CN111915760A - Mobile intelligent inspection system for cable equipment - Google Patents
Mobile intelligent inspection system for cable equipment Download PDFInfo
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- CN111915760A CN111915760A CN202010824321.9A CN202010824321A CN111915760A CN 111915760 A CN111915760 A CN 111915760A CN 202010824321 A CN202010824321 A CN 202010824321A CN 111915760 A CN111915760 A CN 111915760A
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- G—PHYSICS
- G07—CHECKING-DEVICES
- G07C—TIME OR ATTENDANCE REGISTERS; REGISTERING OR INDICATING THE WORKING OF MACHINES; GENERATING RANDOM NUMBERS; VOTING OR LOTTERY APPARATUS; ARRANGEMENTS, SYSTEMS OR APPARATUS FOR CHECKING NOT PROVIDED FOR ELSEWHERE
- G07C1/00—Registering, indicating or recording the time of events or elapsed time, e.g. time-recorders for work people
- G07C1/20—Checking timed patrols, e.g. of watchman
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
- H04L1/00—Arrangements for detecting or preventing errors in the information received
- H04L1/0001—Systems modifying transmission characteristics according to link quality, e.g. power backoff
- H04L1/0006—Systems modifying transmission characteristics according to link quality, e.g. power backoff by adapting the transmission format
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W28/00—Network traffic management; Network resource management
- H04W28/02—Traffic management, e.g. flow control or congestion control
- H04W28/0289—Congestion control
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W28/00—Network traffic management; Network resource management
- H04W28/02—Traffic management, e.g. flow control or congestion control
- H04W28/04—Error control
Abstract
The invention provides a mobile intelligent inspection system for cable equipment, and belongs to the technical field of inspection equipment. The system comprises a label cluster, an inspection sampling device, a server and a management platform; the label cluster is arranged on the cable equipment; the inspection acquisition device is in wireless data connection with the server; and the server is in data connection with the management platform. The system has the characteristics of improving the data transmission efficiency and preventing data transmission errors and data omission.
Description
Technical Field
The invention provides a mobile intelligent inspection system for cable equipment, and belongs to the technical field of inspection equipment.
Background
With the continuous and stable growth of Chinese economy and the progress and development of science and technology, the demand for electric power is greatly increased, and the safe and stable operation of an electric power system has great practical significance to the daily production and life of people and the happy development of the country. Nowadays, the development of the power industry plays an extremely important role in all the industries of society, and almost all the fields need the supply and support of the power industry. Any subtle defect of a system in the power industry can bring non-estimable loss to the country and the society, so that each power company of a national power grid needs to build an intelligent power system suitable for enterprise development. Inspection of power cabling and equipment is therefore particularly important. However, in the conventional inspection system, due to the large data transmission amount and the long data transmission distance, the data processing efficiency is often low, and the problems of data transmission errors and omission occur.
Disclosure of Invention
The invention provides a mobile intelligent inspection system for cable equipment, which is used for solving the problems that the existing inspection system is low in data processing efficiency and data transmission errors and omissions are easy to occur in data transmission, and adopts the following technical scheme:
the mobile intelligent inspection system for the cable equipment comprises a label cluster, an inspection sampling device, a server and a management platform; the label cluster is arranged on the cable equipment; the inspection acquisition device is in wireless data connection with the server; and the server is in data connection with the management platform.
Further, the tag cluster comprises a plurality of electronic tags; and the electronic tag stores attribute information corresponding to the cable equipment.
Further, the collection system that patrols and examines includes:
the radio frequency reader-writer is used for reading attribute information which is stored in the label cluster and corresponds to the cable equipment;
the information input module is used for inputting personal information of the inspection personnel, inspection starting time and inspection ending time;
the positioning module is used for positioning the routing inspection track of the routing inspection personnel in real time;
and the data transmission module is used for transmitting the attribute information, the personnel information, the inspection time, the inspection track and the number of the inspection acquisition device to the server.
Further, the server includes:
the information acquisition module is used for acquiring the attribute information, the personnel information, the inspection time, the inspection track and the number of the inspection acquisition device sent by the inspection acquisition device;
and the information sending module is used for sending the attribute information of the cable equipment acquired in the routing inspection track and the routing inspection process to the management platform in a switching and sending mode by taking the number of the routing inspection acquisition device and the personnel information as standards.
Further, the information sending module comprises:
the system comprises a self number detection module, a personal number identification module and a personal number identification module, wherein the self number detection module is used for detecting personnel information corresponding to an inspection acquisition device on the basis of the self number of the inspection acquisition device and judging whether the personnel information is unique or not; if the personnel information is unique, packing the routing inspection time, the routing inspection track and the attribute information of the cable equipment acquired in the routing inspection process corresponding to the personnel information, and the self number and the personnel information of the routing inspection acquisition device to form a data packet on the basis of the self number and the personnel information of the routing inspection acquisition device; if the personnel information is not unique, executing an inspection system information detection module;
the system comprises a polling information detection module, a polling information detection module and a data processing module, wherein the polling information detection module is used for detecting whether polling time information, polling track information and attribute information of the cable equipment acquired in the polling process exist between every two pieces of personnel information, if yes, the polling time information, the polling track information, the attribute information of the cable equipment acquired in the polling process and the serial number of the polling acquisition device corresponding to each piece of personnel information are packed by taking the personnel information as a unit and the polling finish time information corresponding to the personnel information as a boundary under the self serial number of the polling acquisition device, so that a plurality of data packets are formed; if not, executing an abnormal data packet generating module;
the abnormal data packet generating module is used for monitoring data sent by the inspection device in real time until inspection starting time information appears, and individually packaging the inspection time information, the inspection track information and the personnel information which is received before the personnel information corresponding to the inspection starting time information and does not have the attribute information of the cable equipment and acquired in the inspection process to generate an abnormal inspection data packet;
the switching and sending module is used for switching and sending the data packet corresponding to the inspection device to the management platform by the server according to the set sending time interval by taking the self numbers of the inspection devices which are different from each other as the standard; and when the data packets corresponding to the routing inspection devices with different self numbers still do not appear after the sending time threshold is exceeded, allowing the data packets corresponding to the routing inspection devices with the same self numbers to be sent continuously.
Further, the management platform comprises:
the data receiving module is used for acquiring a data packet transmitted by the server, analyzing the data packet and acquiring the number of the inspection and acquisition device, personnel information, an inspection track and attribute information of the cable equipment acquired in the inspection process in the data packet;
and the data storage module is used for storing and managing the inspection information corresponding to the inspection device and the inspection personnel by taking the number of the inspection device and the personnel information as a unit.
Further, the operation process of the server comprises:
step 1, acquiring the attribute information and the personnel information, the inspection time, the inspection track and the number of the inspection acquisition device sent by the inspection acquisition device;
and 2, sending the routing inspection track and the attribute information of the cable equipment acquired in the routing inspection process to a management platform in a switching and sending mode by taking the number of the routing inspection acquisition device and the personnel information as standards.
Further, step 2 said use number and personnel information of collection system of patrolling and examining oneself as the standard, to patrol and examine the orbit and patrol and examine the attribute information of the cable plant of in-process collection, send to the management platform with the mode of switching over the transmission, include:
step 201, detecting personnel information corresponding to an inspection acquisition device on the basis of the number of the inspection acquisition device, and judging whether the personnel information is unique; if the personnel information is unique, packing the routing inspection time, the routing inspection track and the attribute information of the cable equipment acquired in the routing inspection process corresponding to the personnel information, and the self number and the personnel information of the routing inspection acquisition device to form a data packet on the basis of the self number and the personnel information of the routing inspection acquisition device; if the personnel information is not unique, executing step 202;
step 202, detecting whether routing inspection time information, routing inspection track information and attribute information of the cable equipment acquired in the routing inspection process exist between every two pieces of personnel information, and if yes, packing the routing inspection time, the routing inspection track and the attribute information of the cable equipment acquired in the routing inspection process, which correspond to each piece of personnel information, and the self number and the personnel information of the routing inspection acquisition device by taking the personnel information as a unit and taking routing inspection ending time information which corresponds to the personnel information as a boundary under the self number of the routing inspection acquisition device to form a plurality of data packets; if not, go to step 203;
step 203, if routing inspection time information, routing inspection track information and attribute information of the cable equipment acquired in the routing inspection process do not exist between two personnel information, monitoring data sent by the routing inspection device in real time until routing inspection start time information appears, and individually packaging the routing inspection time information, the routing inspection track information and the personnel information which is received before the personnel information corresponding to the routing inspection start time information and does not exist in the attribute information of the cable equipment acquired in the routing inspection process to generate an abnormal routing inspection data packet;
and 204, switching and sending the data packets corresponding to the inspection devices to a management platform by the server by taking the self numbers of the inspection devices which are different from each other as standards according to the set sending time interval, and allowing the data packets corresponding to the inspection devices with the same self number to be sent continuously when the sending time threshold is exceeded and no data packet corresponding to the inspection devices with different self numbers appears.
Further, the transmission time interval is set by the following formula:
wherein n represents the number of the inspection devices, tiThe working time of the inspection work of the ith inspection device is represented within one day; m represents the corresponding personnel information number of the ith inspection device in one day; t is tijThe inspection duration of an inspector corresponding to the jth personal information in the ith inspection device is represented; t is t0Represents the average time that the server generates the data packet;
α represents a transmission time coefficient, and the expression of α is:
wherein, tmaxThe method comprises the steps of representing the longest polling time used by one-time polling aiming at one person information in all polling devices; t is tminThe shortest inspection time used by one-time inspection aiming at one person information in all inspection devices is represented;
the transmission time threshold is set by the following formula:
wherein beta represents a threshold correction coefficient, and the value range of beta is 1.10-1.30.
Further, the operation process of the management platform comprises:
step 1, acquiring a data packet transmitted by the server, analyzing the data packet, and acquiring the number of a detection and acquisition device, personnel information, a detection track and attribute information of cable equipment acquired in a detection and acquisition process in the data packet;
and step 2, storing and managing the inspection information corresponding to the inspection device and the inspection personnel by taking the number of the inspection device and the personnel information as a unit.
The invention has the beneficial effects that:
the mobile intelligent inspection system for the cable equipment can realize accurate information acquisition, high-efficiency and high-accuracy data processing and data transmission of the cable equipment through the label cluster, the inspection device, the server and the management platform. And the operation stability and the management monitoring strength of the intelligent inspection system are improved. In the inspection system, data omission can be effectively avoided through standards and strategies generated by data packets, meanwhile, data transmission efficiency can be effectively improved through the data transmission mode of the switching mode and the setting of the sending time interval and the sending threshold time, data transmission errors and omission generated in the data transmission process are reduced, and meanwhile data congestion in the data transmission process can be effectively avoided. The efficiency, accuracy and stability of data transmission between the server and the management platform are improved to a great extent.
Drawings
Fig. 1 is a schematic structural diagram of the system of the present invention.
Detailed Description
The preferred embodiments of the present invention will be described in conjunction with the accompanying drawings, and it will be understood that they are described herein for the purpose of illustration and explanation and not limitation.
The invention provides a mobile intelligent inspection system for cable equipment, which is used for solving the problems that the existing inspection system is low in data processing efficiency and data transmission errors and omissions are easy to occur in data transmission:
the embodiment of the invention provides a mobile intelligent inspection system for cable equipment, which comprises a label cluster, an inspection sampling device, a server and a management platform, wherein the label cluster is connected with the inspection sampling device; the label cluster is arranged on the cable equipment; the inspection acquisition device is in wireless data connection with the server; and the server is in data connection with the management platform.
Wherein the tag cluster comprises a plurality of electronic tags; and the electronic tag stores attribute information corresponding to the cable equipment.
The collection system patrols and examines includes:
the radio frequency reader-writer is used for reading attribute information which is stored in the label cluster and corresponds to the cable equipment;
the information input module is used for inputting personal information of the inspection personnel, inspection starting time and inspection ending time;
the positioning module is used for positioning the routing inspection track of the routing inspection personnel in real time;
and the data transmission module is used for transmitting the attribute information, the personnel information, the inspection time, the inspection track and the number of the inspection acquisition device to the server.
The working principle of the technical scheme is as follows: the label cluster is a plurality of electronic labels, and the personnel of patrolling and examining carry the sampling device that patrols and examines at the in-process of patrolling and examining to through patrolling and examining the information that collection system read in every electronic label, confirm this monitoring point that patrols and examines. Meanwhile, in the inspection process, the personal information of the inspection personnel is required to be input through the inspection sampling device, and the initial time and the end time of inspection are required to be input. The patrol inspection sampling device monitors and positions patrol inspection tracks of patrol inspection personnel in real time through the positioning module, and simultaneously sends the read attribute information corresponding to the cable equipment, the personnel information input by the patrol inspection personnel, the patrol inspection time information and the patrol inspection track information obtained through positioning monitoring to the server. And after the server processes the data, the data are packaged and sent to a management platform for data backup storage and management.
The effect of the above technical scheme is as follows: accurate information acquisition of the cable equipment, high-efficiency and high-accuracy data processing and data transmission can be achieved through the label cluster, the inspection device, the server and the management platform. And the operation stability and the management monitoring strength of the intelligent inspection system are improved.
In one embodiment of the present invention, the server includes:
the information acquisition module is used for acquiring the attribute information, the personnel information, the inspection time, the inspection track and the number of the inspection acquisition device sent by the inspection acquisition device;
and the information sending module is used for sending the attribute information of the cable equipment acquired in the routing inspection track and the routing inspection process to the management platform in a switching and sending mode by taking the number of the routing inspection acquisition device and the personnel information as standards.
Wherein, the information sending module comprises:
the system comprises a self number detection module, a personal number identification module and a personal number identification module, wherein the self number detection module is used for detecting personnel information corresponding to an inspection acquisition device on the basis of the self number of the inspection acquisition device and judging whether the personnel information is unique or not; if the personnel information is unique, packing the routing inspection time, the routing inspection track and the attribute information of the cable equipment acquired in the routing inspection process corresponding to the personnel information, and the self number and the personnel information of the routing inspection acquisition device to form a data packet on the basis of the self number and the personnel information of the routing inspection acquisition device; if the personnel information is not unique, executing an inspection system information detection module;
the system comprises a polling information detection module, a polling information detection module and a data processing module, wherein the polling information detection module is used for detecting whether polling time information, polling track information and attribute information of the cable equipment acquired in the polling process exist between every two pieces of personnel information, if yes, the polling time information, the polling track information, the attribute information of the cable equipment acquired in the polling process and the serial number of the polling acquisition device corresponding to each piece of personnel information are packed by taking the personnel information as a unit and the polling finish time information corresponding to the personnel information as a boundary under the self serial number of the polling acquisition device, so that a plurality of data packets are formed; if not, executing an abnormal data packet generating module;
the abnormal data packet generating module is used for monitoring data sent by the inspection device in real time until inspection starting time information appears, and individually packaging the inspection time information, the inspection track information and the personnel information which is received before the personnel information corresponding to the inspection starting time information and does not have the attribute information of the cable equipment and acquired in the inspection process to generate an abnormal inspection data packet;
the switching and sending module is used for switching and sending the data packet corresponding to the inspection device to the management platform by the server according to the set sending time interval by taking the self numbers of the inspection devices which are different from each other as the standard; and when the data packets corresponding to the routing inspection devices with different self numbers still do not appear after the sending time threshold is exceeded, allowing the data packets corresponding to the routing inspection devices with the same self numbers to be sent continuously.
The working principle of the technical scheme is as follows: firstly, acquiring the attribute information, the personnel information, the inspection time, the inspection track and the number of the inspection acquisition device sent by the inspection acquisition device through an information acquisition module; and then, the information sending module is used for sending the routing inspection track and the attribute information of the cable equipment collected in the routing inspection process to a management platform in a switching sending mode by taking the number of the routing inspection collecting device and the personnel information as standards.
In the operation process of an information sending module of a server, detecting personnel information corresponding to an inspection acquisition device through a self number detection module on the basis of the self number of the inspection acquisition device, and judging whether the personnel information is unique or not; if the personnel information is unique, packing the routing inspection time, the routing inspection track and the attribute information of the cable equipment acquired in the routing inspection process corresponding to the personnel information, and the self number and the personnel information of the routing inspection acquisition device to form a data packet on the basis of the self number and the personnel information of the routing inspection acquisition device; if the personnel information is not unique, executing an inspection system information detection module; then, whether routing inspection time information, routing inspection track information and attribute information of the cable equipment acquired in the routing inspection process exist between every two pieces of personnel information is detected by using a routing inspection information detection module, if yes, the routing inspection time, the routing inspection track and the attribute information of the cable equipment acquired in the routing inspection process, which correspond to each piece of personnel information, and the self number and the personnel information of the routing inspection acquisition device are packaged to form a plurality of data packets by taking the personnel information as a unit and the routing inspection end time information which corresponds to the personnel information as a boundary under the self number of the routing inspection acquisition device; if not, executing an abnormal data packet generating module;
then, monitoring data sent by the inspection device in real time through an abnormal data packet generating module until inspection starting time information appears, and individually packaging the inspection time information, the inspection track information and the personnel information which is received before the personnel information corresponding to the inspection starting time information and does not have the attribute information of the cable equipment and acquired in the inspection process to generate an abnormal inspection data packet; finally, switching and sending the data packets corresponding to the inspection devices to a management platform by using a switching and sending module according to the set sending time interval and taking the self numbers of the inspection devices which are different from each other as the standard by the server; and when the data packets corresponding to the routing inspection devices with different self numbers still do not appear after the sending time threshold is exceeded, allowing the data packets corresponding to the routing inspection devices with the same self numbers to be sent continuously.
The effect of the above technical scheme is as follows: data omission can be effectively avoided through the standards and strategies generated by the data packets, meanwhile, data corresponding to abnormal inspection conditions can be effectively screened out, and key backup and information recording can be conveniently carried out by the management platform. On the other hand, the data transmission mode through the switching mode can effectively avoid that data information collected by a certain inspection device is interfered and missed because other inspection devices acquire data and have too high transmission frequency under the condition that the system is provided with a plurality of inspection devices, and effectively prevents transmission errors and omissions in the data transmission process.
In one embodiment of the present invention, the management platform includes:
the data receiving module is used for acquiring a data packet transmitted by the server, analyzing the data packet and acquiring the number of the inspection and acquisition device, personnel information, an inspection track and attribute information of the cable equipment acquired in the inspection process in the data packet;
and the data storage module is used for storing and managing the inspection information corresponding to the inspection device and the inspection personnel by taking the number of the inspection device and the personnel information as a unit.
The working principle of the technical scheme is as follows: firstly, acquiring a data packet transmitted by the server through a data receiving module, analyzing the data packet, and acquiring the self number, personnel information, an inspection track and attribute information of cable equipment acquired in an inspection process of an inspection and acquisition device in the data packet; and then, storing and managing routing inspection information corresponding to the routing inspection device and routing inspection personnel by taking the number of the routing inspection device and personnel information as a unit through a data storage module.
The effect of the above technical scheme is as follows: the efficiency of acquiring the patrol data information by the management platform can be improved, and the reliability of data management is improved.
In an embodiment of the present invention, the operation process of the server includes:
step 1, acquiring the attribute information and the personnel information, the inspection time, the inspection track and the number of the inspection acquisition device sent by the inspection acquisition device;
and 2, sending the routing inspection track and the attribute information of the cable equipment acquired in the routing inspection process to a management platform in a switching and sending mode by taking the number of the routing inspection acquisition device and the personnel information as standards.
Wherein, in step 2 with patrol and examine collection system's self serial number and personnel information and be the standard, right patrol and examine the orbit and patrol and examine the attribute information of the cable plant of in-process collection to the mode of switching transmission sends to management platform, includes:
step 201, detecting personnel information corresponding to an inspection acquisition device on the basis of the number of the inspection acquisition device, and judging whether the personnel information is unique; if the personnel information is unique, packing the routing inspection time, the routing inspection track and the attribute information of the cable equipment acquired in the routing inspection process corresponding to the personnel information, and the self number and the personnel information of the routing inspection acquisition device to form a data packet on the basis of the self number and the personnel information of the routing inspection acquisition device; if the personnel information is not unique, executing step 202;
step 202, detecting whether routing inspection time information, routing inspection track information and attribute information of the cable equipment acquired in the routing inspection process exist between every two pieces of personnel information, and if yes, packing the routing inspection time, the routing inspection track and the attribute information of the cable equipment acquired in the routing inspection process, which correspond to each piece of personnel information, and the self number and the personnel information of the routing inspection acquisition device by taking the personnel information as a unit and taking routing inspection ending time information which corresponds to the personnel information as a boundary under the self number of the routing inspection acquisition device to form a plurality of data packets; if not, go to step 203;
step 203, if routing inspection time information, routing inspection track information and attribute information of the cable equipment acquired in the routing inspection process do not exist between two personnel information, monitoring data sent by the routing inspection device in real time until routing inspection start time information appears, and individually packaging the routing inspection time information, the routing inspection track information and the personnel information which is received before the personnel information corresponding to the routing inspection start time information and does not exist in the attribute information of the cable equipment acquired in the routing inspection process to generate an abnormal routing inspection data packet;
and 204, switching and sending the data packets corresponding to the inspection devices to a management platform by the server by taking the self numbers of the inspection devices which are different from each other as standards according to the set sending time interval, and allowing the data packets corresponding to the inspection devices with the same self number to be sent continuously when the sending time threshold is exceeded and no data packet corresponding to the inspection devices with different self numbers appears.
The effect of the above technical scheme is as follows: data omission can be effectively avoided through the standards and strategies generated by the data packets, meanwhile, data corresponding to abnormal inspection conditions can be effectively screened out, and key backup and information recording can be conveniently carried out by the management platform. On the other hand, the data transmission mode through the switching mode can effectively avoid that data information collected by a certain inspection device is interfered and missed because other inspection devices acquire data and have too high transmission frequency under the condition that the system is provided with a plurality of inspection devices, and effectively prevents transmission errors and omissions in the data transmission process.
In an embodiment of the present invention, the sending time interval is set by the following formula:
wherein n represents the number of the inspection devices, tiThe working time of the inspection work of the ith inspection device is represented within one day;m represents the corresponding personnel information number of the ith inspection device in one day; t is tijThe inspection duration of an inspector corresponding to the jth personal information in the ith inspection device is represented; t is t0Represents the average time that the server generates the data packet;
α represents a transmission time coefficient, and the expression of α is:
wherein, tmaxThe method comprises the steps of representing the longest polling time used by one-time polling aiming at one person information in all polling devices; t is tminThe shortest inspection time used by one-time inspection aiming at one person information in all inspection devices is represented;
the transmission time threshold is set by the following formula:
wherein, beta represents a threshold correction coefficient, and the value range of beta is 1.10-1.30, preferably 1.15.
The effect of the above technical scheme is as follows: the sending time interval and the sending time threshold value are obtained through the formula, so that the actual matching between the working conditions of data sending and actual inspection and the working rhythm of personnel can be effectively improved, and the data jam in the data transmission process can be effectively avoided. The data transmission efficiency is improved to a great extent, and meanwhile, data transmission errors and omissions generated in the data transmission process can be completely avoided. And further, the efficiency and the accuracy of data transmission between the server and the management platform and the stability of data transmission are improved.
In an embodiment of the present invention, the operation process of the management platform includes:
step 1, acquiring a data packet transmitted by the server, analyzing the data packet, and acquiring the number of a detection and acquisition device, personnel information, a detection track and attribute information of cable equipment acquired in a detection and acquisition process in the data packet;
and step 2, storing and managing the inspection information corresponding to the inspection device and the inspection personnel by taking the number of the inspection device and the personnel information as a unit.
The effect of the above technical scheme is as follows: the efficiency of acquiring the patrol data information by the management platform can be improved, and the reliability of data management is improved.
It will be apparent to those skilled in the art that various changes and modifications may be made in the present invention without departing from the spirit and scope of the invention. Thus, if such modifications and variations of the present invention fall within the scope of the claims of the present invention and their equivalents, the present invention is also intended to include such modifications and variations.
Claims (10)
1. The mobile intelligent inspection system for the cable equipment is characterized by comprising a label cluster, an inspection sampling device, a server and a management platform; the label cluster is arranged on the cable equipment; the inspection acquisition device is in wireless data connection with the server; and the server is in data connection with the management platform.
2. The smart inspection system according to claim 1, wherein the cluster of tags includes a plurality of electronic tags; and the electronic tag stores attribute information corresponding to the cable equipment.
3. The intelligent inspection system according to claim 1, wherein the inspection collection assembly includes:
the radio frequency reader-writer is used for reading attribute information which is stored in the label cluster and corresponds to the cable equipment;
the information input module is used for inputting personal information of the inspection personnel, inspection starting time and inspection ending time;
the positioning module is used for positioning the routing inspection track of the routing inspection personnel in real time;
and the data transmission module is used for transmitting the attribute information, the personnel information, the inspection time, the inspection track and the number of the inspection acquisition device to the server.
4. The intelligent inspection system according to claim 1, wherein the server includes:
the information acquisition module is used for acquiring the attribute information, the personnel information, the inspection time, the inspection track and the number of the inspection acquisition device sent by the inspection acquisition device;
and the information sending module is used for sending the attribute information of the cable equipment acquired in the routing inspection track and the routing inspection process to the management platform in a switching and sending mode by taking the number of the routing inspection acquisition device and the personnel information as standards.
5. The intelligent inspection system according to claim 1, wherein the information sending module includes:
the system comprises a self number detection module, a personal number identification module and a personal number identification module, wherein the self number detection module is used for detecting personnel information corresponding to an inspection acquisition device on the basis of the self number of the inspection acquisition device and judging whether the personnel information is unique or not; if the personnel information is unique, packing the routing inspection time, the routing inspection track and the attribute information of the cable equipment acquired in the routing inspection process corresponding to the personnel information, and the self number and the personnel information of the routing inspection acquisition device to form a data packet on the basis of the self number and the personnel information of the routing inspection acquisition device; if the personnel information is not unique, executing an inspection system information detection module;
the system comprises a polling information detection module, a polling information detection module and a data processing module, wherein the polling information detection module is used for detecting whether polling time information, polling track information and attribute information of the cable equipment acquired in the polling process exist between every two pieces of personnel information, if yes, the polling time information, the polling track information, the attribute information of the cable equipment acquired in the polling process and the serial number of the polling acquisition device corresponding to each piece of personnel information are packed by taking the personnel information as a unit and the polling finish time information corresponding to the personnel information as a boundary under the self serial number of the polling acquisition device, so that a plurality of data packets are formed; if not, executing an abnormal data packet generating module;
the abnormal data packet generating module is used for monitoring data sent by the inspection device in real time until inspection starting time information appears, and individually packaging the inspection time information, the inspection track information and the personnel information which is received before the personnel information corresponding to the inspection starting time information and does not have the attribute information of the cable equipment and acquired in the inspection process to generate an abnormal inspection data packet;
the switching and sending module is used for switching and sending the data packet corresponding to the inspection device to the management platform by the server according to the set sending time interval by taking the self numbers of the inspection devices which are different from each other as the standard; and when the data packets corresponding to the routing inspection devices with different self numbers still do not appear after the sending time threshold is exceeded, allowing the data packets corresponding to the routing inspection devices with the same self numbers to be sent continuously.
6. The intelligent inspection system according to claim 1, wherein the management platform includes:
the data receiving module is used for acquiring a data packet transmitted by the server, analyzing the data packet and acquiring the number of the inspection and acquisition device, personnel information, an inspection track and attribute information of the cable equipment acquired in the inspection process in the data packet;
and the data storage module is used for storing and managing the inspection information corresponding to the inspection device and the inspection personnel by taking the number of the inspection device and the personnel information as a unit.
7. The intelligent inspection system according to claim 1, wherein the server operates in a process that includes:
step 1, acquiring the attribute information and the personnel information, the inspection time, the inspection track and the number of the inspection acquisition device sent by the inspection acquisition device;
and 2, sending the routing inspection track and the attribute information of the cable equipment acquired in the routing inspection process to a management platform in a switching and sending mode by taking the number of the routing inspection acquisition device and the personnel information as standards.
8. The intelligent inspection system according to claim 1, wherein the routing inspection track and the attribute information of the cable equipment collected in the inspection process are sent to the management platform in a switching and sending manner by taking the serial number of the inspection collection device and the personnel information as standards in step 2, and the switching and sending manner includes:
step 201, detecting personnel information corresponding to an inspection acquisition device on the basis of the number of the inspection acquisition device, and judging whether the personnel information is unique; if the personnel information is unique, packing the routing inspection time, the routing inspection track and the attribute information of the cable equipment acquired in the routing inspection process corresponding to the personnel information, and the self number and the personnel information of the routing inspection acquisition device to form a data packet on the basis of the self number and the personnel information of the routing inspection acquisition device; if the personnel information is not unique, executing step 202;
step 202, detecting whether routing inspection time information, routing inspection track information and attribute information of the cable equipment acquired in the routing inspection process exist between every two pieces of personnel information, and if yes, packing the routing inspection time, the routing inspection track and the attribute information of the cable equipment acquired in the routing inspection process, which correspond to each piece of personnel information, and the self number and the personnel information of the routing inspection acquisition device by taking the personnel information as a unit and taking routing inspection ending time information which corresponds to the personnel information as a boundary under the self number of the routing inspection acquisition device to form a plurality of data packets; if not, go to step 203;
step 203, if routing inspection time information, routing inspection track information and attribute information of the cable equipment acquired in the routing inspection process do not exist between two personnel information, monitoring data sent by the routing inspection device in real time until routing inspection start time information appears, and individually packaging the routing inspection time information, the routing inspection track information and the personnel information which is received before the personnel information corresponding to the routing inspection start time information and does not exist in the attribute information of the cable equipment acquired in the routing inspection process to generate an abnormal routing inspection data packet;
and 204, switching and sending the data packets corresponding to the inspection devices to a management platform by the server by taking the self numbers of the inspection devices which are different from each other as standards according to the set sending time interval, and allowing the data packets corresponding to the inspection devices with the same self number to be sent continuously when the sending time threshold is exceeded and no data packet corresponding to the inspection devices with different self numbers appears.
9. The intelligent inspection system according to claim 8, wherein the transmission time interval is set by the following equation:
wherein n represents the number of the inspection devices, tiThe working time of the inspection work of the ith inspection device is represented within one day; m represents the corresponding personnel information number of the ith inspection device in one day; t is tijThe inspection duration of an inspector corresponding to the jth personal information in the ith inspection device is represented; t is t0Represents the average time that the server generates the data packet;
α represents a transmission time coefficient, and the expression of α is:
wherein, tmaxThe method comprises the steps of representing the longest polling time used by one-time polling aiming at one person information in all polling devices; t is tminThe shortest inspection time used by one-time inspection aiming at one person information in all inspection devices is represented;
the transmission time threshold is set by the following formula:
wherein beta represents a threshold correction coefficient, and the value range of beta is 1.10-1.30.
10. The intelligent inspection system according to claim 1, wherein the operation of the management platform includes:
step 1, acquiring a data packet transmitted by the server, analyzing the data packet, and acquiring the number of a detection and acquisition device, personnel information, a detection track and attribute information of cable equipment acquired in a detection and acquisition process in the data packet;
and step 2, storing and managing the inspection information corresponding to the inspection device and the inspection personnel by taking the number of the inspection device and the personnel information as a unit.
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