CN113904441A - Cable management method and system - Google Patents

Abstract

The embodiment of the application discloses a cable management method and system. The cable management system provided by the embodiment of the application comprises a cloud server, a cable subsystem and a management subsystem, wherein the cable subsystem comprises a fault detection sensor and a biosensor; the cable subsystem is used for sending fault information detected by the fault detection sensor to the cloud server and controlling an RFID label on a fault cable to feed back an acoustic or optical signal when the biosensor detects that a person approaches; the cloud server is used for receiving the fault information sent by the cable subsystem and sending the fault information to the management subsystem; and the management subsystem is used for receiving the fault information sent by the cloud server and displaying the fault information on a corresponding menu directory. The technical scheme provided by the embodiment of the application can improve the intelligent degree of cable management and reduce the operation difficulty of the cable management process.

Description

Cable management method and system

Technical Field

The embodiment of the application relates to the technical field of cable identification and positioning, in particular to a cable management method and system.

Background

With the acceleration of the urbanization process, the cable lines are used in the urban power grid in a large quantity, and the increasing cable resource yield provides a serious challenge for management work. However, for the management of the cable lines, the inquiry and the positioning are carried out in a manual mode, and the management and control efficiency is low. The cable lines are distributed around the country, even around the world, and are inquired, positioned and managed only manually, so that the operation difficulty is high, and the intelligence degree is low.

Disclosure of Invention

The embodiment of the application provides a cable management method and system, which can solve the problem of low intelligent degree of cable management, improve the intelligent degree of cable management and reduce the operation difficulty in the cable management process.

In a first aspect, an embodiment of the present application provides a cable management system, including:

the system comprises a cloud server, a cable subsystem and a management subsystem, wherein the cable subsystem comprises a fault detection sensor and a biosensor;

the cable subsystem is used for sending fault information detected by the fault detection sensor to the cloud server and controlling an RFID label on a fault cable to feed back an acoustic or optical signal when the biosensor detects that a person approaches;

the cloud server is used for receiving the fault information sent by the cable subsystem and sending the fault information to the management subsystem;

and the management subsystem is used for receiving the fault information sent by the cloud server and displaying the fault information on a corresponding menu directory.

Furthermore, the cable management system also comprises a user management subsystem;

the user management subsystem is used for receiving an administrator adding, modifying or deleting instruction sent by the management subsystem, executing corresponding operation according to the administrator adding, modifying or deleting instruction, and sending execution result information to the management subsystem;

the management subsystem is also used for receiving the execution result information of the addition, modification and deletion manager sent by the user management subsystem, and displaying the execution result information in the corresponding menu directory.

Furthermore, the cable management system also comprises a station management subsystem;

the site management subsystem is used for displaying all site information on a map through a display, receiving a modification request instruction of the cloud server to a site, executing corresponding site modification operation according to the modification request instruction, and updating the modified site to the map of the display;

the management subsystem is also used for generating a corresponding site modification instruction according to the input operation of the administrator and sending the site modification instruction to the cloud server;

the cloud server is further configured to receive a site modification instruction sent by the management subsystem, and forward the instruction to the site management subsystem.

Further, the cable subsystem further comprises an environmental sensor and a communication device;

the environment sensor is used for acquiring environment parameter data of the cable and sending the acquired environment parameter data to the cloud server through communication equipment, and the environment parameters comprise humidity, light and temperature;

the cloud server is further used for receiving the environmental parameter data sent by the communication equipment and forwarding the environmental parameter data to the management subsystem;

and the management subsystem is also used for receiving the environmental parameter data sent by the cloud server and updating and displaying the environmental parameter data in the corresponding menu directory.

Further, the cloud server is further configured to perform environment early warning analysis according to the received environment parameter data, and send an environment early warning analysis result to the management subsystem;

and the management subsystem is also used for receiving the early warning analysis result and updating and displaying the early warning analysis result in a corresponding menu directory.

Furthermore, the cable subsystem further comprises an RFID reader-writer and a first control module;

the RFID tag is fixedly arranged on each cable, the RFID tag comprises cable information, and the cable information comprises cable names and installation position information;

the first control module is used for sending a positioning request instruction to the RFID reader-writer when the fault detection sensor detects fault information and the biosensor detects that a person approaches;

the RFID reader-writer is used for communicating with the RFID label in an induction range, receiving a positioning request instruction sent by a first control module in the cable system, and sending a positioning request signal to the RFID label on the cable with the fault in a wireless mode according to the positioning request instruction;

and the RFID tag is used for feeding back an acoustic or optical signal when receiving the positioning request signal sent by the RFID reader-writer.

Further, the cable subsystem further comprises a state detection sensor and a communication device;

the state detection sensor is used for detecting running state data of the cable and sending the running state data to the cloud server through communication equipment;

the cloud server is further used for receiving the running state data sent by the communication equipment, performing state early warning analysis according to the received running state data, and sending the running state data and a state early warning analysis result to the management subsystem;

and the management subsystem is also used for receiving the running state data and the state early warning analysis result sent by the cloud server and updating and displaying the running state data and the state early warning analysis result in a corresponding menu directory.

Further, the management subsystem is further configured to send operation record information content of the cable to the cloud server;

the cloud server is also used for receiving the operation record information content of the cable sent by the management subsystem and storing the operation record information content into the internal memory.

Furthermore, the RFID reader-writer comprises a clock, a power supply, a first radio frequency module and a first antenna, wherein the first radio frequency module is connected with the clock, the power supply and the first antenna;

the RFID tag comprises a second radio frequency module, a second antenna, a second control module, a memory and an LED, wherein the second antenna is connected with the second radio frequency module, and the control module is connected with the second radio frequency module, the memory and the LED;

the RFID reader-writer is used for receiving a positioning request signal sent by communication equipment through a first antenna and sending the positioning request signal to the RFID label through a first radio frequency module and the first antenna;

the RFID label is used for receiving the signal sent by the RFID reader through the second antenna and then transmitting the signal to the second control module through the second radio frequency module, and the information received by the second control module end is interpreted: if the request is a reading request, the information stored in the memory is sent to the RFID reader-writer through the second radio frequency module and the second antenna; if the request is a write request, the second control module rewrites the storage information in the memory; and if the positioning request is received, the second control module controls the LED to flash and light.

In a second aspect, an embodiment of the present application provides a cable management method, including:

carrying out fault detection on the cable;

when a cable is detected to have a fault, the fault information is sent to a cloud server side;

sending the fault information to an application terminal through a cloud server terminal for displaying;

people approach detection is carried out through the biosensor, and when people approach is detected, the RFID label on the cable with the fault is controlled to feed back a light signal.

Further, receiving an instruction for adding, modifying or deleting an administrator, which is sent by a management subsystem, executing corresponding operation according to the instruction for adding, modifying or deleting the administrator, and sending execution result information to the management subsystem;

and receiving the execution result information of the addition, modification and deletion administrator sent by the user management subsystem, and displaying the execution result information in the corresponding menu directory.

Further, displaying all site information on a map through a display, receiving a modification request instruction of the cloud server to a site, executing corresponding site modification operation according to the modification request instruction, and updating the modified site to the map of the display;

generating a corresponding site modification instruction according to the input operation of the administrator and sending the site modification instruction to the cloud server;

and receiving a site modification instruction sent by the management subsystem, and forwarding the instruction to the site management subsystem.

Further, collecting environmental parameter data of the cable, and sending the collected environmental parameter data to the cloud server through communication equipment, wherein the environmental parameters comprise humidity, light and temperature;

receiving environment parameter data sent by the communication equipment and forwarding the environment parameter data to the management subsystem;

and receiving the environmental parameter data sent by the cloud server, and updating and displaying the environmental parameter data in the corresponding menu directory.

Further, performing environment early warning analysis according to the received environment parameter data, and sending an environment early warning analysis result to the management subsystem;

and receiving the early warning analysis result, and updating and displaying the early warning analysis result in a corresponding menu directory.

Furthermore, the cable subsystem further comprises an RFID reader-writer and a first control module;

the RFID tag is fixedly arranged on each cable, the RFID tag comprises cable information, and the cable information comprises cable names and installation position information;

when the fault detection sensor detects fault information and the biosensor detects that a person approaches, a positioning request instruction is sent to the RFID reader-writer;

the RFID reader-writer communicates with the RFID label within the sensing range, receives a positioning request instruction sent by a first control module in the cable system, and sends a positioning request signal to the RFID label on the cable with the fault in a wireless mode according to the positioning request instruction;

and when receiving the positioning request signal sent by the RFID reader-writer, feeding back an acoustic or optical signal.

Further, the cable subsystem further comprises a state detection sensor and a communication device;

the state detection sensor is used for detecting running state data of the cable and sending the running state data to the cloud server through communication equipment;

receiving the running state data sent by the communication equipment, performing state early warning analysis according to the received running state data, and sending the running state data and a state early warning analysis result to the management subsystem;

and receiving the running state data and the state early warning analysis result sent by the cloud server, and updating and displaying the running state data and the state early warning analysis result in a corresponding menu directory.

Further, the operation record information content of the cable is sent to the cloud server;

and receiving the operation record information content of the cable sent by the management subsystem and storing the operation record information content into an internal memory.

Furthermore, the RFID reader-writer comprises a clock, a power supply, a first radio frequency module and a first antenna, wherein the first radio frequency module is connected with the clock, the power supply and the first antenna;

the RFID tag comprises a second radio frequency module, a second antenna, a second control module, a memory and an LED, wherein the second antenna is connected with the second radio frequency module, and the control module is connected with the second radio frequency module, the memory and the LED;

the first antenna receives a positioning request signal sent by communication equipment and sends the positioning request signal to the RFID tag through the first radio frequency module and the first antenna;

after receiving the signal sent by the RFID reader-writer through the second antenna, transmitting the signal to a second control module through a second radio frequency module, and reading the information received by a second control module end: if the request is a reading request, the information stored in the memory is sent to the RFID reader-writer through the second radio frequency module and the second antenna; if the request is a write request, the second control module rewrites the storage information in the memory; and if the positioning request is received, the second control module controls the LED to flash and light.

According to the embodiment of the application, the fault detection sensor is used for carrying out fault detection on the cable and detecting the approach of a person through the biosensor, when the fault of the cable is detected and the person is detected to approach, the sound or light signal fed back by the RFID label on the fault cable is controlled, by adopting the technical means, a manager can timely find the fault cable by feeding back the sound or light signal by the RFID label, so that the self-checking and reminding functions of the cable fault are realized, the intelligence of the cable management process is improved, and the manual investment is reduced. In addition, the RFID label on the fault cable is controlled to feed back the sound or light signals only when people are detected to be close to the fault cable, so that resource waste caused by the fact that the sound or light signals are fed back when no people check the fault cable is avoided, and the electric energy is saved while the intellectualization of cable management is improved.

Drawings

Fig. 1 is a schematic structural diagram of a cable management system according to an embodiment of the present application;

fig. 2 is a schematic connection diagram of an RFID reader and a first control module in the first embodiment of the present application;

FIG. 3 is a schematic diagram illustrating a connection between an RFID reader and an RFID tag according to a first embodiment of the present application;

FIG. 4 is a schematic diagram illustrating the connection of a user management subsystem according to an embodiment of the present application;

fig. 5 is a schematic connection diagram of a site management subsystem in the first embodiment of the present application;

FIG. 6 is a schematic diagram of a connection between an environmental sensor and a communication device according to a first embodiment of the present application;

fig. 7 is a schematic connection diagram of a state detection sensor and a communication device block in the first embodiment of the present application;

FIG. 8 is a schematic view of the system as a whole in accordance with one embodiment of the present application;

fig. 9 is a flowchart of a cable management method according to a second embodiment of the present application.

Detailed Description

In order to make the objects, technical solutions and advantages of the present application more apparent, specific embodiments of the present application will be described in detail with reference to the accompanying drawings. It is to be understood that the specific embodiments described herein are merely illustrative of the application and are not limiting of the application. It should be further noted that, for the convenience of description, only some but not all of the relevant portions of the present application are shown in the drawings. Before discussing exemplary embodiments in more detail, it should be noted that some exemplary embodiments are described as processes or methods depicted as flowcharts. Although a flowchart may describe the operations (or steps) as a sequential process, many of the operations can be performed in parallel, concurrently or simultaneously. In addition, the order of the operations may be re-arranged. The process may be terminated when its operations are completed, but may have additional steps not included in the figure. The processes may correspond to methods, functions, procedures, subroutines, and the like.

The cable management method and system provided by the application aim to enable managers to find out faulty cables in time by feeding back sound or light signals through the RFID tags, so that the self-checking and reminding functions of cable faults are realized, the intelligence of a cable management process is improved, and the manual investment is reduced. In addition, the RFID label on the fault cable is controlled to feed back the sound or light signals only when people are detected to be close to the fault cable, so that resource waste caused by the fact that the sound or light signals are fed back when no people check the fault cable is avoided, and the electric energy is saved while the intellectualization of cable management is improved. For traditional cable management system, its the majority is manual management or semi-intellectuality, and artifical participation degree is higher, and intelligent degree is lower relatively, carries out cable management not only inefficiency through the manual work, and the cost is also higher relatively, and semi-intelligent cable management system also needs a large amount of human input, leads to cable management to have the problem that the managerial efficiency is not high. Therefore, the cable management method provided by the embodiment of the application is provided to solve the problem that the existing cable management system is low in intelligent degree.

The first embodiment is as follows:

fig. 1 shows a schematic structural diagram of a cable management system according to an embodiment of the present application, where the cable management system provided in this embodiment may be executed by a cable management device, the cable management device may be implemented in a software and/or hardware manner, and the cable management device may be formed by two or more physical entities or may be formed by one physical entity. Generally, the cable management device may be a computer, a mobile phone, or the like.

Referring to fig. 1, the cable management system specifically includes:

the system comprises a cloud server, a cable subsystem and a management subsystem, wherein the cable subsystem comprises a fault detection sensor and a biosensor; the cable subsystem is used for sending fault information detected by the fault detection sensor to the cloud server and controlling an RFID label on a fault cable to feed back an acoustic or optical signal when the biosensor detects that a person approaches; the cloud server is used for receiving the fault information sent by the cable subsystem and sending the fault information to the management subsystem; and the management subsystem is used for receiving the fault information sent by the cloud server and displaying the fault information on a corresponding menu directory.

Specifically, the fault detection sensor is arranged on each cable, the biosensor is arranged in a certain cable area, and the fault detection sensor and the biosensor are connected with a controller. The fault detection sensor is used for periodically detecting the cable within a preset time interval and sending detection result information to the controller, and the biosensor is used for periodically detecting the approach of people within a preset cable area within the preset time interval and sending the detected result information to the controller. And the controller is used for performing fault reminding processing according to the fault detection result and the human approach detection result. When the fault cable is detected to exist, and when people are detected to approach the preset area range to which the fault cable belongs, the RFID label on the fault cable is controlled to emit sound or light signals to remind people entering the area range to which the fault cable belongs to pay attention.

Illustratively, the biosensor detects that a person approaches the preset cable area range for the biosensor to detect that the person enters the preset cable area range. The biosensor is used for regularly detecting the approach of people in a preset cable area range within a preset time interval and sending detected result information to the controller. The method comprises the steps that the biosensors are arranged on a cable bundle every 20 meters, the preset cable area range is a radiation ball area with the radius of 10 meters by taking each biosensor as a circle center, and the detection range of the biosensors is the preset area range. When a person is detected to enter the preset cable area range through the biosensor and cable fault information is detected in the corresponding preset cable area range, the controller controls the RFID tag on the fault cable in the corresponding preset cable area range to carry out sound or light signals. For example, one of the biosensors is taken as a center of a circle, the preset cable area range is a radiation range area with the radius of 10 meters, in the cable area range, a fault detection sensor detects that a cable with an RFID tag A has a fault, fault information is sent to a controller, when a worker enters the circular area with the biosensor as the center of a circle and the radius of 10 meters, the biosensor sends detected person approaching information to the controller, and the controller controls an RFID on the faulty cable with the RFID tag A to emit a 'drip' sound or emit flashing light to attract the attention of the worker entering the area, so that the warning effect is achieved.

In an embodiment, the cable subsystem is configured to send fault information detected by the fault detection sensor to a cloud server through a communication device, and the cloud server is configured to receive the fault information sent by the cable subsystem and send the fault information to the management subsystem; and the management subsystem is used for receiving the fault information sent by the cloud server and displaying the fault information on a corresponding fault menu directory.

In one embodiment, the proximity of the person is detected by the biosensor when the proximity of the person is detected by the biosensor. When the fault detection sensor detects fault information but the biosensor in the preset cable area range does not detect the approach of a person, the controller does not control the RFID tag on the fault cable to emit an acoustic or optical signal. The controller is used for controlling the RFID label on the fault cable to emit sound or light signals when fault information detected by the fault detection sensor and human approach information detected by the biosensor are received at the same time. Through detecting someone entering preset cable region and just carrying out the trouble and reminding, the wasting of resources that leads to when having avoided unmanned entering carries out the trouble and reminds to the energy has been saved when improving cable management system intellectuality, and then improves cable management system's life, has further improved the saving of the energy.

Fig. 2 is a schematic connection diagram of an RFID reader and a first control module in a first embodiment of the present application, and referring to fig. 2, the cable subsystem further includes an RFID reader and a first control module; the RFID tag is fixedly arranged on each cable, the RFID tag comprises cable information, and the cable information comprises cable names and installation position information; the first control module is used for sending a positioning request instruction to the RFID reader-writer when the fault detection sensor detects fault information and the biosensor detects that a person approaches; the RFID reader-writer is used for communicating with the RFID label in an induction range, receiving a positioning request instruction sent by a first control module in the cable system, and sending a positioning request signal to the RFID label on the cable with the fault in a wireless mode according to the positioning request instruction; and the RFID tag is used for feeding back an acoustic or optical signal when receiving the positioning request signal sent by the RFID reader-writer. Through when the fault detection sensor detects fault information and detects that a person is close to through the biosensor, the RFID tag is controlled to feed back sound or light signals to remind the fault cable position that is close to the person and corresponds, the manual work is avoided to seek the fault cable, the time for seeking the fault cable position is reduced, the functions of cable self-checking and intelligent reminding are realized, the processing efficiency of cable faults is greatly improved, and the intelligent degree of a cable management system is further improved.

Specifically, fig. 3 is a schematic connection diagram of an RFID reader and an RFID tag in a first embodiment of the present application, and referring to fig. 3, the RFID reader includes a clock, a power supply, a first radio frequency module and a first antenna, where the first radio frequency module is connected to the clock, the power supply and the first antenna; the RFID tag comprises a second radio frequency module, a second antenna, a second control module, a memory and an LED, wherein the second antenna is connected with the second radio frequency module, and the control module is connected with the second radio frequency module, the memory and the LED; the RFID reader-writer is used for receiving a positioning request signal sent by communication equipment through a first antenna and sending the positioning request signal to the RFID label through a first radio frequency module and the first antenna; the RFID label is used for receiving the signal sent by the RFID reader through the second antenna and then transmitting the signal to the second control module through the second radio frequency module, and the information received by the second control module end is interpreted: if the request is a reading request, the information stored in the memory is sent to the RFID reader-writer through the second radio frequency module and the second antenna; if the request is a write request, the second control module rewrites the storage information in the memory; and if the positioning request is received, the second control module controls the LED to flash and light. In this embodiment, through when being close to through detecting cable trouble and people, control LED scintillation is lighted to remind the trouble cable position that is close to personnel and corresponds, avoided the manual work to seek the trouble cable, reduced the time of seeking the trouble cable position, realized cable self-checking and intelligence and reminded the function, improved the treatment effeciency of cable trouble greatly, further promoted cable management system's intelligent degree.

Fig. 4 is a schematic connection diagram of a subscriber management subsystem in a first embodiment of the present application, and referring to fig. 4, the cable management system further includes the subscriber management subsystem; the user management subsystem is used for receiving an administrator adding, modifying or deleting instruction sent by the management subsystem, executing corresponding operation according to the administrator adding, modifying or deleting instruction, and sending execution result information to the management subsystem; the management subsystem is also used for receiving the execution result information of adding, modifying and deleting the administrator sent by the user management subsystem, and displaying the execution result information in the corresponding administrator menu directory.

Specifically, the user management subsystem is configured to manage an administrator, and when a background administrator of the system needs to be modified, the management subsystem is configured to generate a corresponding modification instruction, such as an instruction for adding, modifying, or deleting the administrator, when an input modification operation of the administrator is detected, and send the modification instruction to the user management subsystem, and the user management subsystem is configured to receive the modification instruction, execute the corresponding administrator modification operation according to the modification instruction, and feed back an operation result to the management subsystem; and the management subsystem is also used for receiving operation result feedback sent by the user management subsystem and updating and displaying the operation result feedback in a corresponding administrator menu directory.

Illustratively, if an administrator pool is added according to actual needs, the management subsystem is configured to generate a corresponding instruction for adding the administrator pool according to the detected administrator input operation, send the instruction to the user management subsystem, and receive an operation result fed back by the user subsystem. The administrator input operation can be that the newly added administrator adds some personal information into the corresponding menu page according to the corresponding added administrator input entry, and the personal information and the instruction for adding the administrator together are packed and sent to the user management subsystem. The user management system is used for receiving an instruction of adding a certain manager sent by the management subsystem, executing the certain manager, allowing the certain manager to perform corresponding operation authority, and feeding back an instruction execution result to the management subsystem. And the user management subsystem is also used for executing the instruction after receiving the instruction of adding a certain administrator to generate information such as a corresponding personal login account number of the certain administrator and a corresponding initial login password, packaging the personal login account number and the corresponding initial login password information together with the operation result information and sending the packaged information to the management subsystem. The management subsystem is also used for updating and displaying the administrator information in the corresponding administrator menu directory, for example, the newly added administrator list is updated and displayed with the related information content.

Fig. 5 is a schematic connection diagram of a site management subsystem in a first embodiment of the present application, and referring to fig. 5, the cable management system further includes a site management subsystem, where the site management subsystem is configured to display all site information on a map through a display, receive a modification request instruction from the cloud server to a site, execute a corresponding site modification operation according to the modification request instruction, and update the modified site to the map of the display. And the management subsystem is also used for generating a corresponding site modification instruction according to the input operation of the administrator and sending the site modification instruction to the cloud server. The cloud server is further configured to receive a site modification instruction sent by the management subsystem, and forward the instruction to the site management subsystem.

Specifically, the site subsystem is used for dotting and displaying all site information on a map in the display, and each point which is dotted and displayed on the map represents one site. The site subsystem is further configured to execute corresponding site modification operations, such as adding, deleting, or modifying sites, according to the received modification instruction. The management subsystem is used for generating a corresponding site modification instruction according to the operation of modifying the site corresponding to the input of the administrator and sending the site modification instruction to the cloud server. The management subsystem is further used for displaying corresponding site information and a modified site operation entry in the corresponding menu directory, an administrator can determine a site input operation entry needing to be modified according to the content of the viewed and displayed site information, enters a corresponding modified content display page through the input operation entry to perform corresponding modification input operation, generates corresponding modification instruction information according to the modification input operation, and sends the modification instruction information to the cloud server. The cloud server is used for receiving the site modification instruction sent by the management subsystem and sending the site modification instruction to the corresponding site management subsystem.

Further, the cable management system further comprises a data acquisition device, the data acquisition device is installed on the cable, and the data acquisition device is used for sending acquired information data to the cloud server through a communication device. The data acquisition equipment comprises an environment sensor and a state detection sensor, wherein the environment sensor is used for acquiring environment parameter data of the cable, and the environment parameter comprises temperature, humidity, light and the like. The state detection sensor is used for detecting the operation data of the cable, and the operation data comprises voltage, current, power data and the like. The cloud server is used for receiving the data acquired by the data acquisition equipment, performing early warning analysis according to the received data, and sending an early warning analysis result and the data acquired by the data acquisition equipment to the management subsystem together. The management subsystem is used for displaying the detailed information of the data acquisition equipment and the specific data acquired by each corresponding data acquisition equipment in the corresponding menu directory through a display, and is also used for displaying the specific content of the early warning analysis result in the data acquisition equipment menu directory corresponding to the display. The management subsystem is further used for generating a modification request instruction of the corresponding data acquisition equipment through input operation of an administrator, sending the modification request instruction of the data acquisition equipment to the cloud server, and receiving instruction operation result feedback sent by the cloud server.

Illustratively, the management subsystem is further configured to perform a modification operation on the corresponding data acquisition device through a modification operation input entry in a menu directory of the data acquisition device corresponding to the display, generate a corresponding modification instruction according to the modification input operation, and send the modification instruction to the cloud server. The modification operation comprises addition, deletion or modification of the data acquisition equipment. Taking the temperature acquisition device as an example, the management subsystem is configured to display detailed information of the corresponding temperature acquisition device in a menu directory of the data acquisition device corresponding to the display, and store a modification input entry corresponding to the temperature acquisition device for an administrator to perform a corresponding modification input operation. The management subsystem is also used for carrying out input operation corresponding to the temperature increasing acquisition equipment according to the input entry of the temperature increasing acquisition equipment by an administrator, generating a corresponding instruction for increasing the temperature acquisition equipment according to the input operation and sending the instruction for increasing the temperature acquisition equipment to the cloud server. The cloud server is used for receiving the instruction of adding the temperature acquisition equipment sent by the management subsystem and feeding back an instruction execution result to the management subsystem. And the management subsystem is also used for receiving the execution result fed back by the cloud service and updating and displaying according to the fed back execution result. For example, if the increase is successful, the corresponding information of the newly added temperature collection device is displayed in the menu list of the corresponding temperature collection device.

Fig. 6 is a schematic connection diagram of an environmental sensor and a communication device in the first embodiment of the present application, and referring to fig. 6, the cable subsystem further includes the environmental sensor and the communication device; the environment sensor is used for acquiring environment parameter data of the cable and sending the acquired environment parameter data to the cloud server through communication equipment, and the environment parameters comprise humidity, light and temperature; the cloud server is further used for receiving the environmental parameter data sent by the communication equipment and forwarding the environmental parameter data to the management subsystem; and the management subsystem is also used for receiving the environmental parameter data sent by the cloud server and updating and displaying the environmental parameter data in the corresponding menu directory. The cloud server is also used for carrying out environment early warning analysis according to the received environment parameter data and sending an environment early warning analysis result to the management subsystem; and the management subsystem is also used for receiving the early warning analysis result and updating and displaying the early warning analysis result in a corresponding early warning analysis menu directory.

Fig. 7 is a connection diagram of a state detection sensor and a communication device block in the first embodiment of the present application, referring to fig. 7, the cable subsystem further includes a state detection sensor and a communication device; the state detection sensor is used for detecting running state data of the cable and sending the running state data to the cloud server through communication equipment; the cloud server is further used for receiving the running state data sent by the communication equipment, performing state early warning analysis according to the received running state data, and sending the running state data and a state early warning analysis result to the management subsystem; and the management subsystem is also used for receiving the running state data and the state early warning analysis result sent by the cloud server and updating and displaying the running state data and the state early warning analysis result in a corresponding early warning analysis menu directory.

Furthermore, the environment of the cable and the running state information data of the cable are monitored, the acquired environment data and the collected running data are subjected to data analysis through the cloud server background to obtain corresponding early warning analysis results, corresponding early warning prompt is carried out on the cable management system, corresponding obstacle prevention measures can be made for a manager, the probability of cable obstacle occurrence is reduced, and the intelligent degree of the cable management system is improved. In addition, the menu directory is used for displaying corresponding displays for stations, data acquisition equipment, an administrator and the like, so that the administrator can clearly know the specific conditions of the stations and the data acquisition equipment, the management process of the whole cable management system is more systematized, and the intelligence level of the cable management system is improved.

In an embodiment, the management subsystem is further configured to send operation record information content of the cable to the cloud server; the cloud server is also used for receiving the operation record information content of the cable sent by the management subsystem and storing the operation record information content into the internal memory. The management system is used for inputting operation record contents of the cable through input operation of an administrator and sending newly input record information to the cloud server, and the cloud server is used for receiving the newly input record information and storing the newly input record information into an internal memory. The management subsystem is also used for updating and displaying the operation record information content of the cable to the corresponding operation record directory.

In one embodiment, the management subsystem includes a display, and the display includes a plurality of menu directories, including an administrator menu directory, a site menu directory, a data collection device directory, a cable operation record directory, an early warning analysis directory, and the like.

Fig. 8 is an overall schematic view of a system in the first embodiment of the present application, and referring to fig. 8, the cable management system includes a cloud server, a user management subsystem, a site management subsystem, a management subsystem, and a cable subsystem; the cable subsystem comprises a fault detection sensor, a biosensor, an environment sensor, communication equipment, a state detection sensor, a first control module, an RFID reader-writer and an RFID label; the RFID read-write module comprises a power supply, a clock, a read-write module, a first radio frequency module and a first antenna; the RFID tag includes a second antenna, a second radio frequency module, a second controller, a memory, and an LED.

Specifically, the cable subsystem is configured to send fault information detected by a fault detection sensor to the cloud server, and control an RFID tag on a faulty cable to feed back an acoustic or optical signal when the biosensor detects that a person approaches the faulty cable; the cloud server is used for receiving the fault information sent by the cable subsystem and sending the fault information to the management subsystem; and the management subsystem is used for receiving the fault information sent by the cloud server and displaying the fault information on a corresponding menu directory. The environment sensor is used for acquiring environment parameter data of the cable and sending the acquired environment parameter data to the cloud server through communication equipment, and the environment parameters comprise humidity, light and temperature; the cloud server is further used for receiving the environmental parameter data sent by the communication equipment and forwarding the environmental parameter data to the management subsystem; and the management subsystem is also used for receiving the environmental parameter data sent by the cloud server and updating and displaying the environmental parameter data in the corresponding menu directory. The cloud server is also used for carrying out environment early warning analysis according to the received environment parameter data and sending an environment early warning analysis result to the management subsystem; and the management subsystem is also used for receiving the early warning analysis result and updating and displaying the early warning analysis result in a corresponding menu directory. The state detection sensor is used for detecting running state data of the cable and sending the running state data to the cloud server through communication equipment; the cloud server is further used for receiving the running state data sent by the communication equipment, performing state early warning analysis according to the received running state data, and sending the running state data and a state early warning analysis result to the management subsystem; and the management subsystem is also used for receiving the running state data and the state early warning analysis result sent by the cloud server and updating and displaying the running state data and the state early warning analysis result in a corresponding menu directory. The user management subsystem is used for receiving an administrator adding, modifying or deleting instruction sent by the management subsystem, executing corresponding operation according to the administrator adding, modifying or deleting instruction, and sending execution result information to the management subsystem; the management subsystem is also used for receiving the execution result information of the addition, modification and deletion manager sent by the user management subsystem, and displaying the execution result information in the corresponding menu directory. The site management subsystem is used for displaying all site information on a map through a display, receiving a modification request instruction of the cloud server to a site, executing corresponding site modification operation according to the modification request instruction, and updating the modified site to the map of the display; the management subsystem is also used for generating a corresponding site modification instruction according to the input operation of the administrator and sending the site modification instruction to the cloud server; the cloud server is further configured to receive a site modification instruction sent by the management subsystem, and forward the instruction to the site management subsystem. The management subsystem is also used for sending the operation record information content of the cable to the cloud server; the cloud server is also used for receiving the operation record information content of the cable sent by the management subsystem and storing the operation record information content into the internal memory.

Further, the RFID tag is fixedly mounted on each cable, the RFID tag includes cable information, and the cable information includes a cable name and mounting position information; the first control module is used for sending a positioning request instruction to the RFID reader-writer when the fault detection sensor detects fault information and the biosensor detects that a person approaches; the RFID reader-writer is used for communicating with the RFID label in an induction range, receiving a positioning request instruction sent by a first control module in the cable system, and sending a positioning request signal to the RFID label on the cable with the fault in a wireless mode according to the positioning request instruction; and the RFID tag is used for feeding back an acoustic or optical signal when receiving the positioning request signal sent by the RFID reader-writer.

Furthermore, the RFID reader-writer comprises a clock, a power supply, a first radio frequency module and a first antenna, wherein the first radio frequency module is connected with the clock, the power supply and the first antenna; the RFID tag comprises a second radio frequency module, a second antenna, a second control module, a memory and an LED, wherein the second antenna is connected with the second radio frequency module, and the control module is connected with the second radio frequency module, the memory and the LED; the RFID reader-writer is used for receiving a positioning request signal sent by communication equipment through a first antenna and sending the positioning request signal to the RFID label through a first radio frequency module and the first antenna; the RFID label is used for receiving the signal sent by the RFID reader through the second antenna and then transmitting the signal to the second control module through the second radio frequency module, and the information received by the second control module end is interpreted: if the request is a reading request, the information stored in the memory is sent to the RFID reader-writer through the second radio frequency module and the second antenna; if the request is a write request, the second control module rewrites the storage information in the memory; and if the positioning request is received, the second control module controls the LED to flash and light.

Above-mentioned, carry out fault detection and detect to the cable through the fault detection sensor and be close to the people through biosensor, control RFID label feedback sound or light signal on the trouble cable when detecting the cable and breaking down and detecting the people and be close to, adopt above-mentioned technical means, make managers can in time discover the trouble cable through RFID label feedback sound or light signal to realize the self-checking of cable trouble and remind the function, improved the intellectuality of cable management process, reduced artificial input. In addition, the RFID label on the fault cable is controlled to feed back the sound or light signals only when people are detected to be close to the fault cable, so that resource waste caused by the fact that the sound or light signals are fed back when no people check the fault cable is avoided, and the electric energy is saved while the intellectualization of cable management is improved.

Example two:

on the basis of the foregoing embodiments, fig. 9 is a flowchart of a cable management method provided in an embodiment of the present application, where the cable management method provided in this embodiment may be executed by a cable management device, the cable management device may be implemented in a software and/or hardware manner, and the cable management device may be formed by two or more physical entities or may be formed by one physical entity. Generally, the cable management device may be a mobile terminal, such as a smart phone, a computer, a tablet, and the like.

The following description takes a smartphone APP as an example of a main body of a cable management method. Referring to fig. 9, the cable management method specifically includes:

s101, fault detection is carried out on the cable.

Specifically, the cable is subjected to fault detection through a fault detection sensor, and the fault detection sensor and the biosensor are connected with a controller. The fault detection sensor is used for periodically detecting the cable within a preset time interval and sending detection result information to the controller.

And S102, when the cable is detected to have a fault, the fault information is sent to a cloud server side.

Specifically, when a cable fault is detected, a detection result is sent to the controller, and fault information is sent to the cloud server through the communication device.

And S103, sending the fault information to an application terminal through a cloud server terminal for displaying.

Specifically, information is forwarded through the cloud server, and the fault information is sent to an application terminal, so that the fault information is updated and displayed on an application terminal APP.

S104, detecting the approach of a person through a biosensor, and controlling the RFID label on the cable with the fault to feed back a light signal when the approach of the person is detected.

Specifically, the approach detection of a person is periodically performed within a preset cable area range within a preset time interval through a biosensor, and detected result information is sent to the controller. And performing fault reminding processing according to the fault detection result and the human approach detection result. When the existence of a fault cable is detected, and when people are detected to approach the region range where the fault cable is located, the RFID label on the fault cable is controlled to emit sound or light signals to remind people entering the region range where the fault cable belongs to pay attention.

Further, receiving an instruction for adding, modifying or deleting an administrator, which is sent by a management subsystem, executing corresponding operation according to the instruction for adding, modifying or deleting the administrator, and sending execution result information to the management subsystem; and receiving the execution result information of the addition, modification and deletion administrator sent by the user management subsystem, and displaying the execution result information in the corresponding menu directory.

Further, displaying all site information on a map through a display, receiving a modification request instruction of the cloud server to a site, executing corresponding site modification operation according to the modification request instruction, and updating the modified site to the map of the display; generating a corresponding site modification instruction according to the input operation of the administrator and sending the site modification instruction to the cloud server; and receiving a site modification instruction sent by the management subsystem, and forwarding the instruction to the site management subsystem.

Further, collecting environmental parameter data of the cable, and sending the collected environmental parameter data to the cloud server through communication equipment, wherein the environmental parameters comprise humidity, light and temperature; receiving environment parameter data sent by the communication equipment and forwarding the environment parameter data to the management subsystem; and receiving the environmental parameter data sent by the cloud server, and updating and displaying the environmental parameter data in the corresponding menu directory.

Further, performing environment early warning analysis according to the received environment parameter data, and sending an environment early warning analysis result to the management subsystem; and receiving the early warning analysis result, and updating and displaying the early warning analysis result in a corresponding menu directory.

Furthermore, the cable subsystem further comprises an RFID reader-writer and a first control module; the RFID tag is fixedly arranged on each cable, the RFID tag comprises cable information, and the cable information comprises cable names and installation position information; when the fault detection sensor detects fault information and the biosensor detects that a person approaches, a positioning request instruction is sent to the RFID reader-writer; the RFID reader-writer communicates with the RFID label within the sensing range, receives a positioning request instruction sent by a first control module in the cable system, and sends a positioning request signal to the RFID label on the cable with the fault in a wireless mode according to the positioning request instruction; and when receiving the positioning request signal sent by the RFID reader-writer, feeding back an acoustic or optical signal.

Further, the cable subsystem further comprises a state detection sensor and a communication device; the state detection sensor is used for detecting running state data of the cable and sending the running state data to the cloud server through communication equipment; receiving the running state data sent by the communication equipment, performing state early warning analysis according to the received running state data, and sending the running state data and a state early warning analysis result to the management subsystem; and receiving the running state data and the state early warning analysis result sent by the cloud server, and updating and displaying the running state data and the state early warning analysis result in a corresponding menu directory. Further, the operation record information content of the cable is sent to the cloud server; and receiving the operation record information content of the cable sent by the management subsystem and storing the operation record information content into an internal memory.

Furthermore, the RFID reader-writer comprises a clock, a power supply, a first radio frequency module and a first antenna, wherein the first radio frequency module is connected with the clock, the power supply and the first antenna; the RFID tag comprises a second radio frequency module, a second antenna, a second control module, a memory and an LED, wherein the second antenna is connected with the second radio frequency module, and the control module is connected with the second radio frequency module, the memory and the LED; the first antenna receives a positioning request signal sent by communication equipment and sends the positioning request signal to the RFID tag through the first radio frequency module and the first antenna; after receiving the signal sent by the RFID reader-writer through the second antenna, transmitting the signal to a second control module through a second radio frequency module, and reading the information received by a second control module end: if the request is a reading request, the information stored in the memory is sent to the RFID reader-writer through the second radio frequency module and the second antenna; if the request is a write request, the second control module rewrites the storage information in the memory; and if the positioning request is received, the second control module controls the LED to flash and light.

Above-mentioned, carry out fault detection and detect to the cable through the fault detection sensor and be close to the people through biosensor, control RFID label feedback sound or light signal on the trouble cable when detecting the cable and breaking down and detecting the people and be close to, adopt above-mentioned technical means, make managers can in time discover the trouble cable through RFID label feedback sound or light signal to realize the self-checking of cable trouble and remind the function, improved the intellectuality of cable management process, reduced artificial input. In addition, the RFID label on the fault cable is controlled to feed back the sound or light signals only when people are detected to be close to the fault cable, so that resource waste caused by the fact that the sound or light signals are fed back when no people check the fault cable is avoided, and the electric energy is saved while the intellectualization of cable management is improved.

The cable management method provided by the second embodiment of the present application can be executed by the cable management system provided by the first embodiment, and has corresponding functions and beneficial effects.

The foregoing is considered as illustrative of the preferred embodiments of the invention and the technical principles employed. The present application is not limited to the particular embodiments described herein, but is capable of various obvious changes, rearrangements and substitutions as will now become apparent to those skilled in the art without departing from the scope of the invention. Therefore, although the present application has been described in more detail with reference to the above embodiments, the present application is not limited to the above embodiments, and may include other equivalent embodiments without departing from the spirit of the present application, and the scope of the present application is determined by the scope of the claims.

Claims (10)

1. A cable management system, comprising:

the system comprises a cloud server, a cable subsystem and a management subsystem, wherein the cable subsystem comprises a fault detection sensor and a biosensor;

the cable subsystem is used for sending fault information detected by the fault detection sensor to the cloud server and controlling an RFID label on a fault cable to feed back an acoustic or optical signal when the biosensor detects that a person approaches;

the cloud server is used for receiving the fault information sent by the cable subsystem and sending the fault information to the management subsystem;

and the management subsystem is used for receiving the fault information sent by the cloud server and displaying the fault information on a corresponding menu directory.

2. The cable management system of claim 1, further comprising a customer management subsystem;

the user management subsystem is used for receiving an administrator adding, modifying or deleting instruction sent by the management subsystem, executing corresponding operation according to the administrator adding, modifying or deleting instruction, and sending execution result information to the management subsystem;

the management subsystem is also used for receiving the execution result information of the addition, modification and deletion manager sent by the user management subsystem, and displaying the execution result information in the corresponding menu directory.

3. The cable management system of claim 1, further comprising a site management subsystem;

the site management subsystem is used for displaying all site information on a map through a display, receiving a modification request instruction of the cloud server to a site, executing corresponding site modification operation according to the modification request instruction, and updating the modified site to the map of the display;

the management subsystem is also used for generating a corresponding site modification instruction according to the input operation of the administrator and sending the site modification instruction to the cloud server;

the cloud server is further configured to receive a site modification instruction sent by the management subsystem, and forward the instruction to the site management subsystem.

4. The cable management system of claim 1, wherein the cable subsystem further includes environmental sensors and communication devices;

the environment sensor is used for acquiring environment parameter data of the cable and sending the acquired environment parameter data to the cloud server through communication equipment, and the environment parameters comprise humidity, light and temperature;

the cloud server is further used for receiving the environmental parameter data sent by the communication equipment and forwarding the environmental parameter data to the management subsystem;

and the management subsystem is also used for receiving the environmental parameter data sent by the cloud server and updating and displaying the environmental parameter data in the corresponding menu directory.

5. The cable management system according to claim 4, wherein the cloud server is further configured to perform an environmental early warning analysis according to the received environmental parameter data, and send an environmental early warning analysis result to the management subsystem;

and the management subsystem is also used for receiving the early warning analysis result and updating and displaying the early warning analysis result in a corresponding menu directory.

6. The cable management system of claim 1, wherein the cable subsystem further includes an RFID reader and a first control module;

the RFID tag is fixedly arranged on each cable, the RFID tag comprises cable information, and the cable information comprises cable names and installation position information;

the first control module is used for sending a positioning request instruction to the RFID reader-writer when the fault detection sensor detects fault information and the biosensor detects that a person approaches;

the RFID reader-writer is used for communicating with the RFID label in an induction range, receiving a positioning request instruction sent by a first control module in the cable system, and sending a positioning request signal to the RFID label on the cable with the fault in a wireless mode according to the positioning request instruction;

and the RFID tag is used for feeding back an acoustic or optical signal when receiving the positioning request signal sent by the RFID reader-writer.

7. The cable management system of claim 1, wherein the cable subsystem further includes a status detection sensor and a communication device;

the state detection sensor is used for detecting running state data of the cable and sending the running state data to the cloud server through communication equipment;

the cloud server is further used for receiving the running state data sent by the communication equipment, performing state early warning analysis according to the received running state data, and sending the running state data and a state early warning analysis result to the management subsystem;

and the management subsystem is also used for receiving the running state data and the state early warning analysis result sent by the cloud server and updating and displaying the running state data and the state early warning analysis result in a corresponding menu directory.

8. The cable management system of claim 1, wherein the management subsystem is further configured to send operation record information content for the cable to the cloud server;

the cloud server is also used for receiving the operation record information content of the cable sent by the management subsystem and storing the operation record information content into the internal memory.

9. The cable management system of claim 6,

the RFID reader-writer comprises a clock, a power supply, a first radio frequency module and a first antenna, wherein the first radio frequency module is connected with the clock, the power supply and the first antenna;

the RFID tag comprises a second radio frequency module, a second antenna, a second control module, a memory and an LED, wherein the second antenna is connected with the second radio frequency module, and the control module is connected with the second radio frequency module, the memory and the LED;

the RFID reader-writer is used for receiving a positioning request signal sent by communication equipment through a first antenna and sending the positioning request signal to the RFID label through a first radio frequency module and the first antenna;

the RFID label is used for receiving the signal sent by the RFID reader through the second antenna and then transmitting the signal to the second control module through the second radio frequency module, and the information received by the second control module end is interpreted: if the request is a reading request, the information stored in the memory is sent to the RFID reader-writer through the second radio frequency module and the second antenna; if the request is a write request, the second control module rewrites the storage information in the memory; and if the positioning request is received, the second control module controls the LED to flash and light.

10. A cable management method, comprising:

carrying out fault detection on the cable;

when a cable is detected to have a fault, the fault information is sent to a cloud server side;

sending the fault information to an application terminal through a cloud server terminal for displaying;

people approach detection is carried out through the biosensor, and when people approach is detected, the RFID label on the cable with the fault is controlled to feed back a light signal.

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