CN111127692A - Cable line anti-external-damage inspection system capable of being intelligently controlled - Google Patents

Abstract

The invention relates to an intelligent control cable line anti-external-damage patrol system which comprises front-end equipment, wherein the front-end equipment comprises a power supply module, a temperature and humidity sensor, an image acquisition module, an alarm module, a control module and a server end, wherein the temperature and humidity sensor, the image acquisition module and the alarm module are connected with the power supply module, the control module is connected with the power supply module, and the server end is connected with the power supply module. Compared with the prior art, the intelligent anti-external-damage patrol system has the advantages of intelligent anti-external-damage patrol, good environment deployment capability, good universality and the like.

Description

Cable line anti-external-damage inspection system capable of being intelligently controlled

Technical Field

The invention relates to the technical field of power transmission line monitoring, in particular to an intelligent control cable line anti-external-damage inspection system.

Background

With the rapid development of cities, the demand for cabling is increasing day by day, and cable channel management faces a severe examination. A large amount of construction sites needing to be patrolled and controlled and the length of a rapidly-increased cable channel cannot meet the requirement of 24-hour all-around and uninterrupted monitoring only by a traditional manual patrol and monitoring mode, occasional faults such as various external force damages, illegal intrusion and theft of external personnel and the like are increased day by day, and the safe operation of the high-voltage cable and the ordered management of the cable channel are seriously threatened. Once the cable suffers the outer damage of brokenly, very big probability will cause the big face to have a power failure, seriously influences enterprise's production and resident's life.

Disclosure of Invention

The invention aims to overcome the defects of the prior art and provide an intelligent control cable line anti-external-damage patrol system with good environmental deployment capability.

The purpose of the invention can be realized by the following technical scheme:

an intelligent control cable line anti-external-damage patrol system comprises front-end equipment, wherein the front-end equipment comprises a power supply module, a temperature and humidity sensor, an image acquisition module and an alarm module, wherein the temperature and humidity sensor, the image acquisition module and the alarm module are connected with the power supply module; the control module controls the front-end equipment according to a preset control strategy or a received control instruction of the server side, and intelligent control of the front-end equipment is achieved.

Preferably, the control strategy comprises a timing control strategy and an induction trigger control strategy.

Preferably, the control module comprises a CPU, a clock unit, a communication unit, a front-end device interface unit, and a power supply for supplying power to the control module; the clock unit and the communication unit are connected with the CPU; the communication unit is also connected with the front-end equipment interface unit; the front-end equipment interface unit is connected with the front-end equipment.

More preferably, the control module is further provided with a switch interface for controlling the alarm module to be turned on and off.

More preferably, the control module further comprises a watchdog unit for preventing the CPU from dead cycling.

More preferably, the server side of the pair communicates with a third party cable channel monitoring system through a communication unit.

Preferably, the power supply module comprises a waterproof box, and a solar controller, a solar photovoltaic panel and a storage battery which are respectively arranged in the waterproof box; the solar photovoltaic panel and the storage battery are connected with the solar controller; the solar controller is respectively connected with the temperature and humidity sensor, the image acquisition unit, the alarm unit and the control module.

More preferably, the power supply module is provided with a control module interface; the control module collects the running state and electric quantity data information of the power supply module through the control module interface.

More preferably, the alarm module comprises an audible and visual alarm and an LED display screen; the alarm module is respectively connected with the power supply module and the control module; the power supply module is used for supplying power to the alarm module, and the control module is used for controlling the on and off of the alarm module; the control module is also used for controlling the display content on the LED display screen.

Compared with the prior art, the invention has the following advantages:

firstly, realize that outer broken tour is prevented to intelligence: the external-damage-prevention patrol system adopts a timing strategy and an induction trigger control strategy, can realize the intellectualization of the external-damage-prevention patrol system, improves the monitoring efficiency of a cable channel, and reduces the waste of manpower and material resources in the cable patrol monitoring work.

Secondly, the method has good environment deployment capability: the external damage prevention patrol system is integrated with the solar power supply system, so that the external damage prevention patrol system meets the requirements of cable patrol monitoring business, has good environment deployment capability and can be used in various environments.

Thirdly, the universality is good: the interfaces in the anti-external-damage patrol system are standardized interfaces, so that the generalization of the interfaces is realized, and a third-party system can directly call the system through the generalized interfaces.

Drawings

FIG. 1 is a schematic diagram of the mechanism of the present invention;

FIG. 2 is a schematic structural diagram of a control module according to the present invention;

FIG. 3 is a schematic diagram of a communication unit according to the present invention;

fig. 4 is a schematic structural diagram of a switch interface according to the present invention.

The reference numbers in the figures indicate:

1. the solar energy monitoring system comprises a power supply module, 2, a temperature and humidity sensor, 3, an image acquisition module, 4, an alarm module, 5, a control module, 101, a solar controller, 102, a solar photovoltaic panel, 103, a storage battery, 501, a CPU, 502, a clock unit, 503, a communication unit, 504 a front-end equipment interface module, 505 a watchdog unit, 503-1, a WIFI antenna interface, 503-2, 4G antenna interfaces, 503-3, a Console debugging port, 503-4, a network Wan port, 503-5 and a network Lan port.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, not all, embodiments of the present invention. All other embodiments, which can be obtained by a person skilled in the art without any inventive step based on the embodiments of the present invention, shall fall within the scope of protection of the present invention.

The invention relates to an intelligent control cable line anti-external-damage patrol system, which comprises front-end equipment, wherein the front-end equipment comprises a power supply module 1, a temperature and humidity sensor 2, an image acquisition module 3, an alarm module 4, a control module 5 and a server end, wherein the temperature and humidity sensor 2, the image acquisition module 3, the alarm module 4, the control module 5 and the server end are connected with the power supply module 1. The control module controls the front-end equipment according to a preset control strategy or a received control instruction of the server side, and intelligent control over the front-end equipment can be achieved.

The predetermined control strategies include timing control strategies and inductive triggering control strategies. The timing control strategy is specifically that the system is started at a specified time. The induction triggering control strategy is characterized in that an induction device such as an infrared sensor is arranged on the site, and when the induction device is triggered, the system is started. The control module 5 can set the two control strategies simultaneously to control the anti-external-damage patrol system.

The power supply module 1 includes a waterproof box, and a solar controller 101, a solar photovoltaic panel 102, and a storage battery 103 installed in the waterproof box. Solar control ware 101 is equipped with solar control end, battery control end and load incoming end, and solar photovoltaic board 102 links to each other with solar control end, and battery 103 links to each other with the battery control end, and temperature and humidity inductor 2 and image acquisition module 3 link to each other with the load incoming end, and control module 5 and alarm unit 4 all link to each other with battery 103. The solar controller 101 is used for controlling the solar photovoltaic panel 102 to charge the storage battery 103 and provide a load control voltage for the voltage sensitive device. The solar photovoltaic panel can regulate and limit the charging and discharging conditions of the storage battery, and control the electric energy output of the solar photovoltaic panel 102 and the storage battery 103 to the load according to the power supply requirement of the load. And the solar controller 101 can communicate with the control module 5 through a control module interface, such as an RS485 interface, an ethernet interface, wireless, etc., and is used for the control module 5 to acquire the running state and electric quantity data information of the power supply module 4.

The alarm module 4 in this embodiment includes an audible and visual alarm and an LED display screen. The power supply module 1 is used for supplying power for the audible and visual alarm and the LED display screen, the control module 5 is used for controlling the audible and visual alarm and the LED display screen to be opened and closed, and the control module 5 can also control the display content of the LED.

The control module 5 is configured as shown in fig. 2, and includes a CPU501, a clock unit 502, a communication unit 503, a front-end device interface unit 504, and a power supply for supplying power. The clock unit 502 and the communication unit 503 are both connected to the CPU 501. The other end of the communication unit 503 is also connected to the front-end device interface unit 504. The other end of the front-end device interface unit 504 is connected to the front-end device.

As can be seen from fig. 2, the control module 5 is further provided with a watchdog unit 505 for preventing the CPU501 from dead cycling.

The control module 5 is further provided with a switch interface for controlling the alarm module 4 to be turned on and off, and the structure of the control module is as shown in fig. 4, and the alarm module 4 is controlled to be turned on and off by connecting a RELAY into a control loop of the alarm module 4.

The communication unit 503 in the control module 5 includes an RS232 interface, an RS485 interface, a USB interface, a 10 mega or 100 mega ethernet interface, a four-port switch, a WIFI AP subunit, a wireless communication subunit, an antenna, and a SIM or UIM card interface.

Fig. 3 shows a schematic structural diagram of a part of interfaces in the communication unit 503, where specific parameters of the WIFI antenna interface 503-1, the 4G antenna interface 503-2, the Console debugging port 503-3, the network Wan port 503-4, and the network Lan port 503-5 in this embodiment are as follows:

1. WIFI antenna interface

And an SMA (shape memory alloy) negative head antenna interface (with the impedance of 50 ohms) is adopted to transmit and broadcast network signals of the system into wireless signals of the IEEE802.11b/g/n standard.

2. 4G antenna interface

ANT-1 and ANT-2 are device main or vice 4G antenna interface (main antenna must be installed when using 4G mode), SMA negative head antenna interface (impedance 50 ohm) is used for receiving external base station 4G signal to route wireless network communication module.

3. Console debugging interface

The device is used for debugging equipment, an RS232 standard serial port interface is adopted, 15KV ESD protection is built in the device, and the serial port parameters are as follows:

data bit: 5. 6, 7, 8 bits;

stopping the position: 1. 1.5 (optional), 2 bits;

checking: no check, even check, odd check, SPACE (optional) and MARK (optional) check;

serial port rate: 2400-115200 bits/s.

4. Network Wan port

10/100M ethernet port (RJ45 jack), adaptive MDI/MDIX, with which devices can be registered for operation over wired network access.

5. Lan port of network

A 10 mega or 100 mega ethernet port (RJ45 socket 4), an adaptive MDI/MDIX for accessing lower-level network terminal devices or subsystems, such as webcams, sensors, electronic displays, etc.

As can be seen from fig. 4, the control module 5 is provided with a SIM card slot, a TF card slot, a switch input/output interface, a power input interface, and a reset switch, and the specific parameters are as follows:

1. SIM card slot

The method is used for installing the 4G SIM/UIM card to provide equipment 4G network support (support APN/VPN private network dialing configuration).

2. TF card slot

The equipment supports obtaining extra storage space and expanding function application by installing the TF card.

3. Switching value input/output interface

The interface system can judge the running state of the access equipment and control the working running state of the non-network control type equipment. This embodiment provides 2 digital inputs, 1 digital output and 1 relay output. Controlled by modbus protocol.

The specific parameters are as follows:

4. power input interface

The equipment power supply interface is used for standard 12VDC/1.5A and power supply access of more than 8W.

4. Reset switch

The equipment configuration parameters can return to factory values after the switch is pressed for 15 seconds.

The server in this embodiment communicates with a third-party cable channel monitoring system, such as a transposing box protection system, an intelligent well lid system, an optical fiber vibration monitoring system, a radar monitoring system and the like, which is already used by a cable company at present, through the communication unit 503, and when the third-party system sends an alarm signal, the system can be called in a linkage manner to shoot site points and feed back the site points to a third-party system platform.

The operation process of the outer-broken prevention patrol system in the embodiment specifically comprises the following steps:

a timing control strategy preset by an operation plan is arranged in the control module 5, and the control module 5 turns on or off the front-end equipment according to the timing control strategy or a received real-time operation instruction of the server. After the front-end equipment is opened, the temperature and humidity sensor 2 collects field temperature and humidity information and sends the information to the server end through the front-end equipment interface unit 504 and the communication unit 503, a program for automatically judging whether temperature and humidity data exceed the limit is arranged in the server end, if the temperature and humidity data exceed the limit, the alarm grade is judged, alarm information is pushed to the equipment end of related personnel, and the alarm unit is opened to carry out field alarm. The image acquisition module 4 sends the acquired image data to the server side through the front-end device interface unit 504 and the communication unit 503, and a device image AI analysis program is arranged in the server side, can judge whether the image contains alarm information or not, automatically judges the alarm level, then pushes the alarm information to the device side of the related staff, and simultaneously starts the alarm unit 503 to perform on-site alarm.

While the invention has been described with reference to specific embodiments, the invention is not limited thereto, and various equivalent modifications and substitutions can be easily made by those skilled in the art within the technical scope of the invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims (9)

1. The cable line anti-external-damage patrol system capable of being intelligently controlled comprises front-end equipment, wherein the front-end equipment comprises a power supply module (1), a temperature and humidity sensor (2), an image acquisition module (3) and an alarm module (4), wherein the temperature and humidity sensor (2), the image acquisition module (3) and the alarm module (4) are connected with the power supply module (1), and the cable line anti-external-damage patrol system is characterized by further comprising a control module (5) and a server end, wherein the control module (5) and the server end are connected with the power supply module (1); the control module (5) controls the front-end equipment according to a preset control strategy or a received control instruction of the server side, and intelligent control of the front-end equipment is achieved.

2. The system of claim 1, wherein the control strategy comprises a timing control strategy and an inductive trigger control strategy.

3. The intelligent-control cable line anti-break patrol system according to claim 1, wherein the control module (5) comprises a CPU (501), a clock unit (502), a communication unit (503), a front-end device interface unit (504) and a power supply for supplying power to the control module (5); the clock unit (502) and the communication unit (503) are both connected with the CPU (501); the communication unit (503) is also connected with the front-end equipment interface unit (504); the front-end equipment interface unit (504) is connected with the front-end equipment.

4. The intelligent control cable line anti-external-damage patrol system according to claim 3, wherein the control module (5) is further provided with a switch interface for controlling the alarm module (4) to be turned on and off.

5. A intelligently controlled anti-vandalism patrol system according to claim 3, characterised in that said control module (5) further comprises a watchdog unit (505) for preventing the CPU (501) from dead cycling.

6. A smart cable plant anti-vandalism patrol system according to claim 3, characterised in that the server side of the pair communicates with a third party cable channel monitoring system via a communication unit (503).

7. The intelligent-control cable line anti-external-damage patrol system as claimed in claim 1, wherein the power supply module (1) comprises a waterproof box, and a solar controller (101), a solar photovoltaic panel (102) and a storage battery (103) which are respectively arranged in the waterproof box; the solar photovoltaic panel (102) and the storage battery (103) are both connected with the solar controller (101); the solar controller (101) is respectively connected with the temperature and humidity sensor (2), the image acquisition unit (3), the alarm unit (4) and the control module (5).

8. The intelligent control cable line anti-external-damage patrol system according to claim 7, wherein the power supply module (1) is provided with a control module interface; and the control module (5) acquires the running state and electric quantity data information of the power supply module (4) through a control module interface.

9. The intelligent-control cable line anti-external-damage patrol system as claimed in claim 1, wherein said alarm module (4) comprises an audible and visual alarm and an LED display screen; the alarm module is respectively connected with the power supply module (1) and the control module (5); the power supply module (1) is used for supplying power to the alarm module (4), and the control module (5) is used for controlling the on and off of the alarm module (4); the control module (5) is also used for controlling the display content on the LED display screen.

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