CN209231127U - A kind of big equivalent underground explosion effect analog device - Google Patents

Abstract

The utility model discloses a kind of big equivalent underground explosion effect analog devices, including container tank, the vacuum evacuation device being connected with container tank, quick-fried source device；Quick-fried source device includes pressurizing device, piston cylinder, first piston, elastic component, sealing ring, second piston, gun tube, diaphragm, housing, hoodle, compression relief cock, the cloche covered outside gun tube, the air pressure regulating device being connected with cloche；Piston cylinder is connected with gun tube；Gun tube top is connected with housing, and housing is equipped with the launch hole filled with hoodle；Second piston is arranged in gun tube；Diaphragm is arranged in gun tube upper end；First piston is located in piston cylinder；First piston lower end is equipped with elastic component, and sealing ring is equipped between first piston upper end and piston cylinder；Piston cylinder is divided into two cavitys by first piston lower end；First piston lower end is equipped with the stomata of two cavitys of connection, and interior is equipped with the first check valve；Pressurizing device is connected to the lower cavity of piston cylinder；Piston cylinder is connected with compression relief cock；The present apparatus is safely controllable.

Description

A kind of big equivalent underground explosion effect analog device

Technical field

The utility model belongs to underground protective engineering construction and guard technology and engineering explosion research field, in particular to and one The big equivalent underground explosion effect analog device of kind.

Background technique

As various blasting techniques are on traffic, hydraulic and hydroelectric engineering construction, the prospecting and exploitation of the energy and mineral resources, ground The successful application of matter disaster taken precautions against natural calamities with fields such as mitigations, the scale of engineering explosion constantly expand.A large amount of Blasting Practice shows When increasing underground explosion scale, it is necessary to consider effect of the gravity in the forming process of throwing crater, develop a kind of consideration gravity The simulator of the big equivalent underground explosion effect influenced, being capable of various influence factors pair during accurate simulation underground explosion The influence that crater and bulge are formed makes people be easier to hold movement, deformation and the destruction characteristic of rock mass in blasting process comprehensively, It is Study of The Underground Blow-up Problems, a kind of especially effective method of underground nuclear explosion problem.

Currently, consider gravity influence underground explosion physical model test device mainly have centrifuge blast analogue device and Vacuum chamber blast analogue device.Vacuum chamber bang model experimental rig controllability is strong, and simulation is applied widely, buries greatly in big equivalent There is apparent advantage when deep underground explosion is at hole phenomena simulation.It is external earliest in existing vacuum chamber blast analogue device The scholars such as M.A.Sadovskii and V.V.Adushkin by Geophysics Institute, the former Soviet Union are manufactured that vacuum chamber underground is quick-fried Fried simulator, what the quick-fried source device of the device was made into using thin-walled rubber air bag built in spherical nickel filament metal grate, pass through Low-tension current heats nickel filament to hardening crack ball and achieve the purpose that discharge compressed gas.But the detonation mode nickel of the device The heating time of chromium silk is uncontrollable, rubber pneumatic bag be likely to randomly from somewhere open a breach cause gas spray it is uneven, It is not consistent with underground throwing explosion at hole physical process, test simulation result is impacted.Domestic vacuum chamber underground explosion Effect analog device earliest by engineering university, ground force (former liberation army Polytechnics) blast impulse prevent and reduce natural disasters state key experiment In document, (simulation test is compared in the contracting of the big equivalent Shallow-Embedded Under-Ground explosion throwing blast crater effect of the such as Xu little Hui, Qiu Yanyu, Wang Mingyang for room Device development (J) explodes and report in impact, DOI:10.11883/bzycj), and it is flexibility that the quick-fried source device in the device, which uses, The mode of primacord center propagation of explosion broken glass ball cover simulates underground explosion cavity.But due to needing using electric thunder in the device The hazardous explosion prones article such as pipe, primacord requires high, test safety, operability not high experimental condition.Big equivalent (0.1~ 200 kilotons) underground explosion effect analog experiment apparatus can further improve the safety and operability of domestic such device.

Utility model content

The technical issues of the utility model is solved is to provide a kind of big equivalent underground explosion effect analog device, with reality Existing safely controllable vacuum chamber simulation test device.

Realize the technical solution of the utility model aim are as follows:

A kind of big equivalent underground explosion effect analog device, including container tank, vacuum evacuation device, quick-fried source device；Described One vacuum evacuation device is connected by pipeline with container tank, for doing vacuumize process to container tank, so that the pressure in container tank Pressure needed for reaching simulation work；

The quick-fried source device includes cloche, pressurizing device, piston cylinder, first piston, elastic component, the first sealing ring, Two pistons, gun tube, diaphragm, housing, hoodle, compression relief cock, air pressure regulating device；

The piston cylinder top is equipped with through-hole, and through-hole is connected with gun tube, is connected inside gun tube bottom and piston cylinder；It is described Gun tube top is fixed with housing, and housing is equipped with multiple launch holes, is filled with hoodle in launch hole；The glass enclosure is in gun tube Outside seals between cloche and gun tube, and cloche is connected with air pressure regulating device；The second piston is arranged in big gun In pipe, it can be slided up and down in gun tube；The diaphragm is arranged in gun tube upper end, to be sealed to gun tube upper end；Described first Piston is arranged in piston cylinder, can slide up and down in piston cylinder；The first piston vertical section is I-shaped；And lower end surface face Product is greater than upper surface area；The first piston lower end is equipped with elastic component, and elastic component pushes up first piston upper end and piston The contact of cylinder upper end inner wall, and the first sealing ring is equipped between first piston upper end and piston cylinder, the first sealing ring is to piston cylinder top End through-hole is sealed；Piston cylinder internal cavities are divided into upper and lower two cavitys by the first piston lower end；Described first is living It fills in lower end and is equipped with venthole, upper and lower cavity is connected to by venthole, and is equipped with the first check valve in venthole, and the first check valve makes Gas can only flow to upper plenum from lower cavity through venthole；The pressurizing device passes through the pipeline of piston cylinder bottom and piston cylinder Lower cavity is connected；The pipeline of the piston cylinder bottom is also connected with compression relief cock, to let out to cavity gas under piston cylinder Pressure.

The utility model compared with prior art, remarkable advantage:

(1) the utility model realizes quick-fried source in such a way that second level high drive hoodle array synchronization launches cloche Accurate detonation, not only demolition effect is good, but also reproducible, improves the authenticity and application for simulating quick-fried source.

(2) the utility model package unit is especially the highly-safe of quick-fried source device, compared to using electric cap, primacord Priming device of the equal hazardous explosion prones article as simulator, present apparatus test operation it is highly-safe, controllability is strong.

(3) test parameters of device such as vacuum degree, cloche pressure value, adjustable controllable, simulation context is wide, without as geotechnique Centrifuge provides additional acceleration, has apparent advantage when simulation descends crater effect on a large scale.

(4) versatile: underground shallow buried chemical explosion throwing phenomenon under spherical charge and cylindricality charging condition can be simulated, Differently matter orographic condition, throwing explosion phenomenon in multilayer dielectricity can be simulated, and has measuring function.

(5) centrifuge several ten million even more than one hundred million manufacturing costs easily are used compared to existing simulator, this is practical new Type apparatus cost is low in cost, and relevant test result can be widely applied to brill ground nuclear weapon and injure mechanism and heavy construction at hole The prediction of demolition effect.

The utility model is described in further detail with reference to the accompanying drawing.

Detailed description of the invention

Fig. 1 is the utility model simulator general structure schematic diagram.

Fig. 2 is the structural schematic diagram of quick-fried source device.

Fig. 3 is that enlarged diagram is connected at the top of gun tube.

Specific embodiment

In order to illustrate the technical solution of the utility model and technical purpose, with reference to the accompanying drawing and specific embodiment is to this reality It is described further with novel.

In conjunction with Fig. 1-3, a kind of big equivalent underground explosion effect analog device of the utility model, including container tank 100, One vacuum evacuation device 300, quick-fried source device 200；

First vacuum evacuation device is connected by pipeline with container tank 100, for vacuumizing place to container tank 100 Reason so that the pressure in container tank 100 reach simulation work needed for pressure；

The quick-fried source device 200 includes cloche 1, pressurizing device, piston cylinder 26, first piston 22, elastic component 28, first Sealing ring 25, second piston 21, gun tube 15, diaphragm 19, housing 17, hoodle 16, compression relief cock, air pressure regulating device；

26 top of piston cylinder is equipped with through-hole, and through-hole is connected with gun tube 15,15 bottom of gun tube and 26 inside phase of piston cylinder Connection；15 top of gun tube is fixed with housing 17, and housing 17 is equipped with multiple launch holes, is filled with hoodle 16 in launch hole； 1 set of the cloche is sealed between 1 lower end of cloche and gun tube 15 by sealing-plug 20 outside gun tube 15, and cloche 1 with Air pressure regulating device is connected；The air pressure regulating device is to adjust the air pressure in cloche 1, to reach real Test necessary requirement；The second piston 21 is arranged in gun tube 15, can slide up and down in gun tube 15；The setting of diaphragm 19 exists 15 upper end of gun tube, to be sealed to 15 upper end of gun tube；The first piston 22 is arranged in piston cylinder 26, can be in piston cylinder 26 Inside slide up and down；22 vertical section of first piston is I-shaped；And lower end surface area is greater than upper surface area；Described first is living 22 lower ends are filled in equipped with elastic component 28, elastic component 28 pushes up 22 upper end of first piston and contacts with 26 upper end inner wall of piston cylinder, and Between 22 upper end of first piston and piston cylinder 26 be equipped with the first sealing ring 25, the first sealing ring 25 to 26 top through-hole of piston cylinder into Row sealing；26 internal cavities of piston cylinder are divided into upper and lower two cavitys by 22 lower end of first piston；The first piston 22 Lower end is equipped with venthole 24, and venthole 24 is connected to two cavitys up and down, and the first check valve 27 is equipped in venthole 24, and first is single Make gas that can only flow to upper plenum from lower cavity through venthole 24 to valve 27；The pressurizing device passes through the pipe of 26 bottom of piston cylinder Road is connected with the lower cavity of piston cylinder 26, to carry out the gas of charged pressure to piston cylinder 26；26 bottom of piston cylinder Pipeline is also connected with compression relief cock, to carry out pressure release to the lower cavity gas of piston cylinder 26.

Further, the air pressure regulating device include air tube 3, connector 4, the first solenoid valve 5, first switch 6, Battery 7, pressure buffer 8, pressure gauge 9, pressure relief safety valve 10, the first vacuum meter 11, air compressor machine 12, the first vacuum pump 13, ball Valve 14；

Described 3 one end of air tube passes through the first sealing-plug 2 and is connected with cloche 1, and the other end passes through connector 4 and the first electromagnetism Valve 5 is connected；First solenoid valve, 5 other end is connected with pressure buffer 8；The pressure gauge 9, the first vacuum meter 11, pneumatics Machine 12, the first vacuum pump 13 are connected by ball valve 14 with pressure buffer 8；Pressure release is also equipped on the pressure buffer 8 Safety valve 10；The ball valve 14 is used to control air compressor machine 12, the first vacuum pump 13 is switched on or off with pressure buffer 8；When When pressure buffer 8 and air compressor machine 12 are connected, pressure gauge 9 is for measuring pressure in pressure buffer 8, i.e., in measurement cloche 1 Pressure；When pressure buffer 8 is connected to the first vacuum pump 13, the first vacuum meter 11 is for measuring in pressure buffer 8 Vacuum degree, i.e. vacuum degree in measurement cloche 1；The battery 7 is connected by first switch 6 with the first solenoid valve 5, battery 7 By first switch 6 to 5 power on/off of the first solenoid valve, to control the opening and closing of the first solenoid valve 5.

Further, the first piston 22 cooperates with lower end and 26 inner wall of piston cylinder, the first piston 22 and piston Guiding mechanism is equipped between cylinder 26, to guarantee sliding stability of the first piston 22 in piston cylinder 26.

As an implementation, the guiding mechanism is guide plate, and the guide plate 23 is fixed on the upper of piston cylinder 26 In cavity, the guide plate 23 is equipped with pilot hole and multiple ventholes；Cooperate among the first piston 22 with pilot hole, it can It is slided up and down along pilot hole, venthole is not separated with the upper plenum for guaranteeing piston cylinder 26 by guide plate 23.

Alternatively embodiment, the guiding mechanism are guide ring；The guide ring is arranged on piston cylinder 26 End is internal；Guide ring is axial axially coaxial with 26 upper end through-hole of piston cylinder；In the 22 upper end outer wall of first piston and guide ring Wall fitting, 22 upper end of first piston can slide up and down in guide ring.

In other embodiment, the guiding mechanism is guide rod, and the guide rod is arranged on piston cylinder 26 End is internal, has extended downwardly guide rod from piston type upper wall, 22 upper end of first piston is equipped with pilot hole, and pilot hole is located at Outside first sealing ring 25, the pilot hole of guide rod and first piston 22 cooperates, and first piston 22 can be slided up and down along guide rod.

Further, the pressurizing device includes high pressure gas cylinder 35, pressure reducing valve 34, second one-way valve 32；The high pressure gas Bottle 35 is connected through pressure reducing valve 34 with second one-way valve 32, and the second one-way valve 32 is connected with the pipeline of 26 bottom of piston cylinder.It is high The high pressure gas of air bottle 35 is after the decompression of pressure reducing valve 34, by second one-way valve 32 to filling high pressure gas in piston cylinder 26.

Further, the quick-fried source device 200 is additionally provided with pressure measuring unit, accurately to detect the gas pressure of pressurizing device filling Power.

In some embodiments, the pressure measuring unit is pressure gauge 33, and the pressure gauge 33 is arranged after pressure reducing valve 34 Escape pipe on.

In other embodiment, the pressure measuring unit is pressure sensor, and the pressure sensor setting is subtracting The pipeline of escape pipe, 26 bottom of piston cylinder after pressure valve 34 is connected with 26 internal cavities of piston cylinder.

Preferably, the compression relief cock includes second solenoid valve 31, second switch 30；The second solenoid valve 31 and piston The pipeline of 26 bottom of cylinder is connected；The second switch 30 passes through the realization pair of second solenoid valve 31 to 31 power on/off of second solenoid valve Gas releasing pressure automatically in the lower cavity of piston cylinder 26.

In conjunction with Fig. 3, further, 15 upper end of gun tube close to the upward diameter of diaphragm 19 be gradually reduced or gun tube 15 on End is equipped with the cone 18 that is gradually reduced of upward diameter, when so that second piston 21 being moved upwards along gun tube 15, second piston 21 by After high-speed motion passes through diaphragm 19, the height of 21 bottom of second piston is avoided to reach sealing effect embedded in 15 upper end of gun tube Body of calming the anger enters in housing 17, to have an impact to test environment parameter, so that the emission rate quantification amount of hoodle 16 It surveys, improves experiment measurement accuracy.

Further, 26 bottom of piston cylinder is detachable structure, and to dismantle installation, 26 bottom of piston cylinder is set There is capping, the second sealing ring 29 is equipped between capping and cylinder body and is sealed.

Further, the shape of the hoodle 16 can be the other shapes such as spherical shape, ellipsoid, cylinder, can be in housing With hemispherical, taper or other shapes of array distribution on 17.

Further, the elastic component 28 is spring or rubber.

Further, the vacuum evacuation device includes the second vacuum pump 300, the second vacuum meter 110；Second vacuum pump 300, the second vacuum meter 110 is connected with container tank 100, is respectively used to progress vacuumize process in container tank 100 and to true Reciprocal of duty cycle is shown.The vacuum pump 300 is the multistage pump that sliding-vane pump and lobe pump form.

As preferred embodiment, the container tank 100 is circular cylindrical cavity structure, and use is horizontal；In some implementations In mode, the container tank 100 is also possible to the chamber of cube cavity body structure, circular cavity structure, polygon or other shapes Body structure, use are vertical；It is equipped with cabinet 600 in container tank 100, is buried needed for the blast analogues such as quartz sand, the soil body for filling If filler 900.

In some embodiments, 100 main material of container tank be clad steel plate (stainless steel+container panel), it is external Wind insulation material layer and frp layer.

As the further improvement to above embodiment, entire simulator further include image collecting device, it can be achieved that Image Acquisition during entire explosive test, described image acquisition device includes high-speed camera 400, computer 500, LED Lamp 700；The outer end of container tank 100 is arranged in high-speed camera 400, and is connected with computer 500, and computer 500 will be taken the photograph at a high speed The image that camera 400 is shot is stored；The container tank 100 is equipped with observation window, is shot for high-speed camera 400； The different location in container tank 100 is set as needed in the quantity of LED light 700.Further, observation window may be mounted at appearance It on the hermatic door of device tank 100, also can be set on the different location on the cavity of container tank 100, so as to different location progress Shooting observation.

When work, quick-fried source device 200 is placed in cabinet 600, the filler in cabinet 600 filled with quartz sand or the soil body 900, and cloche 1 is covered；100 hermatic door of container tank is shut, LED light 700 is opened, high-speed camera 400 is installed in place And it opens；Start the first vacuum pump 300, to being vacuumized in container tank 100, vacuum degree needed for reaching test.

When test, the pressure in cloche 1 is adjusted by air pressure regulating device.According to test needs, work as needs When gas pressure inside cloche 1 is transferred to more than atmospheric pressure, phase on the first vacuum pump 13 and the first vacuum meter 11 is closed The ball valve 14 answered opens air compressor machine 12, pressure gauge 9 and opens first switch 6, inflates to pressure buffer 8, reach required pressure When, stop inflation, disconnects first switch 6, at this time the gas filled with certain pressure inside cloche 1.

When needing the gas pressure inside cloche 1 being transferred to subatmospheric power, air compressor machine 12 and pressure gauge 9 are closed Upper corresponding ball valve 14 opens corresponding ball valve 14 on the first vacuum pump 13 and the first vacuum meter 11 and opens first switch 6, right Pressure buffer 8 is evacuated, and when reaching required vacuum degree, is stopped pumping, is closed first switch 6, reach one inside cloche 1 at this time Constant-pressure.

When pressure is transferred to required pressure value in cloche 1, high pressure gas cylinder 35 is opened, by pressurizing device to piston cylinder 26 After filling high pressure gas to rated pressure, high pressure gas cylinder 35 and pressure reducing valve 34 are closed.High pressure gas passes through the first check valve at this time 27 and venthole 24 after, about 22 two inside cavities of first piston are full of, since 22 lower end surface area of first piston is greater than upper Face area, first piston 22 makes the first sealing ring 25 be in impaction state upwards, thus sealing piston cylinder 26；Work as piston cylinder 26 when being full of rating test pressed gas, closes high pressure gas cylinder 35 and pressure reducing valve 34, opens second switch 30, starts the second electromagnetism Valve 31, the intracorporal high pressure gas of 26 cavity of resorption of piston cylinder is through 31 quick release of second solenoid valve, due to the effect of the first check valve 27, The intracorporal high pressure gas of 26 epicoele of piston cylinder can not be flowed out by stomata 24, first piston 22 under huge differential pressure action quickly to Lower slider and compression elastic piece 28, the intracorporal high pressure gas of 26 epicoele of piston cylinder is sprayed from the top of first piston 22 at this time, is driven The dynamic upward high-speed motion of second piston 21, so that compressing 15 internal gas of gun tube generates two-stage compression gas, 21 edge of second piston When gun tube 15 moves upwards, it is finally embedded in 15 upper end of gun tube, reaches sealing effect, the only high pressure gas in gun tube 15 acts on It on hoodle 16, avoids a large amount of high pressure gas in piston cylinder 26 and enters housing 17, so that the emission rate of hoodle is quantitative Change and measure, improves experiment measurement accuracy.When high pressure gas reaches Rupture of Membrane pressure in gun tube 15, after diaphragm 19 is crushed, Hoodle 16 inside housing 17 high speed ejection under high pressure gas effect, completes transmitting and shattered glass cover 1, discharges cloche 1 Internal compressed gas.The filler 900 of quartz sand or the soil body near cloche 1 is under the effect of quick-fried source compressed gas to freedom Face movement, to form throwing crater or surface subsidence band.While opening second switch 30, start high-speed motion picture camera 400, it is right Experimentation is recorded；After experiment, pressure release is carried out to container tank 100 and is beaten when 100 inside and outside air pressure balance of container tank Container tank 100 is opened, explosion test result is such as recorded at hole radius, volume.

The explosion effect simulator of the utility model can be by adjusting in pressure and container tank 100 in cloche 1 Vacuum degree to realize 0.1~200 kiloton of simulation, the underground nuclear explosion throwing within the scope of 20~1000m of buried depth is at hole, loose bulge With collapse to hole phenomenon, can be during effective simulated explosion the phenomenon that, while can be used for engineering explosion effect and effect The experimental study of the problem in science such as the prediction answered.

Claims (10)

1. a kind of big equivalent underground explosion effect analog device, which is characterized in that including container tank (100), vacuum evacuation device, quick-fried Source device (200)；The vacuum evacuation device is connected by pipeline with container tank (100), for vacuumizing to container tank (100) Processing so that the pressure in container tank (100) reach simulation work needed for pressure；

The quick-fried source device (200) includes cloche (1), pressurizing device, piston cylinder (26), first piston (22), elastic component (28), the first sealing ring (25), second piston (21), gun tube (15), diaphragm (19), housing (17), hoodle (16), pressure release are opened It closes, air pressure regulating device；

Piston cylinder (26) top is equipped with through-hole, and through-hole is connected with gun tube (15), in gun tube (15) bottom and piston cylinder (26) Portion is connected；Gun tube (15) top is fixed with housing (17), and housing (17) is equipped with multiple launch holes, filling in launch hole There are hoodle (16)；The cloche (1) covers in gun tube (15) outside, seals between cloche (1) and gun tube (15), and cloche (1) it is connected with air pressure regulating device；Second piston (21) setting, can be in gun tube (15) up and down in gun tube (15) Sliding；The diaphragm (19) is arranged in gun tube (15) upper end, to be sealed to gun tube (15) upper end；The first piston (22) Setting can slide up and down in piston cylinder (26) in piston cylinder (26)；First piston (22) vertical section is I-shaped；And Lower end surface area is greater than upper surface area；First piston (22) lower end is equipped with elastic component (28), and elastic component (28) pushes up Dynamic first piston (22) upper end is contacted with piston cylinder (26) upper end inner wall, and between first piston (22) upper end and piston cylinder (26) Equipped with the first sealing ring (25), the first sealing ring (25) is sealed piston cylinder (26) top through-hole；The first piston (22) piston cylinder (26) internal cavities are divided into upper and lower two cavitys by lower end；First piston (22) lower end is equipped with ventilation Upper and lower cavity is connected to by hole (24), venthole (24), and is equipped with the first check valve (27) in venthole (24), the first check valve (27) gas is made upper plenum can only to be flowed to from lower cavity through venthole (24)；The pressurizing device passes through piston cylinder (26) bottom Pipeline is connected with the lower cavity of piston cylinder (26)；The pipeline of piston cylinder (26) bottom is also connected with compression relief cock, with right Cavity gas carries out pressure release under piston cylinder (26).

2. big equivalent underground explosion effect analog device according to claim 1, which is characterized in that the air pressure is adjusted Device includes air tube (3), connector (4), the first solenoid valve (5), first switch (6), battery (7), pressure buffer (8), pressure Power table (9), pressure relief safety valve (10), the first vacuum meter (11), air compressor machine (12), the first vacuum pump (13), ball valve (14)；

Described air tube (3) one end passes through the first sealing-plug (2) and is connected with cloche (1), and the other end passes through connector (4) and first Solenoid valve (5) is connected；First solenoid valve (5) other end is connected with pressure buffer (8)；The pressure gauge (9), first are very Sky meter (11), air compressor machine (12), the first vacuum pump (13) are connected by ball valve (14) with pressure buffer (8)；The pressure Pressure relief safety valve (10) are also equipped on buffer (8)；The ball valve (14) is for controlling air compressor machine (12), the first vacuum pump (13) it is switched on or off with pressure buffer (8)；When pressure buffer (8) and air compressor machine (12) are connected, pressure gauge (9) is used In measurement pressure buffer (8) interior pressure, i.e. pressure in measurement cloche (1)；When pressure buffer (8) and the first vacuum pump (13) when being connected to, the first vacuum meter (11) is used to measure the vacuum degree in pressure buffer (8), i.e., in measurement cloche (1) Vacuum degree；The battery (7) is connected by first switch (6) with the first solenoid valve (5), and battery (7) is right by first switch (6) First solenoid valve (5) power on/off, to control the opening and closing of the first solenoid valve (5).

3. big equivalent underground explosion effect analog device according to claim 1, which is characterized in that the first piston (22) cooperate with lower end and piston cylinder (26) inner wall, guiding mechanism be equipped between the first piston (22) and piston cylinder (26), To guarantee sliding stability of the first piston (22) in piston cylinder (26).

4. big equivalent underground explosion effect analog device according to claim 1, which is characterized in that the pressurizing device packet Include high pressure gas cylinder (35), pressure reducing valve (34), second one-way valve (32)；The high pressure gas cylinder (35) is single with second through pressure reducing valve (34) It is connected to valve (32), the second one-way valve (32) is connected with the pipeline of piston cylinder (26) bottom.

5. big equivalent underground explosion effect analog device according to claim 1, which is characterized in that the quick-fried source device (200) it is additionally provided with the pressure measuring unit of the gas pressure of detection pressurizing device filling.

6. big equivalent underground explosion effect analog device according to claim 5, which is characterized in that the pressure measuring unit is Pressure gauge or pressure sensor.

7. big equivalent underground explosion effect analog device according to claim 1, which is characterized in that the compression relief cock packet Include second solenoid valve (31), second switch (30)；The second solenoid valve (31) is connected with the pipeline of piston cylinder (26) bottom；Institute Second switch (30) is stated to second solenoid valve (31) power on/off.

8. big equivalent underground explosion effect analog device according to claim 1, which is characterized in that on the gun tube (15) Hold that upward diameter is gradually reduced or gun tube (15) upper end is additionally provided with the cone (18) that upward diameter is gradually reduced, so that second is living When plug (21) is moved upwards along gun tube (15), after second piston (21) passes through diaphragm (19) due to high-speed motion, it is embedded in gun tube (15) upper end.

9. big equivalent underground explosion effect analog device according to claim 1, which is characterized in that the vacuum evacuation device Including the second vacuum pump (300), the second vacuum meter (110)；Second vacuum pump (300), the second vacuum meter (110) with appearance Device tank (100) is connected, and is respectively used to progress vacuumize process in container tank (100) and shows to vacuum degree.

10. big equivalent underground explosion effect analog device according to claim 1, which is characterized in that further include that image is adopted Acquisition means, described image acquisition device include high-speed camera (400), computer (500), LED light (700)；High-speed camera (400) setting is connected in the outer end of container tank (100), and with computer (500), and computer (500) is by high-speed camera (400) The image of shooting is stored；The container tank (100) is equipped with observation window, is shot for high-speed camera (400).