relates to a graphical patrol inspection system and a patrol inspection method.

Background technique

With the continuous development and in-depth application of enterprise informatization, the number of equipment in the computer room has increased rapidly, and the topology of the communication network has become increasingly complex, which puts forward higher requirements for the operation, maintenance and inspection of information communication.

There are mainly three existing inspection modes, one is the traditional manual paper recording mode, the other is the PDA inspection mode, and the third is the smart terminal list recording mode.

The traditional manual paper record mode generally adopts manual on-site inspection records, and then enters them into electronic forms or inspection systems. This form faces increasingly complex operating environments and rapidly changing update rhythms. The efficiency and quality of operation and maintenance inspections were greatly affected. Moreover, there is no guarantee that the inspection personnel will arrive at their posts in place, which may cause the phenomenon of missing inspections or even direct records without inspections.

The PDA inspection mode and the smart terminal mode generally use the textual list mode of the inspection list to realize the inspection directly. It is impossible to graphically locate the fault points of the equipment and cables, so that the inspection personnel cannot be intuitively and effectively prompted. It is easy to cause wrong inspections, and the quality and efficiency of inspections are relatively low, especially for new inspection personnel who cannot play a guiding role.

Contents of the invention

The purpose of the present invention is to solve the above-mentioned problems existing in the prior art and provide a graphical inspection system and inspection method. A processing module is set on a hand-held intelligent terminal, and the processing module is presented in a graphical manner, which provides intuitiveness to the inspection personnel. , Effective prompts to avoid the occurrence of wrong inspections, improve the quality and efficiency of inspections, and especially play a guiding role for new inspection personnel.

The above-mentioned technical purpose of the present invention is mainly solved by the following technical solutions: comprising an identification label, a hand-held intelligent terminal for identifying the identification label, and a server communicating with the hand-held intelligent terminal. A touch display panel, a label identification module set in the body and connected to the touch display panel in communication, a processing module connected to the label identification module in communication, a data archiving module in communication with the processing module, and the data archiving module communicates with the server connected, the processing module includes a warning description module, a graphic inspection module, an intelligent line checking module, a device positioning module, an abnormality management module, and a statistical query module that are respectively connected to the label identification module.

As a further improvement and supplement to the above technical solution, the present invention adopts the following technical measures: the identification tag is a two-dimensional code tag, RFID tag, NFC tag or Bluetooth tag.

The tag identification module includes a camera installed on the body.

The inspection method of the graphical inspection system is characterized by the steps of: holding the handheld smart terminal, causing the handheld smart terminal to receive identification label information, process the information, and finally store the information in the server.

The described information processing procedure includes a graphics inspection procedure, and the graphics inspection procedure includes procedure one, clicking on the graphics inspection module in the handheld smart terminal to enter the inspection work mode; procedure two, starting the inspection, and automatically opening the camera The identification label scanning function of the inspection object can be aligned with the identification label on the inspection object, and the inspection content of the object can be called out; process three, according to the classification, area and level of the inspection object, automatically call the warning description module; process four . After confirming the prompt instructions, the display area of the touch display panel will display the graphics of the inspection objects, and dynamically prompt the current inspection points in turn on the graphics. Click the inspection points with your fingers to record the status; Step 5. If it is normal, then Dynamically indicate the next inspection point, if it is abnormal, use the camera to record the abnormal state, enter the abnormal management module, and fill in the abnormal description; process six, when an inspection object ends, automatically prompt to enter the next inspection object, if the inspection If there are missed inspection objects in the inspection, remind the staff in time to find the missing inspection equipment and carry out the inspection until all inspection objects are inspected, then the inspection will end.

The information processing process includes an intelligent line checking process: the intelligent line checking process includes: process 1, clicking the touch display board to trigger the intelligent line checking module to enter the line checking working mode; process 2, starting line checking, and automatically turning on the camera The identification label scanning function, aiming at the identification label on the A end of the cable to be checked, prompting the line inspection instructions and alarm information, automatically calling up the route map of the cable, and dynamically prompting the location information of the B end of the cable; process three, the staff Go to the position of the B end of the cable, and scan the identification label of the B end of the cable. If it matches, it will prompt that it is correct, and end the line check. If it does not match, continue to search for the identification label of the corresponding cable B end until it is found.

The information processing process includes a device positioning process: the device positioning process includes: process 1, click the touch display panel to trigger the device positioning module to enter the positioning work mode; process 2, when starting positioning, enter the required positioning Device search information; Step 3. After starting the search, the device graphics and the location of the computer room are automatically called out; Step 4. The staff finds the location of the device to be located according to the graph, and holds the smart terminal to scan the identification label on the device. If it matches, it will prompt that it is correct, and the positioning will end; if it does not match, continue to search and scan the identification label of the nearby equipment until it is found.

The invention has the beneficial effect of establishing a docking relationship between the physical inspection object and the handheld intelligent terminal by using the uniqueness, fault tolerance, positioning and non-tampering of the identification tag. When performing patrol inspection and line inspection, the handheld smart terminal displays the inspection or line inspection content in a graphical form, intuitively and effectively prompts the staff to carry out specific tasks, and effectively improves the inspection efficiency and inspection quality. At the same time, the inspection order, number of inspection objects and inspection frequency can be set in the inspection process, combined with the spatial position of the inspection object identification label, to avoid missed inspections and wrong inspections, and to ensure that the staff patrols Inspection rate. Improve the automation level and refinement level of machine room inspection.

Description of drawings

Fig. 1 is a kind of structural representation of the present invention.

Fig. 2 is a flow chart of the graphic inspection procedure in the present invention.

Fig. 3 is a flow chart of the intelligent line checking procedure in the present invention.

Fig. 4 is a flow chart of the equipment positioning procedure in the present invention.

detailed description

The technical solutions of the present invention will be further specifically described below through the embodiments and in conjunction with the accompanying drawings.

Embodiment: As shown in FIG. 1 , the graphical inspection system includes an identification tag, a handheld smart terminal for identifying the tag, and a server connected to the handheld smart terminal for communication. The handheld intelligent terminal exchanges data with the server through the asynchronous interactive mode of the data cable, and the server includes a database and an application system.

The identification label contains the unique identification number and basic information of the inspection object, and according to the barriers of the inspection object, it is classified, partitioned, and graded for standardized identification. Combined with the situation of the existing computer room, classification: can be divided into four types of inspection objects such as equipment, cables, supporting facilities, and space environment; partition: identify the area where the object is located, such as server area, network area, backup area, etc.; classification: according to The level of system level protection is identified. The intelligent inspection system will automatically identify the classification, area and level of inspection objects, and make different inspection requirements and reminders.

The identification tag is a two-dimensional code tag, RFID tag, NFC tag or bluetooth tag.

The handheld intelligent terminal includes a body, a touch display panel arranged on the front of the body, a label identification module arranged in the body and connected to the touch display panel, a processing module connected to the label identification module, and a processing module connected to the processing module. A data archiving module, the data archiving module communicates with the server.

The processing module includes a warning description module, a graphic inspection module, an intelligent line checking module, a device positioning module, an abnormality management module, and a statistical query module, which are respectively connected to the label identification module.

The tag identification module includes a camera installed on the body.

The inspection method of the graphical inspection system is characterized by the steps of: holding the handheld smart terminal, causing the handheld smart terminal to receive identification label information, process the information, and finally store the information in the server.

Different from the working mode of the existing inspection system, this system displays the corresponding information graphically during module operation, and the inspection work is directly operated on the graphics, with clear status, intuitive and efficient, and effectively avoids misoperations. Great guide for novices.

During specific implementation, according to the requirements of the corresponding work modules, the label identification module obtains the unique identification number and basic information of the inspection object from the identification label, queries the data file warehouse of the system, and calls out the inspection content of the inspection object. Provided to the corresponding work modules for execution. At the same time, according to the classification, area and level of inspection objects, the warning description module is called to remind users of inspection precautions and requirements.

The inspection data of the handheld smart terminal can be directly saved in the data file warehouse of the device, and can also realize synchronous or asynchronous interaction with the server through two interaction modes of network channel and data cable. When the system is deployed, basic information can be entered on the server, workflow settings, and task plans can be formulated, and then imported into the handheld smart terminal through the above two interactive modes. At the end of the inspection, the inspection content can also be synchronized to the server through the above two interactive modes.

As shown in Figure 2, the described information processing procedure includes a graphics inspection procedure, and the graphics inspection procedure includes procedure one, clicking on the graphics inspection module in the handheld smart terminal to enter the inspection work mode; operation two, starting Patrol inspection, automatically turn on the camera's identification label scanning function, align the identification label on the inspection object, and then call up the inspection content of the object; process three, according to the classification, area and level of the inspection object, automatically call Warning description module; process 4. After confirming the prompt description, the display area of the touch display panel will display the graphics of the inspection object, and dynamically prompt the current inspection point in turn on the graph, and click the inspection point with your finger to record the status; process 5. If it is normal, it will dynamically indicate the next inspection point. If it is abnormal, use the camera to record the abnormal state, enter the abnormal management module, and fill in the abnormal description; process 6. When the inspection object ends, it will automatically prompt to enter the next inspection If there are missed inspection objects in the inspection, promptly remind the staff to find the missing inspection equipment and carry out the inspection until all inspection objects are inspected, then the inspection will end. The inspection frequency and inspection plan of each inspection object can be set through the server and then imported into the handheld smart terminal, or can be set in the graphic inspection module of the handheld smart terminal.

As shown in Figure 3, the described information processing process includes an intelligent line checking process: the intelligent line checking process includes: process one, clicking the touch display panel to trigger the intelligent line checking module to enter the line checking work mode; process two, start Check the line, automatically turn on the identification label scanning function of the camera, aim at the identification label on the A end of the cable to be checked, prompt the line checking instructions and alarm information, automatically call up the route map of the cable, and dynamically prompt the location information of the B end of the cable ;Procedure 3. The staff goes to the position of the B-end of the cable and scans the identification label of the B-end of the cable. If it matches, it will prompt that it is correct and end the line inspection. If it does not match, continue to search for the identification label of the corresponding cable B-end until it is found. .

As shown in Figure 4, the information processing process includes a device positioning process: the device positioning process includes: process 1, clicking the touch display panel to trigger the device positioning module to enter the positioning working mode; process 2, when starting positioning, The handheld smart terminal inputs the search information that needs to locate the device; Step 3, after starting the search, the device graphics and the location of the computer room are automatically called out; Step 4, the staff finds the location of the device to be positioned according to the graphics, and the handheld smart terminal scans If the identification label on the equipment matches, it will prompt that it is correct, and the positioning will end; if it does not match, continue to search and scan the identification label of the nearest equipment until it is found.

The graphical inspection system has the following beneficial effects:

① Improve the automation level of computer room inspection. By identifying the uniqueness of the label and the identifiability of the smart terminal, combined with the intelligent inspection system of the computer room, design and plan inspection tasks, and visually display the status of the equipment.

② Improve the refinement level of inspection. Combined with the intelligent inspection system of the computer room, timely record and analyze equipment defects and hidden dangers, improve the level of scientific operation management, realize humanized and information management, and provide support for the later statistical analysis of inspection records.

③ Improve the arrival rate and inspection quality of computer room inspections. By identifying the location of the label, the inspectors must identify the equipment on the spot to avoid the phenomenon that the inspectors are not in place or not in time.

④ Improve the quality of second-line operation and maintenance. By scanning the identification label, the information such as serial number, IP, MAC, CPU, memory, and hard disk of the computer can be obtained directly, and provided to the remote maintenance personnel, which is convenient for the maintenance personnel to judge and carry out maintenance work in time.

⑤ Standardize the use and scrapping process of ICT equipment. Utilizing the non-tamperable modification of the identification label information, when the ICT equipment is used, the main information is generated as an identification label and pasted on the equipment. When the equipment is scrapped, the read information can be checked with the computer configuration to prevent unauthorized demolition The computer situation exists.

⑥ Improve the efficiency of cable maintenance. Paste identification labels on both ends of the network and communication cables, and mark the start and end information, which can greatly improve the efficiency of cable inspection during cable maintenance. Utilize the fault tolerance of the identification label to effectively avoid the situation that the original old label affects the identification due to blurred handwriting.

⑦ Effectively utilize the location information of equipment and personnel to meet the requirements of different security domains. Use the identification labels of supporting facilities and space environment to effectively mark the location of existing inspection personnel, remind users of safety precautions in different security areas, and prevent the existence of misuse.

The above descriptions are only preferred embodiments of the present invention, and are not intended to limit the present invention. In the above-described embodiments, various modifications and changes are possible to the present invention. Any modifications, equivalent replacements, improvements, etc. made within the spirit and principles of the present invention shall be included within the protection scope of the present invention.

Claims (3)

1. the method for inspecting of graphical cruising inspection system, it is characterized in that comprising identification label, identify the hand-held intelligent terminal of identification label, and the server to be connected with hand-held intelligent terminal communication, described hand-held intelligent terminal comprises body, be arranged on the touch display panel in body front, to be arranged in body and the tag recognition module be connected with touch display panel communication, the processing module be connected with tag recognition module communication, the data filing module be connected with processing module communication, described data filing module is connected with server communication, described processing module comprises the warning statement module be all connected with tag recognition module communication respectively, figure polling module, intelligence line inspection module, equipment locating module, exception management module, statistical query module, described identification label is two-dimension code label, RFID label tag, NFC label or Bluetooth label, described tag recognition module comprises the camera be arranged on body,

Its step: hand-held described hand-held intelligent terminal, makes hand-held intelligent terminal receive identification tag information and carry out information processing, finally information is stored into server;

Described information processing operation of carrying out comprises figure and patrols and examines operation, and described figure patrols and examines that operation comprises operation one, the figure polling module clicked in hand-held intelligent terminal enters and patrols and examines mode of operation; Operation two, start to patrol and examine, automatically open the identification label scan function of camera, aim at the identification label of patrolling and examining on object, what can recall this object patrols and examines content; Operation three, according to patrolling and examining the classification of object, region and level condition, Automatically invoked warning statement module; Operation four, after confirmation prompting illustrates, the presenting district and will show and patrol and examine the figure of object of touch display panel, and dynamic reminding is current successively on figure patrols and examines a little, finger click is patrolled and examined a little, carries out state recording; If operation five is normal, then dynamically indicate next to patrol and examine a little, if abnormal, then use camera recording exceptional state, and enter exception management module, fill in declaration of exception; Operation six, patrol and examine object and terminate when one, automatic-prompting enters next and patrols and examines object, and that misses if having in patrolling and examining patrols and examines object, reminds staff to find in time and leakage patrols equipment and patrol and examine, patrol and examine object and patrol and examine complete, then terminate this and patrol and examine until all.

2. the method for inspecting of graphical cruising inspection system according to claim 1, is characterized in that described information processing operation of carrying out comprises intelligent line inspection operation: described intelligent line inspection operation comprises: operation one, point touching display board trigger intelligent line inspection module and enter line inspection mode of operation; Operation two, the beginning line inspection, automatically open the identification label scan function of camera, aim at the identification label needing line inspection cable A to hold, prompting line inspection explanation and warning information, recall the route map of this cable automatically, and the positional information of dynamic reminding cable B end; Operation three, staff go to the position that cable B holds, the identification label of scanning cable B end, if meet, then prompting is correct, terminates the line inspection, if do not meet, continue to find identification label that corresponding cable B holds until look for.

3. the method for inspecting of graphical cruising inspection system according to claim 1, is characterized in that described information processing operation of carrying out comprises equipment positioning process: described equipment positioning process comprises: operation one, point touching display board trigger equipment locating module enter positioning work pattern; Operation two, when starting to locate, what need positioning equipment in hand-held intelligent terminal input searches information; Operation three, startup recall the position of equipment figure and place machine room after searching automatically; Operation four, staff, according to figure, find the position needing positioning equipment, the identification label on hand-held intelligent terminal scanning device, if meet, then prompting is correct, terminates location; If do not meet, continue to find, the identification label of equipment nearby scanned, until look for.