JP3229755U - Early warning system for return cable segment - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an early warning system for a return cable segment capable of improving the convenience of later operation / maintenance and the safety of operation of a device. A system platform 4, a 4G communication module 5, an intelligent data monitoring host 1, a radio RF sensor 6, and an early alarm device 2 for several segments installed in a distributed manner are provided. The segment early warning device is provided with an inset vibration sensor, alarm, power supply module and positioning antenna, the power supply module includes a battery, and the positioning antenna automatically positions the segment early warning device and determines the current position. Periodically uploaded, the segment early alarm device is wirelessly connected to the intelligent data monitoring host via a wireless RF sensor, and the system platform is communicated to the intelligent data monitoring host via a 4G communication module. [Selection diagram] Fig. 1

Description

The present invention relates to the technical field of electric power equipment, and particularly to an early warning system for preventing theft of return cables.

At present, due to the development of information technology and the influence of various external environmental factors that are affected when electric power equipment operates, conventional electric power monitoring equipment has the following drawbacks. 1. Restrictions on data transmission: Since the alarm module and the monitoring host are connected by wire for communication, the distance is limited and installation is inconvenient. When communicating using optical fiber, an optical cable for communication is sent to the construction site. It needs to be laid, which is troublesome. 2. Limitation to power supply: Since the alarm module is powered by the active power supply, there are power supply drawbacks and regular maintenance is required.When using a CT / PT sensing power supply in combination with a general battery, The power supply is not stable enough.

Therefore, the monitoring equipment needs to be comprehensively reformed to improve the stability and overall protection performance, and send the related monitoring data to the server via the communication equipment to notify the related workers. There is also a need. The design and development of wireless return cable monitoring equipment to monitor the return cable anti-theft monitoring function in electricity is very important in improving the stable and safe operation of national power equipment and accelerating social and economic development. Play an important and positive role.

The technical problem to be solved by the present invention is that it is not necessary to lay any power supply line and communication line within the protection range, and the power supply line of various cable channels, work wells, joint wells, outdoor environments, boundaries, etc. It is to provide an early warning system for the return cable segment, which may be widely applied in places where laying is inconvenient, and can avoid situations where it is difficult for the parties concerned to find the equipment due to changes in the surrounding environment. ..

In order to solve the above technical problems, the present invention adopts the following technical solutions. The return cable segment early warning system includes a system platform, a 4G communication module, an intelligent data monitoring host, a ZigBee sensor and several distributed early segment early warning devices that are fitted into the segment early warning device. A type vibration sensor, an alarm, a power supply module and a positioning antenna are provided, the power supply module includes a battery, and the positioning antenna automatically positions the segment early warning device and periodically uploads the current position. The segment early alarm device is wirelessly connected to the intelligent data monitoring host via the ZigBee sensor, and the system platform is communicated to the intelligent data monitoring host via the 4G communication module.
Preferably, the power supply module further includes a photovoltaic device.
Preferably, the power supply module further includes a CT power acquisition device.
Preferably, the battery is a rechargeable lithium battery.
Preferably, the embedded vibration sensor is an infrasound vibration sensor.
Preferably, the segment early alarm device is provided with a box body made of galvanized steel or stainless steel.
Preferably, the positioning antenna is a GPS positioning antenna.
Preferably, the positioning antenna is provided with an outer layer of insulating plastic material.
Preferably, each intelligent data monitoring host is connected to at least three segment early alarm devices.
The present invention employs the above technical solution and has the following beneficial effects.

The segment early alarm device monitors the operating status of the operating cable, theft, displacement, and other conditions in real time. ZigBee radio RF technology is used between the segment early alarm device and the intelligent data monitoring host, eliminating the need for wired connections, which allows for a clean layout of the equipment and the potential for misconnected wires This avoids the drawback of having a large geographical impact on the layout. Moreover, one monitoring host can communicate with three or more alarm modules at the same time, and the maximum communication distance can reach 1.5 kilometers.

4G communication transmission is adopted between the intelligent data monitoring host and the system platform, which ensures the stability of data transmission and provides a powerful technology channel for future compatibility with various other devices. ..

In the direction of power acquisition, a solar power generation device and a lithium battery can be combined to supply power and expand the power supply, for example, a CT power acquisition device can be added, and the output of the original power supply is for the operation of the device. When the electrical energy is not satisfied, the supply of electrical energy is secured by adding a plurality of CT power acquisition devices.

An inset vibration sensor is used that, when its posture, position or condition changes abnormally, is immediately detected by the sensor and an alarm sends alarm information to a nearby intelligent data monitoring host, which the intelligent data monitoring host ZigBee. The technology receives the relevant signal, completes the data processing, and sends the information to the system platform over the 4G network, which combines the code, number and location information of the segment early warning device with the GIS map. It quickly determines the position and status of the monitored object, issues an alarm, and notifies the power department management center.

In the original equipment, the placement points had to be manually collected and entered in the background, and there could be a chance of leaks and errors along the way. Currently, the positioning function of the segment early warning device is realized by the positioning antenna, which allows the intelligent data monitoring host to acquire the current position information of the device and transmit it to the system platform. It eliminates the need for the conventional work of manually recording location information, avoids situations where it is difficult for related parties to find the device due to changes in the surrounding environment, and is convenient for later operation and maintenance and safety of device operation. Improve sex.
Specific technical solutions of the present invention and their beneficial effects will be described in detail in the following specific embodiments in combination with drawings.

The present invention will be further described below in combination with the drawings and specific examples.
It is a structural schematic diagram of this invention.

In the figure, 1-intelligent data monitoring host, 2-segment early alarm device, 3-server, 4-system platform, 5-4G communication module, 6-ZigBee sensor.

The technical solutions in the embodiments of the present invention will be clearly and completely described below in combination with the drawings of the embodiments of the present invention, and the embodiments clearly described are only a part of the embodiments of the present invention. , Not all embodiments. The description for at least one exemplary embodiment below is only descriptive in practice and is not considered to be any limitation on the invention and its application or use. All other embodiments obtained by those skilled in the art based on the embodiments of the present invention without the need for creative effort belong to the scope of protection of the present invention.
One of ordinary skill in the art can understand that the following embodiments and features of the embodiments may be combined with each other in the absence of collision.

As shown in FIG. 1, the return cable segment early warning system includes an intelligent data monitoring host 1, a segment early warning device 2, a server 3, a system platform 4, a 4G communication module 5, and a ZigBee sensor 6. The segment early alarm device 2 is provided with an inset type vibration sensor and an alarm.

Here, the intelligent data monitoring host 1 is connected to the server 3 and the system platform 4 via the 4G communication module 5. The segment early alarm device 2 monitors the operating status of the operating cable, theft, displacement, and other conditions in real time using a built-in vibration sensor, and sends alarm information to the nearby intelligent data monitoring host 1 by alarm. Send. Further, the 4G communication module 5 transmits information to the system platform 4 to achieve a high-speed alarm function. At least three segment early alarm devices 2 are connected to each intelligent data monitoring host 1. 4G communication transmission is adopted between Intelligent Data Monitoring Host 1 and System Platform 4, which ensures the stability of data transmission and provides a powerful technology channel for future compatibility with various other devices. provide.

In the present embodiment, the segment early warning device 2 is connected to the ZigBee sensor 6, the ZigBee sensor 6 is connected to the intelligent data monitoring host 1, and the intelligent data monitoring host 1 is the segment early warning device 2 by ZigBee technology. Receives the signal emitted from and completes the data processing. ZigBee radio RF technology is used between the segment early alarm device 2 and the intelligent data monitoring host 1, and no wired connection is required, which enables a clean layout of the equipment and causes incorrect wiring wiring. It is possible and avoids the drawback of having a large geographical impact on the layout. Moreover, one monitoring host can communicate with three or more alarm modules at the same time, and the maximum communication distance can reach 1.5 kilometers.

In the original device, the placement points had to be manually collected and entered in the background, and there could be a chance of leaks and errors along the way. In order to overcome this drawback, the segment early warning device 2 may be further provided with a positioning antenna, and the positioning antenna may be a GPS positioning antenna. The positioning function of the segment early warning device 2 is realized by the positioning antenna, whereby the intelligent data monitoring host 1 can acquire the current position information of the device and transmit it to the system platform 4. The system platform can combine the code, number and location information of the segment early alarm device with the GIS map to quickly determine the location and status of the monitored object, issue an alarm and notify the power department management center. It eliminates the need for the conventional work of manually recording location information, avoids situations where it is difficult for related parties to find the device due to changes in the surrounding environment, and is convenient for later operation and maintenance and safety of device operation. Improve sex.

The segment early warning device 2 is provided with a power supply module to supply power, and the power supply module includes a battery, for example, a rechargeable lithium battery, and of course, can further include a photovoltaic power generation device and a CT power acquisition device. When the output of the original lithium battery and the photovoltaic power source does not meet the electrical energy for the operation of the device, the supply of electrical energy is secured by adding a plurality of CT power acquisition devices.
In one embodiment, the embedded vibration sensor is an infrasound vibration sensor.

Further, the early warning device for the segment is provided with a box body made of galvanized steel or stainless steel. The positioning antenna is provided with an outer layer of an insulating plastic material.

Although the above is only a specific embodiment of the present invention, the scope of protection of the present invention is not limited to this, and those skilled in the art include the contents described in the above specific embodiment of the present invention. It should be understood that it is not limited to this. Any modifications that do not deviate from the functional and structural principles of the present invention are included in the claims.

Claims (9)

An early warning system for the return cable segment, which includes a system platform, a 4G communication module, an intelligent data monitoring host, a ZigBee sensor, and several distributed early warning devices for the segment. Is equipped with an inset vibration sensor, alarm, power supply module and positioning antenna, the power supply module includes a battery, and the positioning antenna automatically positions the segment early warning device and periodically uploads the current position. The return cable segment is characterized in that the early alarm device for the segment is wirelessly connected to the intelligent data monitoring host via the ZigBee sensor and the system platform is communicatively connected to the intelligent data monitoring host via a 4G communication module. For early warning system. The early warning system for a return cable segment according to claim 1, wherein the power supply module further includes a photovoltaic power generation device. The early warning system for a return cable segment according to claim 2, wherein the power supply module further includes a CT power acquisition device. The early warning system for a return cable segment according to claim 1, wherein the battery is a rechargeable lithium battery. The early warning system for a return cable segment according to claim 1, wherein the embedded vibration sensor is an infrasound vibration sensor. The early warning system for a return cable segment according to any one of claims 1-5, wherein the early warning device for a segment is provided with a box body made of galvanized steel or stainless steel. The early warning system for a return cable segment according to claim 6, wherein the positioning antenna is a GPS positioning antenna. The early warning system for a return cable segment according to claim 7, wherein the positioning antenna is provided with an outer layer of an insulating plastic material. The early warning system for a return cable segment according to claim 6, wherein at least three segment early warning devices are connected to each intelligent data monitoring host.