CN202548122U - Shock simulation system for model test - Google Patents

Abstract

The utility model relates to a shock simulation system for model test, applicable to model test research on deep rock engineering under deep-buried and high-stress state, belonging to the technical field of rock soil engineering. The shock simulation system comprises a hydraulic servo control device, a reciprocating hydraulic jack having a trapezoid piston, and a cylindrical force transmission column. Oil cylinder body of the reciprocating hydraulic jack is provided with a first oil path and a second oil path, which are connected with the hydraulic servo control device through lead wires. One end of the force transmission column is opened with a cylindrical concave hole, in which the piston of the reciprocating hydraulic jack is moveably disposed. The utility model can be used to simulate disturbance influence of seismic wave, generated by earthquake or drill blast method excavation, on surrounding rock of underground workshop, underground chamber, roadway, etc. The shock simulation system can be widely applied in geomechanics model test of deep-buried underground engineering, such as water conservancy, hydropower, transportation, energy source and national defense.

Description

The vibrations simulation system that is used for model experiment

Technical field

The utility model relates to a kind of vibrations simulation system that is used for model experiment, can be applicable to the model investigation of the deep rock engineering under buried, the high-stress state, belongs to the Geotechnical Engineering technical field.

Background technology

Model test is according to the principle of similitude and similarity criterion, makes the reduced scale mock-up, is used to predict prototype work condition, and the measuring technology of checking design and result calculated is widely used in fields such as Aero-Space, Structural Engineering, Geological Engineering at present.In China, geomechanical model test starts from initial stage eighties late 1970s, along with the construction of large quantities of underground power houses, chamber and grow up.Model experiment method can reflect influencing each other of the natural rock mass mechanical characteristic and the buildings that interrelates with it qualitative or quantitatively, can verify each other with numerical analysis method.And it can compare comprehensively the tectonic structure of Simulation of Complex truly, finds mechanics phenomenon and rule that some are new, for setting up new theory and mathematical model foundation is provided.Particularly importantly; Model experiment can construction simulation technology; When research is excavated chamber in the rock mass of certain initial stress field; The adjustment process of surrouding rock stress and distribution thereof, deformation and failure form, failure mechanism, the stress distribution characteristic of country rock, displacement distribution characteristic, displacement maximal value and happening part and supporting effect etc.

Current drilling and blasting method remains subterranean tunnel and excavates widely used a kind of method; Also may adjacent tunnel or the chamber that excavate completion be impacted in the corresponding rock blasting process, show that mainly concussion of blasting influence (stress wave propagation) and excavation cause the heavy distribution influence of surrouding rock stress.Attenuation of seismic waves is in communication process; When running into different geological structure such as complete rock mass, joint fissure face, can reflect, complicated phenomenons such as transmission and diffraction, diffraction, waveform transformation, waveguide, interlayer ripple, make the rock mass pressurized, drawn, because country rock generally has lower tensile strength; Add some primary microfissure damages; It is bad to be easy to cause country rock to pull open, and then possibly produce some special surrounding rock failure phenomenons, as the subregion of country rock break, plate splits destruction etc.For attenuation of seismic waves and geological process crash simulation to deep wall rock, several kinds of modes below the researcher mainly passes through both at home and abroad:

(1) rock mechanics and engineering journal (2012, the 1st phase) have been mentioned on the top in hole that model test piece is excavated and having been blown out, the failure mode and the failure mechanism of research chamber anchor pole;

(2) in rock mechanics and the engineering journal (2008, the 4th phase), blow out on the top in model excavation tunnel, modeling effort the blast wave effect cast anchor distance between tie rods to the surrounding rock consolidation effect;

(3) rock mechanics and engineering journal (2011, the 4th phase) have been mentioned in model test with large vibration table simulated earthquake ripple, have studied the destruction situation of tunnel portal country rock and lining cutting.

Mainly there is following shortcoming in simulation to explosion, geological process in the model test of more than mentioning:

(1) above-mentioned preceding two kinds of simulations to explosion of mentioning all are to put the destruction of some explosives research to surrounding rock of chamber through burying in cast material according to certain similar proportion; But when utilizing model test to simulate buried subsurface rock engineering; The underground chamber factory building is in high-stress state; And generally be three received strength, thus require cast material is carried out very three-dimensional large-tonnage independent loads, and carry out under this kind loading environment that explosive is buried underground, ignition etc. is difficult to realize;

(2) shaking table is that present simulated earthquake is to buildings or the most frequently used method of underground works influence; And the model test independent for deep-buried rock engine request three-dimensional equally, that large-tonnage loads realizes that under this loading environment the shaking table vibrations also are difficult to realize again.

Summary of the invention

To above-mentioned present model test borehole blasting, the existing shortcoming of earthquake simulation system; The purpose of the utility model is to provide a kind of novel vibrations simulation system; Simulation system can realize under the three-dimensional loading environment, energetic disturbance being provided to model test piece, is used to simulate the stress wave of blast action generation and the seismic event that geological process produces.

To achieve these goals, the utility model is realized through following technical scheme, is used for the vibrations simulation system of model experiment; Constitute by Hydraulic Servo Control device, reciprocating hydraulic lifting jack and force-transmitting pole; The piston of reciprocating hydraulic lifting jack is trapezoidal shape, and the cylinder block of reciprocating hydraulic lifting jack is provided with first oil circuit and second oil circuit, and first oil circuit is positioned at the piston tail end; Second oil circuit is positioned at piston nose; It is cylindric that force-transmitting pole is, and force-transmitting pole one end has cylindrical shrinkage pool, and the piston of reciprocating hydraulic lifting jack is movable places the shrinkage pool on the force-transmitting pole; First oil circuit on the reciprocating hydraulic lifting jack is connected the Hydraulic Servo Control device with second oil circuit through lead, and the oil cylinder external diameter of reciprocating hydraulic lifting jack equates with the force-transmitting pole external diameter.

In the utility model; The piston of reciprocating hydraulic lifting jack can be with certain frequency vibrations; Force-transmitting pole is applied certain vibrations load, is to lean on following technological means to realize: at first pass through the waveform of hydraulic servo control system input certain frequency and amplitude, the certain frequency cyclical movement is pressed through the turnover amount and the turnover speed promotion piston rod of control oil by system; Piston rod end bump force-transmitting pole is realized the vibrations to physical model.

In the utility model, the vibrations load that applies is on the whole loading system applies the basis of a primary stress, to apply, and plays the effect of transmitting load so the reciprocating hydraulic lifting jack is double.

Be respectively equipped with servo-valve on described first oil circuit and second oil circuit, the effect of servo-valve is the accurately turnover of control oil under the control of hydraulic servo control system.

Described reciprocating hydraulic lifting jack bearing capacity >=1000 tons can bear loading system to its big load action that applies.

Described reciprocating hydraulic lifting jack, oil cylinder, piston and force-transmitting pole are cylindrical, and piston is the reducing piston.

The vibrations simulation system of the utility model has the following advantages:

(1) can realize in the large-tonnage loading procedure cast material being carried out vibratory test; Not only can simulate the residing high-stress state of deep rock mass; And can simulate under the initial high-stress state detonation stresses ripple to the effect of country rock, research stress wave or seismic event are to the influence of buried underground works stability;

The loading that (2) can possess static(al) and dynamic model test simultaneously requires: because reciprocating hydraulic lifting jack external diameter is identical with the force-transmitting pole external diameter and be that face contact, can assign the reciprocating hydraulic lifting jack as a load transfer device in the time of in testing, need not simulating disturbance; When needing the simulation energetic disturbance in the test, apply the vibrations load through Hydraulic Servo Control device control reciprocating hydraulic lifting jack;

(3) can be in the three-dimensional load test, the left side of horizontal direction or right side are installed this vibroseis and to model the horizontal direction disturbance are provided, and at the upside of vertical direction or downside this vibroseis are installed and to model the vertical direction disturbance are provided.Study the failure law and mechanism and supporting measure and the supporting effect that have excavated surrounding rock of chamber under these two kinds of energetic disturbances, bring out mechanism etc. to rock burst under the research blast disturbance condition.

Description of drawings

The structural representation of Fig. 1 the utility model;

The initial stress state that Fig. 2 receives for cast material;

Fig. 3 is the concussion waveform through the hydraulic servo device input;

Fig. 4 is the final stress of cast material after two kinds of load stacks

Embodiment

Below in conjunction with accompanying drawing the vibrations simulation system that the utility model is used for model experiment is described in further detail.

See accompanying drawing

The vibrations simulation system that is used for model experiment is made up of Hydraulic Servo Control device, reciprocating hydraulic lifting jack and force-transmitting pole 4, and the piston 2 of reciprocating hydraulic lifting jack adopts the reducing piston; The reducing piston is trapezoidal shape; Oil cylinder 1 cylinder body of reciprocating hydraulic lifting jack is provided with first oil circuit 5 and second oil circuit, 6, the first oil circuits 5 are positioned at piston 2 tail ends, and second oil circuit 6 is positioned at piston 2 front ends; Force-transmitting pole 4 is cylindric; Force-transmitting pole 4 one ends have cylindrical shrinkage pool 3, and the piston of reciprocating hydraulic lifting jack is movable places the shrinkage pool 3 on the force-transmitting pole 4, and first oil circuit 5 on the reciprocating hydraulic lifting jack is connected the Hydraulic Servo Control device with second oil circuit 6 through lead.Oil cylinder 1 external diameter of reciprocating hydraulic lifting jack equates with force-transmitting pole 4 external diameters.

Be respectively equipped with servo-valve on described first oil circuit 5 and second oil circuit 6; The effect of servo-valve is the accurately turnover of control oil under the control of hydraulic servo control system; The piston that can make the reciprocating hydraulic lifting jack is done the vibrations of vibration frequency≤10 hertz to force-transmitting pole, and force-transmitting pole will shake load and be delivered on the physical model of test through bearing plate.

Described reciprocating hydraulic lifting jack bearing capacity >=1000 tons can bear loading system to its big load action that applies.

The vibrations simulation system of model experiment places in process of the test between loading system and the physical model.The initial dead load F (as shown in Figure 2) that at first applies testing requirements through loading system affacts the left side of reciprocating hydraulic lifting jack; If only do the static(al) model test; Hydraulic servo control system will not participated in test; The reciprocating hydraulic lifting jack is only as load transfer device, and piston 2 does not have contacting of power with force-transmitting pole 4; If basic enterprising action edge upset test in the static(al) model test; Then on initial dead load F basis; The step waveform signal (as shown in Figure 3) that at first will simulate through hydraulic servo control system input is provided with and comprises parameters such as frequency, amplitude (can analog vibration frequency≤10 hertz vibrations).Under the effect of hydraulic servo control system; Oil gets into the left side oil cylinder through first oil circuit 5, and this moment, left servo-valve was opened downwards, and the oil in the oil cylinder of right side flows out through second oil circuit 6; This moment, right servo-valve was upwards opened; Piston 2 ends are clashed into adjacent with it force-transmitting pole 4 fast under the oil pressure effect of left side like this, and force-transmitting pole 4 will shake Load Transfer to model through the bearing plate that contacts with model, and left afterwards servo-valve is upwards opened; The oil that allows to have elevated pressures in the oil cylinder of left side flows out oil cylinder, passes through the second oil circuit oil-feed then with the piston rod forced back.So reciprocation cycle applies periodically dynamic load to model.Under static load and vibrations load superposition, simulation is in stressed (as shown in Figure 4) of heavily stressed deep rock mass under blast disturbance or seismic shock effect.

Claims (4)

1. the vibrations simulation system that is used for model experiment; It is characterized in that: said vibrations simulation system is made up of Hydraulic Servo Control device, reciprocating hydraulic lifting jack and force-transmitting pole (4); The piston of reciprocating hydraulic lifting jack (2) is trapezoidal shape; The oil cylinder of reciprocating hydraulic lifting jack (1) cylinder body is provided with first oil circuit (5) and second oil circuit (6), and first oil circuit (5) is positioned at piston (2) tail end, and second oil circuit (6) is positioned at piston (2) front end; Force-transmitting pole (4) is cylindric; Force-transmitting pole (4) one ends have cylindrical shrinkage pool (3), and the piston of reciprocating hydraulic lifting jack is movable places the shrinkage pool (3) on the force-transmitting pole (4), and first oil circuit (5) on the reciprocating hydraulic lifting jack is connected the Hydraulic Servo Control device with second oil circuit (6) through lead.

2. the vibrations simulation system that is used for model experiment according to claim 1 is characterized in that: be respectively equipped with servo-valve on described first oil circuit (5) and second oil circuit (6).

3. the vibrations simulation system that is used for model experiment according to claim 1 is characterized in that: the oil cylinder of reciprocating hydraulic lifting jack (1) external diameter equates with force-transmitting pole (4) external diameter.

4. the vibrations simulation system that is used for model experiment according to claim 1 is characterized in that: described reciprocating hydraulic lifting jack bearing capacity >=1000 tons.

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