CN209619984U - Railway high precipitous rock slope Microseismic monitoring system - Google Patents

Abstract

Railway high precipitous rock slope Microseismic monitoring system is related to railway security monitoring field, and the utility model includes following part: acquisition process unit, including acceleration transducer, strain gauge, displacement sensor and time service synchronization module；The Acquisition Instrument main website of communication connection is formed with acquisition process unit；Telecommunication unit, the telecommunication for establishing between Acquisition Instrument main website and remote server.The utility model excavates the microseismicity Evolution of high precipitous rock slope for railway and dynamic stability assessment provides reliable hardware support.

Description

Railway high precipitous rock slope Microseismic monitoring system

Technical field

The utility model relates to railway securities to monitor field, especially a kind of railway high precipitous rock slope micro seismic monitoring assessment System and monitoring method.

Background technique

In recent years, with the fast development of railway, mountain railway faces a large amount of excavation high precipitous rock slope along the line, disturbed Dynamic slopes stress constantly adjusts, internal to generate local elastic plastics characteristic concentration phenomenon, when energy concentration is to a certain critical value, Cause the generation and expansion of microfissure inside high precipitous rock slope, forms microseism.When deformation reaches certain threshold value, will cause Slope instability destroys the generation for leading to landslide disaster, seriously threatens railway construction and operation security.

Microseism phenomenon is to be found earliest by United States Bureau of Mines personnel L.Obert late 1930s, the subsequent U.S., South Africa Carry out correlative study work with states' researcher's cameras such as Canada, undergoes years development, microseism phenomenon and its related monitoring point Analysis technology moves towards engineering level from laboratory research level, and relevant device develops to electronic simulation system also from mechanical, then To totally digitilized Microseismic monitoring system.The monitoring technology is stored up in mining, oil development, water conservancy and hydropower and nuke rubbish at present Equal fields are deposited to be applied successfully.Research in terms of China carries out as micro seismic monitoring is started late, and engineer application is also less.Drawing Into on the basis of external advanced Microseismic monitoring system, constantly brings forth new ideas and improve, carried out a large amount of fruitful grind in each field Study carefully and apply work.Existing Microseismic monitoring system includes the microseismic sensors of installation and side slope to be measured, data collection station, transmission Optical cable, field data integrated treatment host, wireless transport module, state event location and statistical analysis software.Data collection station is real-time The microseismic signals of microseismic sensors acquisition are acquired, and after microseismic signals are converted into digital signal, are arrived by wired optical cable transmission Field data integrated treatment host；Field data integrated treatment host compares received each channel micro seismic monitoring signal, After analysis, data center server is transmitted it to；The waveform diagram of data center server real-time display monitoring signals confirms micro- The generation of shake event.It can be realized by Microseismic monitoring system and remote, real-time, dynamic, automatic monitoring are carried out to microseismic signals, led to It crosses calculating analysis and obtains the factors parameters such as hypocentral location, the origin time of earthquake and source level.

Mountain railway passes through the complex region of geological conditions, need to carry out the dispersion of side slope micro seismic monitoring point, have a very wide distribution, And the more severe area of environment is set mostly, and scene lacks known interrogation information analysis personnel and extensive background The equipment such as computer required for stress field calculation, therefore micro seismic monitoring data need to be sent in real time after calculating analysis center End central server is handled.Data transfer mode currently used for remote monitoring system uses wired and wireless two kinds.Number The monitoring system of small range zonule is only applicable to according to wire transmission mode, line upkeep amount is big, it is difficult to ensure that its transmission quality. Wireless transmission mostly uses the wireless transmission method based on GPRS, realizes monitoring data remote high-precision, the transmission of undistorted data, But it is limited by network signal and volume of transmitted data, the scope of application has limitation.

High precipitous rock slope excavation has broken internal stress balance, leads to slopes structure, ambient stress and rock mass mechanics Parameter will all change, so that the Mechanism of Deformation And Failure of side slope has ambiguity.It is difficult to ensure that input ginseng in numerical value calculating Several and boundary condition reliability, and then the stability status of side slope makes accurate evaluation.Therefore, " rock mass real-time parameter Real-time calibration " and " selection of numerical model " have become " bottleneck " property for excavating high precipitous rock slope theory analysis and numerical simulation Problem.

During railway Excavation of High And Steep Slopes is constructed and is runed, stability problem is particularly important.It therefore, is guarantor Hinder railway slope excavate and operation during safety, it is necessary to scientific and effective monitoring system come obtain slopes stress variation and The aging characteristic of the physics classroom teaching of rock mass grasps the multidate information of slope deforming development trend in real time, is the stabilization of side slope Property make Real-Time Evaluation, for instruct prevention and cure project design, reduce slope and land slide disaster caused by economic loss have it is very heavy The social effect wanted.

Utility model content

The purpose of the utility model is to overcome problems of the existing technology, and it is micro- to provide a kind of railway high precipitous rock slope Shake monitoring method and monitoring system.The utility model uses wired and wireless parallel monitoring data transmission mode, ensures data Stability, reliability and the convenience of transmission are realized to the high precipitous rock slope stresses re-distribution and micro- excavated under perturbation action The real-time monitoring and analysis of activity are shaken, it is strong with the rising stress region, microseism locations, the origin time of earthquake, the focus that obtain excavation slope The factors parameters such as degree, microseism density, and the Mechanics Parameters of Rock Mass of potential slide strips (zone of fracture) is corrected in real time, it is final split Slope stability during digging carries out real-time, dynamic evaluation.

The utility model solve the technical problem the technical solution adopted is that, railway high precipitous rock slope micro seismic monitoring system System, including following part:

Acquisition process unit, including acceleration transducer, strain gauge, displacement sensor and time service synchronization module；

The Acquisition Instrument main website of communication connection is formed with acquisition process unit；

Telecommunication unit, the telecommunication for establishing between Acquisition Instrument main website and remote server.

Further, further includes:

The local server of communication connection is formed with acquisition process unit；

The remote server of communication connection is formed with acquisition process unit；

It is communication connection between the local server and remote server.

The utility model has the following beneficial effects:

The utility model is based on Along Railway and excavates high precipitous rock slope particularity, and it is micro- to establish railway high precipitous rock slope The on-site wireless networking mode of shake monitoring sensor and the dual-channel transmission mode that monitoring data are wireless and railway private network is wired, solution It has determined the problems such as being routed flexible, easy to maintain, high efficiency of transmission under the conditions of complicated geological environment, has substantially increased railway high precipitous rock The working efficiency of side slope Microseismic monitoring system, has saved system cost, has broad application prospects.

The utility model is microseismicity Evolution and the dynamic stability assessment that railway excavates high precipitous rock slope Provide reliable hardware support.

Detailed description of the invention

Fig. 1 is the structural schematic diagram of the utility model embodiment；

Fig. 2 is that main passive wireless communication and poll communication data flow to schematic diagram；

Fig. 3 is the high precipitous rock slope stability assessment flow chart for considering microseism damage；

Specific embodiment

Utility model works process includes the following steps:

1) scene obtains slope rock mass rock sample, obtains rock strength, elasticity modulus, rock by indoor three axis and uniaxial test M, s value of stone；

2) cohesive strength and internal friction angle of slope rock mass are obtained；

3) side slope microseism is acquired and is calculated by sensor after occurring, and obtains positioning, the energy of microseism；

4) Rock Damage variable and damage moduli are calculated；

5) damage of the RMR of Research On Rockmass Quality Classification At Right Bank of Ahydro index within the scope of microseism focus is calculated:

6) based on m, s value for being calculated rock mass within the scope of acquisition microseism by disturbance rock mass:

7) side slope internal stress value is obtained based on side slope stress monitoring, and obtains the intensity of microseism range rock mass by calculating Mechanics parameter；

8) side slope computation model parameter is adjusted, and finally obtains the estimation of stability of side slope.The utility model is real The accurate measurements to high precipitous rock slope stability and assessment are showed.

The utility model also provides railway high precipitous rock slope Microseismic monitoring system, including following part:

The Acquisition Instrument slave station being connect with acceleration transducer, strain gauge, displacement sensor；

The Acquisition Instrument main website of communication connection is formed with Acquisition Instrument slave station；

The remote server that telecommunication is connect is formed with Acquisition Instrument main website；

The local server of communication connection is formed with Acquisition Instrument slave station；

It is communication connection between the local server and remote server.

Specifically, monitoring system includes the signal receiving unit for being installed on high precipitous rock slope, is received with the signal The connected Acquisition Instrument slave station of unit, two kinds of signal acquisition lists of the data radio station being connected with the Acquisition Instrument slave station and Acquisition Instrument main website Member；The center data radio station being connected with the data radio station, and the serial ports transition net being connected with the center data radio station Mouth mold block and interchanger, the local server being connected with the interchanger, and be connected by railway private network with remote server, it is real Now monitor the real-time Transmission of initial data；The DTU being connected with the acquisition main website, and pass through wireless network and remote server phase Even, the real-time Transmission of monitoring data calculation result is realized.

Microseism, the slopes internal stress, surface displacement for receiving processing unit and being used to receive railway high precipitous rock slope Equal signals, and the original signal is sent to data radio station, calculation result data is sent to Acquisition Instrument main website or Acquisition Instrument master It stands and data is actively asked for the progress of Acquisition Instrument slave station.The data radio station is collected for micro seismic monitoring initial data, and will Aggregated data converts network interface module by center data radio station, serial ports and interchanger is transferred to local server, the local clothes Business device is transmitted to remote server by railway private network.The Acquisition Instrument main website is used to calculate number to microseism, stress, displacement etc. According to being collected, and data are sent to remote server by DTU wireless transmission method.

Preferably, the signal receiving unit includes multiple sensors, such as acceleration transducer, strain gauge, displacement Sensor etc., sensor are simultaneously laid by certain mode, and the acceleration transducer excavates high precipitous rock for receiving The microseismic signals of rock masses fracturing inside side slope, the strain gauge is for receiving excavation slope internal stress situation of change, institute Displacement sensors are used to receive the macroscopic deformation amount of excavation slope, and the sensor passes through signal wire and Acquisition Instrument slave station phase Even.

Preferably, the Acquisition Instrument slave station is for collecting the signals such as microseism, stress, deformation, to monitoring data into Row real-time calculation and analysis, and wireless networking is realized with the Acquisition Instrument main website.The wireless networking is wireless using 433Mhz Communication module has LORA spread spectrum, can realize the wireless communication for being up to 1.5Km under extremely low consumption conditions.

Preferably, the Acquisition Instrument main website is for being collected the calculation result data of Acquisition Instrument slave station, and passes through DTU Transfer data to remote center's server.

Preferably, the data radio station is for being transmitted to center to the primary monitoring data of the signals such as microseism, stress, deformation Data radio station realizes the wireless networking of monitoring field.

Preferably, the serial ports conversion network interface module and interchanger realize the demand of communication both ends transmission information.

Preferably, the local server stores primary monitoring data, and data are transmitted by railway private network To remote server.

Preferably, the remote server stores primary monitoring data and calculation result data, to high precipitous rock Ambient stress, deformation behaviour and the rupture event of side slope are analyzed, and are carried out to the stability of high precipitous rock slope real-time, dynamic State assessment.

Preferably, the sensor and acquisition unit are all made of solar powered.

Preferably, there is the acquisition unit two-way interactive, Noise reducing of data, frequency control and the firmware of data remotely to rise Grade.

Preferably, the client is computer and mobile phone.

The micro seismic monitoring appraisal procedure further includes the acceleration transducer, strain gauge and displacement sensor cloth If the step includes:

Using high precipitous rock slope to be measured as basic point, in conjunction with slope excavating situation, at least five acceleration is equidistantly laid in space Sensor guarantees stability and reliability that signal receives, sensor is needed to consolidate to avoid the filtering for excavating Relaxation Zone from influencing It is scheduled in the drilling of 1~2.5m of hole depth.Gun drilling can also be used, sensor is mounted on inside rock mass.

Investigation is carried out to the slopes structure of the high precipitous rock slope to be measured, according to the important monitoring of slopes structure determination stress Position, the monitoring depth of strain gauge must cover the important monitoring position of stress.

Carry out investigation, displacement sensor in the region that drawing crack deformation is likely to occur to the top of the slope of the high precipitous rock slope to be measured It is mounted on the outside of drawing crack deformed region, datum mark is laid in base fixed region, and basement rock is goed deep into datum mark drilling and is stablized Region.

Preferably, according to treated monitoring data to micro rupture, the stress distribution, deformation feelings for excavating high precipitous rock slope Condition carries out calculating analysis, and carries out assessment, step in real time to the stability of high precipitous rock slope and include:

The information such as microseism locations, microseism density, microseism energy level, the origin time of earthquake are obtained by micro seismic monitoring, determine side slope Extending stress band (zone of fracture)；

The stress condition that rupture zone is obtained by stress monitoring, is modified zone of fracture rock mass strength mechanics parameter；

Stability assessment is carried out to the high precipitous rock slope with side slope stress state and rock mass strength mechanics parameter.

Embodiment

Railway high precipitous rock slope Microseismic monitoring system, structural schematic diagram are as shown in Figure 1.Including for acquire microseism, The acquisition process unit of stress and displacement signal, for receiving the live cable service unit of microseism initial data, for collecting, Microseism after transmission process, stress, deformation data on-site wireless service unit, for receiving, storing, the long-range clothes of analysis decision Business device.

Wherein acquisition process unit includes Acquisition Instrument slave station, for receiving the microseism of railway high precipitous rock slope, in slopes The signals such as portion's stress, surface displacement, and the microseism original signal is sent to center data radio station by data radio station, to meter It calculates treated microseism, stress and displacement data and is sent to Acquisition Instrument slave station or Acquisition Instrument main website and Acquisition Instrument slave station is carried out actively Ask for data；Acquisition Instrument slave station at least 5 for acquiring the acceleration transducers of microseismic signals in rock side slope, at least 2 with In the displacement sensor that the strain gauge and slope epitope of acquisition slopes internal stress move.

Wherein live cable service unit includes that the middle calculation being wirelessly connected with acquisition process cell signal output end conducts electricity Platform, the serial ports for data transfer mode conversion turn network interface module, the local server for receiving, storing, handle；Scene clothes Business device signal input part turns network interface module with interchanger, serial ports by cable and is connected with center data radio station.

Wherein on-site wireless service unit includes the Acquisition Instrument main website being wirelessly connected with acquisition process cell signal output end, DTU for sending data by wireless network.

The main passive wireless communication and poll communication data of Acquisition Instrument main website and slave station flow to schematic diagram such as in the present embodiment Shown in Fig. 2.Collection in worksite system uses wireless networking mode, and master is added in communication protocol and passively combines communication mechanism, it is ensured that In the situation that catchs the exception at the first time.

Consider that the high precipitous rock slope stability assessment flow chart of microseism damage is as shown in Figure 3 in the present embodiment.Assessment system System is first directed to the model parameter of side slope calculating, and wherein intensive parameter can be used indoor and outdoor test and obtain；It acquires inside side slope Stress and microseismic signals carry out noise reduction to initial signal using Kalman filtering, improve the accuracy of monitoring accuracy and data；Base Model is modified in real-time stress condition, and the microseismic signals of acquisition are calculated, obtain microseism earthquake magnitude, position, The parameters such as the origin time of earthquake and density establish the potential slide strips of rock side slope；Based on microseism energy, development density etc., split using rock mass Change analysis method and back analysis is carried out to the mechanics parameter of potential slide strips (zone of fracture)；Rock side slope is real-time, dynamic power Under the conditions of learning parameter and ambient stress, carry out Slope Stability Evaluation.

Claims (2)

1. railway high precipitous rock slope Microseismic monitoring system, which is characterized in that including following part:

Acquisition process unit, including acceleration transducer, strain gauge, displacement sensor and time service synchronization module；

The Acquisition Instrument main website of communication connection is formed with acquisition process unit；

Telecommunication unit, the telecommunication for establishing between Acquisition Instrument main website and remote server；

The acceleration transducer is used for the microseismic signals for receiving to excavate rock masses fracturing inside high precipitous rock slope, and the stress passes Sensor is used to receive the macroscopic deformation of excavation slope for receiving excavation slope internal stress situation of change, institute's displacement sensors Amount, each sensor are connected by signal wire with Acquisition Instrument slave station.

2. railway high precipitous rock slope Microseismic monitoring system as described in claim 1, which is characterized in that further include: with acquisition Processing unit forms the local server of communication connection；

The remote server of communication connection is formed with acquisition process unit；

It is communication connection between the local server and remote server.