CN211527598U - Distributed optical fiber vibration sensing analysis system - Google Patents

Abstract

The utility model discloses a distributing type optic fibre vibration sensing analytic system has arranged transmission optical fibre along the monitoring direction, inserts the laser input subassembly that is used for inputing monitoring signal and the photoelectric analysis subassembly that is used for acquireing monitoring signal respectively through input coupler at transmission optical fibre's input. The transmission optical fiber is provided with a plurality of vibration monitoring nodes at equal intervals, a plurality of multimode optical fibers with reflectors arranged at the ends are led out to form a vibration monitoring unit, and the vibration unit can be detachably connected to the vibration monitoring nodes according to monitoring requirements. The utility model discloses can realize arranging in a flexible way important cable monitoring area to replace, reset convenient rapidly, can realize the long-term control in full time to important cable.

Description

Distributed optical fiber vibration sensing analysis system

Technical Field

The utility model relates to a distributed optical fiber vibration sensing analytic system for electric power engineering field.

Background

As the electrical load density increases, the load on the power cable increases. The superconducting cable is a solution for ensuring long-time power supply under high load due to the super-strong loading capacity. The first kilometer-level superconducting cable is built in China, and the construction application and operation and maintenance management technology of the superconducting cable are becoming mature day by day. Due to the high cost of the superconducting cable, the operation and maintenance work has a plurality of specificities compared with the common power facilities. The comprehensive and full-time online monitoring technology aiming at the running state, running environment and external damage risk of the cable becomes an important support for safe and stable running of the superconducting cable. The external monitoring technical means of the conventional cable including manual inspection and unmanned aerial vehicle monitoring are difficult to meet the requirements.

SUMMERY OF THE UTILITY MODEL

The utility model aims at overcoming prior art not enough, providing a distributing type optic fibre vibration sensing analytic system, it can realize the long-term control of full time to the cable, and the control accuracy is high, the good reliability.

One technical scheme for achieving the above purpose is as follows: a distributed optical fiber vibration sensing analysis system comprises a transmission optical fiber, a vibration monitoring unit, a laser input assembly and a photoelectric analysis assembly;

the laser input assembly comprises a narrow-band laser, a modulator and an optical signal amplifier which are connected in sequence, and the laser input assembly is connected to the input end of the transmission optical fiber through an input coupler;

the photoelectric analysis component comprises a photoelectric sensor, a data storage module and a background analysis computer which are sequentially connected, wherein the input end of the photoelectric sensor is connected to the output end of the input coupler;

the transmission optical fiber is a single-mode optical fiber, a plurality of vibration monitoring nodes are arranged in the transmission direction of the transmission optical fiber at equal intervals, each vibration monitoring node is provided with a 1 x n node coupler, each node coupler is connected with n leading-out single-mode optical fibers, and the end part of each leading-out single-mode optical fiber is a multimode optical fiber connector;

the vibration monitoring unit comprises a multimode optical fiber and a reflector arranged at the end part of the multimode optical fiber, and the multimode optical fiber is detachably connected with the leading-out single-mode optical fiber through the multimode optical fiber connector.

The utility model discloses a distributing type optic fibre vibration sensing analytic system has arranged transmission optical fibre along the monitoring direction, inserts the laser input subassembly that is used for inputing monitoring signal and the photoelectric analysis subassembly that is used for acquireing monitoring signal respectively through input coupler at transmission optical fibre's input. The transmission optical fiber is provided with a plurality of vibration monitoring nodes at equal intervals, a plurality of multimode optical fibers with reflectors arranged at the ends are led out to form a vibration monitoring unit, and the vibration unit can be detachably connected to the vibration monitoring nodes according to monitoring requirements. The utility model discloses can realize arranging in a flexible way important cable monitoring area to replace, reset convenient rapidly, can realize the long-term control in full time to important cable.

Drawings

Fig. 1 is a schematic view of a topology structure of a distributed optical fiber vibration sensing analysis system of the present invention.

Detailed Description

In order to better understand the technical solution of the present invention, the following detailed description is made by specific embodiments:

referring to fig. 1, the utility model discloses a distributed optical fiber vibration sensing analysis system, including transmission fiber 1, vibration monitoring unit 2, laser input subassembly and photoelectric analysis subassembly for carry out long-term monitoring to key cable region.

The transmission optical fiber 1 is a single-mode optical fiber, the transmission optical fiber 1 is laid along the direction of the cable to be monitored, and a plurality of vibration monitoring nodes are arranged at equal intervals along a laying path. In fig. 1, each vibration monitoring node is led out a single mode fiber 12 through a node coupler 11, in practical application, the node coupler is a 1 × n coupler, n single mode fibers can be led out from each coupler, and the led single mode fibers are arranged in the peripheral range of the position where the node coupler is located, so that any one node coupler forms a monitoring area. The end of each outgoing single-mode fiber 12 is a multimode fiber connector 13 connected with a vibration monitoring unit 2.

The vibration monitoring unit 2 comprises a multimode optical fiber 21 and a reflector 22 arranged at the end part of the multimode optical fiber, and the multimode optical fiber 21 is detachably connected with the led-out single-mode optical fiber through a multimode optical fiber connector. The multimode optical fiber 21 is used to monitor the vibration behavior and therefore needs to be arranged differently according to the field situation. For example, a fence structure can be arranged to surround the monitoring area, or sensors can be formed to be placed at strategic locations for monitoring. When the actual monitoring environment changes or the damaged vibration monitoring unit 2 needs to be replaced, the multimode optical fiber connector 13 and the detachable vibration monitoring unit 2 can be conveniently and efficiently rearranged on site.

The laser input assembly, which comprises a narrow band laser 31, a modulator 32 and an optical signal amplifier 33(EDFA) connected in series, is coupled into the input end of the transmission fibre via an input coupler 34. The photoelectric analysis component comprises a photoelectric sensor 35, a data storage module 36 and a background analysis computer 37 which are connected in sequence, wherein the input end of the photoelectric sensor is connected with the output end of the input coupler. In practical application, the narrow-band laser 31, the modulator 32, the optical signal amplifier 33, the input coupler 34, the photoelectric sensor 35 and the data storage module 36 may form a complete optical fiber sensing analyzer 4, and the optical fiber sensing analyzer is in signal connection with the background analysis computer 37.

The principle of the utility model is as follows.

Single mode fibers have the property of transmitting only the fundamental mode. The laser signal output by the laser device is amplified and then enters a single-mode optical fiber through a coupler, the single-mode optical fiber is a communication optical fiber, a section of multimode optical fiber is welded at the tail end of the single-mode optical fiber to serve as a vibration sensing optical fiber, and a reflector is connected at the tail end of the multimode optical fiber to enable a light original path reaching the tail end of the multimode optical fiber to return.

Since single mode fibers can only transmit the fundamental mode, light is still transmitted in the fundamental mode when it enters the multimode fiber from the single mode fiber. When the light is transmitted to the multimode fiber, the light is transmitted out of a basic mode, becomes a high-order mode and is transmitted in the multimode fiber, when the light is transmitted to the tail end of the multimode fiber, the light is returned by the reflector and is still transmitted in the high-order mode, when the light is transmitted to the single-mode fiber, the light can not reach the photoelectric detector through the single-mode fiber to be detected because the light is no longer in the basic mode, and when the multimode fiber does not vibrate, the output of the photoelectric detector is a straight line. When the multimode optical fiber is disturbed, the high-order mode is converted into the fundamental mode when being transmitted to the single-mode optical fiber due to the vibration of the optical fiber, so that an optical signal can be detected on the photoelectric detector, and the light detected by the photoelectric detector changes along with the vibration of the optical fiber due to the vibration of the multimode optical fiber, so that the output signal of the photoelectric detector is a vibration envelope keeping a certain optical relationship with the external vibration.

The background analysis computer judges the vibration position according to the vibration signal feedback time fed back by the vibration monitoring unit; the background analysis computer judges the vibration types of the adjacent vibration monitoring units according to the continuous vibration signal strength and time relationship of the adjacent vibration monitoring units, so that the events which possibly threaten the cable safety around the monitoring area are subjected to online real-time detection, accurate analysis and alarm.

It will be appreciated by those skilled in the art that the above embodiments are only for illustrating the present invention and are not to be used as limitations of the present invention, and that changes and modifications to the above described embodiments will fall within the scope of the claims of the present invention as long as they are within the spirit and scope of the present invention.

Claims (1)

1. The utility model provides a distributing type optic fibre vibration sensing analytic system, includes transmission optical fibre, vibration monitoring unit, laser input subassembly and photoelectric analysis subassembly, its characterized in that:

the laser input assembly comprises a narrow-band laser, a modulator and an optical signal amplifier which are connected in sequence, and the laser input assembly is connected to the input end of the transmission optical fiber through an input coupler;

the photoelectric analysis component comprises a photoelectric sensor, a data storage module and a background analysis computer which are sequentially connected, wherein the input end of the photoelectric sensor is connected to the output end of the input coupler;

the transmission optical fiber is a single-mode optical fiber, a plurality of vibration monitoring nodes are arranged in the transmission direction of the transmission optical fiber at equal intervals, each vibration monitoring node is provided with a 1 x n node coupler, each node coupler is connected with n leading-out single-mode optical fibers, and the end part of each leading-out single-mode optical fiber is a multimode optical fiber connector;

the vibration monitoring unit comprises a multimode optical fiber and a reflector arranged at the end part of the multimode optical fiber, and the multimode optical fiber is detachably connected with the leading-out single-mode optical fiber through the multimode optical fiber connector.

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