CN110058114B - Intelligent maintenance management wire chase system - Google Patents
Intelligent maintenance management wire chase system Download PDFInfo
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- CN110058114B CN110058114B CN201910418089.6A CN201910418089A CN110058114B CN 110058114 B CN110058114 B CN 110058114B CN 201910418089 A CN201910418089 A CN 201910418089A CN 110058114 B CN110058114 B CN 110058114B
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- G—PHYSICS
- G01—MEASURING; TESTING
- G01H—MEASUREMENT OF MECHANICAL VIBRATIONS OR ULTRASONIC, SONIC OR INFRASONIC WAVES
- G01H17/00—Measuring mechanical vibrations or ultrasonic, sonic or infrasonic waves, not provided for in the preceding groups
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- G—PHYSICS
- G01—MEASURING; TESTING
- G01L—MEASURING FORCE, STRESS, TORQUE, WORK, MECHANICAL POWER, MECHANICAL EFFICIENCY, OR FLUID PRESSURE
- G01L5/00—Apparatus for, or methods of, measuring force, work, mechanical power, or torque, specially adapted for specific purposes
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- G—PHYSICS
- G01—MEASURING; TESTING
- G01R—MEASURING ELECTRIC VARIABLES; MEASURING MAGNETIC VARIABLES
- G01R31/00—Arrangements for testing electric properties; Arrangements for locating electric faults; Arrangements for electrical testing characterised by what is being tested not provided for elsewhere
- G01R31/50—Testing of electric apparatus, lines, cables or components for short-circuits, continuity, leakage current or incorrect line connections
Abstract
The invention provides an intelligent maintenance management wire chase system, and belongs to the technical field of wire chase systems. The intelligent maintenance management wire slot system comprises a wire slot body, a suspension structure, a top cover, a first stress meter, a first electric leakage detector, a first positioning unit, a first control unit, a remote processing unit, an alarm, a mobile terminal, a first communication unit and a second communication unit. When the first real-time stress is larger than the first preset stress or the first real-time leakage amount is larger than the first preset leakage amount, the remote processing unit sends a 'wire casing body alarm' instruction to the first control unit and sends a first real-time position 'wire casing body fault' signal to the mobile terminal, the first control unit receives the 'wire casing body' instruction to control the alarm to give an alarm, a user who is not on the spot is reminded, the user who is not on the spot finds out a preset wire casing body with the 'wire casing body fault' according to the first real-time position, and the maintenance efficiency is improved.
Description
Technical Field
The invention belongs to the technical field of a wire slot system, and relates to an intelligent maintenance management wire slot system.
Background
The cable is arranged in the building, and is arranged in the wire slot for safety and proper management, no problem exists at the initial stage of arrangement, but after long-term maintenance, suspension support falling off can happen, or personnel trample the wire slot during construction, or the cable is pulled again for wiring to destroy a fireproof division, and the cable cannot be restored immediately, so that the fire disaster cannot be controlled, the personnel sense electricity, or the accident is hit by the flying objects of the wire slot.
Disclosure of Invention
Aiming at the problems in the prior art, the invention provides an intelligent maintenance management wire slot system, which aims to solve the technical problems that: how to provide a can detect the first real-time stress of wire casing body, first real-time electric leakage quantity and when first real-time stress is greater than first predetermined stress or first real-time electric leakage quantity is greater than first predetermined electric leakage quantity and report to the police intelligent maintenance management wire casing system.
The purpose of the invention can be realized by the following technical scheme:
an intelligent maintenance management wire slot system comprises a wire slot body, a suspension structure used for suspending the wire slot body, a top cover used for covering the wire slot body, a first stress meter used for detecting a first real-time stress on the surface of the wire slot body, a first leakage detector used for detecting a first real-time leakage quantity on the wire slot body, a first positioning unit used for positioning a first real-time position of the wire slot body, a first communication unit used for communicating between the first control unit and a remote processing unit, and a second communication unit used for communicating between the remote processing unit and the mobile terminal, wherein the first positioning unit is used for controlling the first stress meter and the first leakage detector;
the first control unit sends the first real-time leakage amount, the first real-time stress and the first real-time position to the remote processing unit through the first communication unit, the remote processing unit sends a 'wire casing body alarm' instruction to the first control unit and sends a first real-time position 'wire casing body fault' signal to the mobile terminal when the first real-time stress is larger than a first preset stress or the first real-time leakage amount is larger than the first preset leakage amount, and the first control unit receives the 'wire casing body alarm' instruction to control the alarm to alarm.
Preferably, the fire-proof device also comprises a wire casing for fire prevention, a fire-proof plug, a wire guide, a wire switch and a pressure sensor, wherein the wire casing passes through the fire-proof area, the fire-proof plug is arranged on the wire casing which passes through the fire-proof area, one end of the wire guide is connected with the fire-proof plug, and the wire guide can be pulled to drive the fire-proof plug under the stress of the wire guide;
the first control unit sends the first real-time pressure to the remote processing unit, the remote processing unit sends a wireless switch disconnection command to the first control unit when the first real-time pressure is larger than a preset pressure and sends a fireproof packing damage signal to the mobile terminal, and the first control unit receives the wireless switch disconnection command to control the wireless switch to be disconnected.
Preferably, the device also comprises a second stress meter used for detecting second real-time stress at the top end of the top cover, a second electric leakage detector used for detecting second real-time electric leakage quantity on the top cover and a second positioning unit used for positioning a second real-time position of the top cover;
the first control unit sends a top cover trampling alarm command to the first control unit when the second real-time stress is larger than a second preset stress, the remote processing unit sends a top cover electric leakage alarm command to the first control unit when the second real-time stress is larger than the second preset stress, and sends a top cover electric leakage alarm command and a second real-time position to the mobile terminal when the second real-time electric leakage is larger than the second preset electric leakage, and the first control unit controls the alarm to alarm when receiving the top cover trampling alarm command or the top cover electric leakage alarm command.
Preferably, the suspension system further comprises a third stress meter for detecting third real-time stress of the suspension structure, a vibrometer for detecting real-time vibration quantity of the suspension structure and a third positioning unit for detecting a third real-time position of the suspension structure;
first control unit sends third real-time stress, real-time vibration volume and third real-time position to the remote processing unit through communication unit, the remote processing unit sends "climbing warning" instruction when third real-time stress is greater than the third and predetermines the stress and gives first control unit, sends "unusual vibration warning" instruction when real-time vibration volume is greater than predetermineeing the vibration volume and gives first control unit and send "unusual vibration warning" instruction, third real-time position to send to mobile terminal when real-time vibration volume is greater than predetermineeing the vibration volume, first control unit receives "climbing warning" instruction or "unusual vibration warning" instruction control alarm is reported to the police.
Preferably, the remote processing unit includes a database for storing stress, leakage amount and pressure, an optimization model for training the stress, leakage amount and pressure in the database based on an optimization algorithm to obtain optimized stress, leakage amount or pressure, an optimization module for optimizing the first real-time stress to obtain a first optimized stress, optimizing the first real-time leakage amount to obtain a first optimized leakage amount, optimizing the first real-time pressure to obtain a first optimized pressure, optimizing the second real-time stress to obtain a second optimized stress, optimizing the second real-time leakage amount to obtain a second optimized leakage amount, optimizing the third real-time stress to obtain a third optimized stress and optimizing the real-time vibration amount to obtain an optimized vibration amount, and an optimization module for sending a ' trunking body alarm ' command to the first control unit and sending the first real-time position alarm ' command when the first optimized stress is greater than the first preset stress or the first optimized leakage amount is greater than the first preset leakage amount, A 'failure of the wire casing body' signal is sent to the mobile terminal, a 'wireless switch disconnection' instruction is sent to the first control unit when the first optimized pressure is larger than the preset pressure, a 'fireproof packing damage' signal is sent to the mobile terminal, a 'top cover treading alarm' instruction is sent to the first control unit when the second optimized pressure is larger than the second preset pressure, a 'top cover leakage alarm' instruction is sent to the first control unit when the second optimized leakage quantity is larger than the second preset leakage quantity, a 'top cover leakage alarm' instruction is sent to the mobile terminal when the second optimized leakage quantity is larger than the second preset leakage quantity, a 'climbing alarm' instruction is sent to the first control unit when the third optimized pressure is larger than the third preset pressure, an 'abnormal vibration alarm' instruction is sent to the first control unit when the optimized vibration quantity is larger than the preset vibration quantity, an 'abnormal vibration alarm' instruction is sent when the optimized vibration quantity is larger than the preset vibration quantity, a 'abnormal vibration alarm' instruction is sent to the mobile terminal when the optimized vibration quantity, And the third real-time position is sent to a processing module of the mobile terminal.
Preferably, the optimization algorithm is a genetic algorithm, a universal gravitation algorithm, a particle swarm algorithm, an ant colony algorithm or a simulated annealing algorithm.
Preferably, the first communication unit is a Zigbee, Wireless HART, ISA100.11a, Wi-Fi or Bluetooth communication unit.
Preferably, the alarm is a voice alarm.
Preferably, the first positioning unit is a GPS positioning unit.
Preferably, the second communication unit is a Zigbee, Wireless HART, ISA100.11a, Wi-Fi or Bluetooth communication unit.
The first stress meter detects first real-time stress on the wire casing body, the first leakage detector detects first real-time leakage amount on the wire casing body, the remote processing unit sends a wire casing body alarm command to the first control unit and sends a first real-time position and wire casing body fault signal to the mobile terminal when the first real-time stress is greater than a first preset stress or the first real-time leakage amount is greater than the first preset leakage amount, the first control unit receives the wire casing body command to control the alarm to alarm, so that a user on site can be reminded in time, a user off site can be reminded at the same time, the user off site can find a preset wire casing body with the wire casing body fault according to the first real-time position, and the maintenance efficiency is improved.
Drawings
Fig. 1 is a schematic structural view of the present invention.
In the figure: 11-a wire slot body, 111-a first stress meter, 112-a first electric leakage detector, 113-a first positioning unit, 12-a fireproof plug, 121-a pressure sensor, 13-a top cover, 131-a second stress meter, 132-a second electric leakage detector, 133-a second positioning unit, 14-a hanging structure, 141-a third stress meter, 142-a vibrating meter, 143-a third positioning unit, 2-a first control unit, 3-a remote processing unit, 31-a processing module, 32-a database, 33-an optimization module, 4-a first communication unit, 5-a second communication unit, 6-a mobile terminal and 7-an alarm.
Detailed Description
The following are specific embodiments of the present invention and are further described with reference to the drawings, but the present invention is not limited to these embodiments.
Referring to fig. 1, in the embodiment of the intelligent maintenance management slot system, the wire slot comprises a wire slot body 11, a suspension structure 14 for suspending the wire slot body 11, a top cover 13 for covering the wire slot body 11, a first stress meter 111 for detecting a first real-time stress on the surface of the wire slot body 11, a first leakage detector 112 for detecting a first real-time leakage quantity on the wire slot body 11, a first positioning unit 113 for positioning a first real-time position of the wire slot body 11, a first control unit 2 for controlling the first stress meter 111, the first leakage detector 112 and the first positioning unit 113, a remote processing unit 3, an alarm 7 for alarming, a mobile terminal 6, a first communication unit 4 for communicating between the first control unit 2 and the remote processing unit 3, and a second communication unit 5 for communicating between the remote processing unit 3 and the mobile terminal 6;
the first control unit 2 sends the first real-time leakage amount, the first real-time stress and the first real-time position to the remote processing unit 3 through the first communication unit 4, the remote processing unit 3 sends a 'wire slot body 11 alarm' instruction to the first control unit 2 and sends a first real-time position 'wire slot body 11 fault' signal to the mobile terminal 6 when the first real-time stress is greater than a first preset stress or the first real-time leakage amount is greater than the first preset leakage amount, and the first control unit 2 receives the 'wire slot body 11 alarm' instruction to control the alarm 7 to alarm.
Here, the first stress meter 111 detects a first real-time stress on the trunking body 11, the first leakage detector 112 detects a first real-time leakage amount on the trunking body 11, the remote processing unit 3 sends a "trunking body 11 alarm" instruction to the first control unit 2 and sends a first real-time position, "trunking body 11 fault" signal to the mobile terminal 6 when the first real-time stress is greater than a first preset stress or the first real-time leakage amount is greater than the first preset leakage amount, and the first control unit 2 receives the "trunking body 11" instruction to control the alarm 7 to alarm, so that a user on site can be timely reminded, meanwhile, a user not on site can be reminded, the user not on site can find a predetermined trunking body 11 with "trunking body 11 fault" according to the first real-time position, and the maintenance efficiency is improved. The first control unit 2 may be an STM32 single chip microcomputer.
The intelligent maintenance management trunking system in this embodiment may further include a trunking passage fire protection area for fire protection, a fire protection pad 12 disposed on the trunking passage fire protection area, a pullable wire disposed on the trunking passage fire protection area and having one end connected to the fire protection pad 12, the pullable wire being configured to drive the fire protection pad 12 under stress, a wireless switch connected to the pullable wire, the wireless switch being configured to drive the fire protection pad 12 to be disconnected under stress of the pullable wire, and a pressure sensor 121 configured to detect a first real-time pressure on a surface of the fire protection pad 12;
first control unit 2 sends first real-time pressure to remote processing unit 3, and remote processing unit 3 sends "wireless switch disconnection" instruction and gives first control unit 2 and sends "12 damage are clogged in the fire prevention" signal to mobile terminal 6 when first real-time pressure is greater than preset pressure, and first control unit 2 receives "wireless switch disconnection" instruction control wireless switch disconnection, can in time control wireless switch disconnection when 12 disconnection are clogged in the fire prevention, avoids appearing the conflagration emergence.
The intelligent maintenance management trunking system in the embodiment may further include a second stress meter 131 for detecting a second real-time stress on the top end of the top cover 13, a second leakage detector 132 for detecting a second real-time leakage amount on the top cover 13, and a second positioning unit 133 for positioning a second real-time position of the top cover 13;
the first control unit 2 sends a 'top cover 13 treading alarm' instruction to the first control unit 2 when the second real-time stress is larger than a second preset stress, the remote processing unit 3 sends a 'top cover 13 electric leakage alarm' instruction to the first control unit 2 when the second real-time stress is larger than the second preset stress, sends a 'top cover 13 electric leakage alarm' instruction to the first control unit 2 when the second real-time electric leakage is larger than the second preset electric leakage, sends a 'top cover 13 electric leakage alarm' instruction and a second real-time position to the mobile terminal 6, the first control unit 2 controls the alarm 7 to alarm when receiving the 'top cover 13 treading alarm' instruction or the 'top cover 13 electric leakage alarm' instruction, so that a user on site can be reminded in time, meanwhile, a user not on site can be reminded, the user not on site can find a preset top cover 13 with an electric leakage fault according to the second real-time position, the maintenance efficiency is improved.
The intelligent maintenance management trunking system in the embodiment may further include a third stress meter 141 for detecting a third real-time stress of the suspended structure, a vibrating meter 142 for detecting a real-time vibration quantity of the suspended structure, and a third positioning unit 143 for detecting a third real-time position of the suspended structure;
the first control unit 2 can send the third real-time stress, the real-time vibration quantity and the third real-time position to the remote processing unit 3 through the communication unit, the remote processing unit 3 sends a 'climbing alarm' instruction to the first control unit 2 when the third real-time stress is larger than the third preset stress, sends an 'abnormal vibration alarm' instruction to the first control unit 2 when the real-time vibration quantity is larger than the preset vibration quantity, sends an 'abnormal vibration alarm' instruction when the real-time vibration quantity is larger than the preset vibration quantity, and sends the third real-time position to the mobile terminal 6, the first control unit 2 receives the 'climbing alarm' instruction or the 'abnormal vibration alarm' instruction to control the alarm 7 to alarm, so that whether the suspension structure is climbed or abnormally vibrated or not can be known in time, and alarm is given when the suspension structure 14 is climbed or abnormally vibrated.
The remote processing unit 3 may include a database 32 for storing stress, leakage amount, pressure, an optimization model for training stress, leakage amount, pressure in the database 32 based on an optimization algorithm to obtain optimized stress, leakage amount, or pressure, an optimization module for optimizing the first real-time stress by the optimization model to obtain a first optimized stress, optimizing the first real-time leakage amount to obtain a first optimized leakage amount, optimizing the first real-time pressure to obtain a first optimized pressure, optimizing the second real-time stress to obtain a second optimized stress, optimizing the second real-time leakage amount to obtain a second optimized leakage amount, optimizing the third real-time stress to obtain a third optimized stress, and optimizing the real-time vibration amount to obtain an optimized vibration amount, and an optimization module 33 for sending a "warning" command of the raceway body 11 to the first control unit 2 and sending a first real-time position, when the first optimized stress is greater than a first preset stress or the first optimized leakage amount is greater than the first preset leakage amount, A 'failure of the wire casing body 11' signal is sent to the mobile terminal 6, a 'wireless switch disconnection' instruction is sent to the first control unit 2 when the first optimized pressure is larger than the preset pressure, a 'damage of the fireproof packing 12' signal is sent to the mobile terminal 6, a 'top cover 13 treading alarm' instruction is sent to the first control unit 2 when the second optimized pressure is larger than the second preset stress, a 'top cover 13 electric leakage alarm' instruction is sent to the first control unit 2 when the second optimized leakage quantity is larger than the second preset leakage quantity, a 'top cover 13 electric leakage alarm' instruction is sent to the mobile terminal 6 when the second optimized leakage quantity is larger than the second preset leakage quantity, a second real-time position is sent to the first control unit 2, a 'climbing alarm' instruction is sent to the first control unit 2 when the third optimized stress is larger than the third preset stress, an 'abnormal vibration alarm' instruction is sent to the first control unit 2 when the optimized vibration quantity is larger than the preset vibration quantity, And when the optimized vibration quantity is larger than the preset vibration quantity, sending an abnormal vibration alarm instruction and sending the third real-time position to the processing module 31 of the mobile terminal 6. The processing module 31 may be an STM32 single chip microcomputer.
The optimization algorithm can be a genetic algorithm or a universal gravitation algorithm or a particle swarm algorithm or an ant colony algorithm or a simulated annealing algorithm.
The first communication unit 4 may be a Zigbee, Wireless HART, isa100.11a, Wi-Fi, Bluetooth communication unit.
The alarm 7 may be a voice alarm.
The first positioning unit 113 may be a GPS positioning unit. The second positioning unit 133 may be a GPS positioning unit. The third positioning unit 143 may be a GPS positioning unit.
The second communication unit 5 may be a Zigbee, Wireless HART, isa100.11a, Wi-Fi, Bluetooth communication unit.
The specific embodiments described herein are merely illustrative of the spirit of the invention. Various modifications or additions may be made to the described embodiments or alternatives may be employed by those skilled in the art without departing from the spirit or ambit of the invention as defined in the appended claims.
Claims (9)
1. The utility model provides an intelligence maintenance management wire casing system which characterized in that: the wire casing comprises a wire casing body (11), a suspension structure (14) used for suspending the wire casing body (11), a top cover (13) used for covering the wire casing body (11), a first stress meter (111) used for detecting a first real-time stress on the surface of the wire casing body (11), a first leakage detector (112) used for detecting a first real-time leakage amount on the wire casing body (11), a first positioning unit (113) used for positioning a first real-time position of the wire casing body (11), a first communication unit (4) used for controlling the first stress meter (111), the first leakage detector (112), a first control unit (2) of the first positioning unit (113), a remote processing unit (3), an alarm (7) used for alarming, a mobile terminal (6), a first communication unit (4) used for communicating between the first control unit (2) and the remote processing unit (3), and a second communication unit (4) used for communicating between the remote processing unit (3), A second communication unit (5) for performing communication between the mobile terminals (6);
the first control unit (2) sends the first real-time leakage amount, the first real-time stress and the first real-time position to the remote processing unit (3) through the first communication unit (4), the remote processing unit (3) sends a 'wire casing body (11) alarm' instruction to the first control unit (2) and sends a first real-time position 'wire casing body (11) fault' signal to the mobile terminal (6) when the first real-time stress is greater than a first preset stress or the first real-time leakage amount is greater than the first preset leakage amount, and the first control unit (2) receives the 'wire casing body (11) alarm' instruction to control the alarm (7) to alarm;
the fireproof device also comprises a wire casing for fire prevention, a fireproof filling (12) arranged on the wire casing, a wire which is arranged on the wire casing and penetrates through the fireproof area and can be pulled, one end of the wire is connected with the fireproof filling (12), the wire can be pulled and drives the fireproof filling (12) under stress, a wireless switch which is connected with the wire and is used for driving the fireproof filling (12) to be disconnected under stress of the wire and a pressure sensor (121) for detecting a first real-time pressure on the surface of the fireproof filling (12);
the first control unit (2) sends the first real-time pressure to the remote processing unit (3), the remote processing unit (3) sends a wireless switch disconnection command to the first control unit (2) and sends a fireproof packing (12) damage signal to the mobile terminal (6) when the first real-time pressure is larger than the preset pressure, and the first control unit (2) receives the wireless switch disconnection command to control the wireless switch to be disconnected.
2. The intelligent maintenance management trunking system of claim 1 further comprising: the second stress meter (131) is used for detecting second real-time stress at the top end of the top cover (13), the second electric leakage detector (132) is used for detecting second real-time electric leakage quantity on the top cover (13), and the second positioning unit (133) is used for positioning a second real-time position of the top cover (13);
the first control unit (2) sends a second real-time stress, a second real-time leakage amount and a second real-time position to the remote processing unit (3), the remote processing unit (3) sends a top cover (13) trampling alarm instruction to the first control unit (2) when the second real-time stress is larger than a second preset stress, sends a top cover (13) leakage alarm instruction to the first control unit (2) when the second real-time leakage amount is larger than the second preset leakage amount, and sends a top cover (13) leakage alarm instruction and a second real-time position to the mobile terminal (6) when the second real-time leakage amount is larger than the second preset leakage amount, and the first control unit (2) controls the alarm (7) to alarm when receiving the top cover (13) trampling alarm instruction or the top cover (13) leakage alarm instruction.
3. The intelligent maintenance management trunking system of claim 2 wherein: the suspension structure stress monitoring system further comprises a third stress meter (141) used for detecting third real-time stress of the suspension structure, a vibrating meter (142) used for detecting real-time vibration quantity of the suspension structure and a third positioning unit (143) used for detecting a third real-time position of the suspension structure;
first control unit (2) send third real-time stress, real-time vibration volume and third real-time position to remote processing unit (3) through communication unit, remote processing unit (3) send "climbing warning" instruction when third real-time stress is greater than the third and predetermine the stress for first control unit (2), send "unusual vibration warning" instruction when real-time vibration volume is greater than predetermine the vibration volume and give first control unit (2) and send "unusual vibration warning" instruction, third real-time position to send to mobile terminal (6) when real-time vibration volume is greater than predetermine the vibration volume, "climbing warning" instruction or "unusual vibration warning" instruction control alarm (7) are reported to the police in first control unit (2).
4. The intelligent maintenance management trunking system of claim 3 wherein: the remote processing unit (3) comprises a database (32) used for storing stress, leakage amount and pressure, an optimization model used for training the stress, leakage amount and pressure in the database (32) based on an optimization algorithm to obtain respectively optimized stress, leakage amount or pressure, an optimization module (33) used for respectively optimizing first real-time stress through the optimization model to obtain first optimized stress, optimizing first real-time leakage amount to obtain first optimized leakage amount, optimizing first real-time pressure to obtain first optimized pressure, optimizing second real-time stress to obtain second optimized stress, optimizing second real-time leakage amount to obtain second optimized leakage amount, optimizing third real-time stress to obtain third optimized stress and optimizing real-time vibration amount to obtain optimized vibration amount, and an optimization module used for sending a ' wire casing body (11) alarm ' instruction to the first control unit (2) and sending a second wire casing body (11) alarm ' instruction when the first optimized stress is larger than the first preset stress or the first optimized leakage amount is larger than the first preset leakage amount A real-time position, a 'failure of the wire casing body (11)' signal is sent to the mobile terminal (6), a 'wireless switch disconnection' instruction is sent to the first control unit (2) when the first optimized pressure is larger than the preset pressure, a 'damage of the fireproof packing (12)' signal is sent to the mobile terminal (6), a 'top cover (13) treading alarm' instruction is sent to the first control unit (2) when the second optimized pressure is larger than the second preset stress, a 'top cover (13) electric leakage alarm' instruction is sent to the first control unit (2) when the second optimized leakage quantity is larger than the second preset leakage quantity, a 'top cover (13) electric leakage alarm' instruction is sent to the mobile terminal (6) when the second optimized leakage quantity is larger than the second preset leakage quantity, a 'climbing alarm' instruction is sent to the first control unit (2) when the third optimized stress is larger than the third preset stress, And the processing module (31) sends an 'abnormal vibration alarm' instruction to the first control unit (2) when the optimized vibration quantity is larger than the preset vibration quantity, sends an 'abnormal vibration alarm' instruction when the optimized vibration quantity is larger than the preset vibration quantity, and sends the third real-time position to the mobile terminal (6).
5. The intelligent maintenance management trunking system of claim 4 wherein: the optimization algorithm is a genetic algorithm, a universal gravitation algorithm, a particle swarm algorithm, an ant colony algorithm or a simulated annealing algorithm.
6. The intelligent maintenance management trunking system of claim 1 or 2 wherein: the first communication unit (4) is a Zigbee, Wireless HART, ISA100.11a, Wi-Fi or Bluetooth communication unit.
7. The intelligent maintenance management trunking system of claim 1 or 2 wherein: the alarm (7) is a voice alarm.
8. The intelligent maintenance management trunking system of claim 1 or 2 wherein: the first positioning unit (113) is a GPS positioning unit.
9. The intelligent maintenance management trunking system of claim 1 or 2 wherein: the second communication unit (5) is a Zigbee, Wireless HART, ISA100.11a, Wi-Fi or Bluetooth communication unit.
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| CN201910418089.6A CN110058114B (en) | 2019-05-20 | 2019-05-20 | Intelligent maintenance management wire chase system |
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Citations (4)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| WO1997034160A1 (en) * | 1996-03-11 | 1997-09-18 | Electric Power Research Institute, Inc. | Locating a fault in an electrical power cable |
| CN102033178A (en) * | 2010-11-08 | 2011-04-27 | 福州大学 | Intelligent bus duct simulating, monitoring and analyzing system |
| CN102810833A (en) * | 2012-08-14 | 2012-12-05 | 江苏华威线路设备集团有限公司 | Intelligent busway |
| CN108828400A (en) * | 2018-04-13 | 2018-11-16 | 深圳市三江电气有限公司 | A kind of bus duct intelligent monitor system |
-
2019
- 2019-05-20 CN CN201910418089.6A patent/CN110058114B/en not_active Expired - Fee Related
Patent Citations (4)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| WO1997034160A1 (en) * | 1996-03-11 | 1997-09-18 | Electric Power Research Institute, Inc. | Locating a fault in an electrical power cable |
| CN102033178A (en) * | 2010-11-08 | 2011-04-27 | 福州大学 | Intelligent bus duct simulating, monitoring and analyzing system |
| CN102810833A (en) * | 2012-08-14 | 2012-12-05 | 江苏华威线路设备集团有限公司 | Intelligent busway |
| CN108828400A (en) * | 2018-04-13 | 2018-11-16 | 深圳市三江电气有限公司 | A kind of bus duct intelligent monitor system |
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| CN110058114A (en) | 2019-07-26 |
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