CN103954421B - Twin-roll brake type rail vehicle real vehicle Impact Experimental System - Google Patents

Abstract

A kind of twin-roll brake type rail vehicle real vehicle Impact Experimental System, described pilot system includes central control board, emitter, real vehicle and shock wall；Real vehicle is put on rail between emitter and shock wall；Shock speed measuring device and high-speed photography device are installed in the side clashing into wall；Brake unit, speed governing brake unit joint and debugging speed measuring device is used when being arranged in debugging working condition；Brake unit is band twin-roll skidding mechanism, including fixed pulley, steel wire rope, frame, brake wheel, braking mechanism, swift and doffer, brake wheel, swift and doffer three are integral type structure, and it is in opposite direction that steel wire rope is wound around on swift and on doffer.During bump test: brake unit departs from speed governing brake unit joint, central control board programme-control relevant apparatus receives and preserves data；1.1 times of art skating distance at least emitter effective travel that real vehicle is unpowered；Real vehicle and the test stroke speed clashing into wall are not less than 25 kilometers per hour.

Description

Twin-roll brake type rail vehicle real vehicle Impact Experimental System

Technical field

The present invention relates to a kind of twin-roll brake type rail vehicle real vehicle Impact Experimental System.

Background technology

Train collision accident serious threat occupant safety.For alleviating the loss that train collision accident causes, develop Crashworthy raiway car-body with energy absorbing, be to alleviate train to clash into the important channel of Accidents Disasters loss, the inexorable trend that Ye Shi world railway bus body structure (including urban rail transit vehicles) develops.In track vehicle structure Study on Crashworthiness, real vehicle bump test is that one can truly reflect knockout process and irreplaceable research means.Full scale vehicle collision experiment must be relied on to carry out crashworthiness ink absorption speed exploitation.

Chinese Patent Application No. is 200610046823.3, entitled " automobile passive safety system collision experiment method " discloses techniques below scheme: " a kind of automobile passive safety system collision experiment method, can implement: in-vehicle camera and data collecting system are reinforced and installed to car body by (A) according to the following steps；(B) check and determine constrained system configuring condition；Check seat and record an angle for chess backrest, position and fixing situation；D () checks the accuracy of H point location；(E) basic status of seat belt is checked；(F) check that steering wheel and steering column are fixing the most firm；(G) the fixing the firmest, if there being balloonet, if fixation of instrument is checked；(H) face dummy coats greasepaint；(I) complete automobile collision is carried out ".

Chinese Patent Application No. is 01134940.9, entitled " ramp automobile collision experiment system and collision experiment method " discloses techniques below scheme: " a kind of ramp automobile collision experiment system, including: support, haulage cable, hoist engine and carrying roller composition traction guider；Its medium-height trestle is fixed on the top in ramp, support is provided with a hoist engine, and order installs another support, and this support is provided with carrying roller, a piece haulage cable is connected with hoist engine by carrying roller, and the haulage cable other end passes through the movable pulley on tractor further around going back to the top being connected to ramp；Or directly it is connected with traction positioning car；Dependence one hook and unhook relieving mechanism it is connected, it is achieved draw the connection between positioning car and laboratory vehicle and separate between traction positioning car and laboratory vehicle；The acceleration ramp having certain height difference includes horizontal transition section, curve transition and linear accelerating section；One end joint test section in ramp, test section arranges an observation tower being equipped with test equipment, and test section both sides is provided with revetment；The instrument of testing acceleration is installed " in laboratory vehicle.

Two kinds of technical schemes disclosed above, although they can be applied at automotive field, but they all can not be directly used on the striking experiment of rail vehicle.Its basic reason is the particularity of rail vehicle structure, and its volume is big, quality big, it is big to hit area, typically no less than 4 meters × 4 meters；The speed of the rail vehicle particularly run in high ferro is high, and during shock, energy level is high, it is impossible to directly uses for reference use, needs again to develop the full scale vehicle collision experimental system for rail vehicle.

Summary of the invention

It is an object of the invention to overcome deficiency of the prior art, thering is provided a kind of is 40 ~ 80T's and stroke speed is 25 ~ 80km/h or higher rail vehicle real vehicle carries out bump test to quality, and collection drives, braking, central authorities control and test parameters is collected in the twin-roll brake type rail vehicle real vehicle Impact Experimental System of one.

The purpose of the present invention is achieved by following technical proposals: described pilot system includes central control board, emitter, real vehicle and shock wall；In described central control board, special-purpose software is installed, electrically connects with the automatically controlled part of emitter and the dynamometry harvester of shock wall；

On ground between described emitter and shock wall, rail is set, rail is put real vehicle；

The side of described shock wall or both sides are installed and are clashed into speed measuring device (8) and high-speed photography device, clash into speed measuring device and high-speed photography device all electrically connects with central control board；

Described pilot system uses brake unit, speed governing brake unit joint and debugging speed measuring device when being arranged in debugging working condition；Described speed governing brake unit joint is fixed on real vehicle；Described debugging speed measuring device is arranged in the side of rail or both sides and electrically connects with central control board, and debugging speed measuring device is positioned at real vehicle and starts position during art skating;

Described brake unit is band twin-roll skidding mechanism, including fixed pulley, steel wire rope, frame, brake wheel, braking mechanism, swift and doffer, brake wheel is positioned at the both sides of swift and doffer, and three is integral type structure, the rotating shaft of fixed pulley is connected with brake unit joint, one end of steel wire rope is arranged on swift, and the other end of steel wire rope is arranged on doffer after exceeding fixed pulley, and steel wire rope on swift and doffer on be wound around in opposite direction；Two brake wheel configuration braking mechanisms；

During bump test:

Described central control board is by programme-control emitter, the work of the dynamometry harvester clashing into speed measuring device, high-speed photography device and shock wall, and receives preservation related data；

Real vehicle is accelerated in effective travel by described emitter, and real vehicle collides with shock wall after the unpowered art skating of certain distance, and the distance of real vehicle art skating is at least 1.1 times of emitter effective travel；

Described real vehicle is set stroke speed 1-2 times with the test stroke speed clashed into when wall collides, and sets the stroke speed 20-40% as real vehicle operation speed per hour, and minimum test stroke speed is not less than 25 kilometers per hour；

Analytical calculation, output test result is carried out after off-test.

Described braking mechanism is fluid pressure type, vapour-pressure type, electromagnetic type or mechanical brake gear.

Described shock wall includes even power plate, dynamometry harvester and impact pier, and even power plate is towards real vehicle, and dynamometry harvester is between even power plate and impact pier；Described dynamometry harvester is force cell array；Described central control board electrically connects and receives shock data with force cell array.

Occupant area and deformable zone it is divided in the car body of described real vehicle, deformable zone is positioned at the two ends of occupant area, some groups of travel switches and collision block are installed in occupant area, the travel switch often organized or collision block are arranged in side wall, corresponding collision block or travel switch are arranged on floor, before experiment, travel switch or the collision block often organized are separated by setpoint distance；In clashing into generating process, when the travel switch of a certain group and collision block contact, showing that the degeneration of occupant area occurs, travel switch triggers the alarm work in central control board.

Described real vehicle is divided into occupant area and deformable zone, according to the vertical marker line setting interval arrangement sets width on the lateral surface of occupant area；In clashing into generating process, when central control board obtains some mark lines of occupant area width decrement shared in the capture area of high-speed photography device beyond setting value by high-speed photography device, the alarm in central control board starts to report to the police.

Compared with prior art, present invention have the advantage that structure is scientific and reasonable, operation is simple, the rail vehicle real vehicle of big quality (40 ~ 80T) and high stroke speed (25 ~ 80km/h or higher) can be carried out bump test, union drives, braking, central authorities control and test parameters is collected in one.

Accompanying drawing explanation

Fig. 1 is one embodiment of the invention structural representation；

Fig. 2 is Fig. 1 plan structure schematic diagram；

Fig. 3 is the A-A rotational structure enlarged diagram of Fig. 1, omits steel wire rope；

In figure: 1-central control board, 2-emitter, 3-real vehicle, 4-speed governing brake unit joint, 5-debugs speed measuring device, 6-rail, 7-ground, and 8-clashes into speed measuring device, 9-high-speed photography device, 10 clash into wall, 11-even power plate, 12-force cell array, 13-impact pier, 14-fixed pulley, 15-steel wire rope, 16-frame, 17-brake wheel, 18-braking mechanism, 19-swift, 20-doffer.

Detailed description of the invention

The invention will be further described with embodiment below in conjunction with the accompanying drawings:

Referring to the drawings, described pilot system includes central control board 1, emitter 2, real vehicle 3 and clashes into wall 10；In described central control board 1, special-purpose software is installed, electrically connects with the automatically controlled part of emitter 2 and the dynamometry harvester of shock wall 10；

On ground 7 between described emitter 2 and shock wall 10, rail 6 is set, rail 6 is put real vehicle 3；

The side of described shock wall 10 or both sides are installed and are clashed into speed measuring device 8 and high-speed photography device 9, clash into speed measuring device 8 and high-speed photography device 9 all electrically connects with central control board 1；

Described pilot system uses brake unit, speed governing brake unit joint 4 and debugging speed measuring device 5 when being arranged in debugging working condition；Described speed governing brake unit joint 4 is fixed on real vehicle 3；Described debugging speed measuring device 5 is arranged in the side of rail 6 or both sides and electrically connects with central control board 1, and debugging speed measuring device 5 is positioned at real vehicle 3 and starts position during art skating;

Described brake unit is band twin-roll skidding mechanism, including fixed pulley 14, steel wire rope 15, frame 16, brake wheel 17, braking mechanism 18, swift 19 and doffer 20, brake wheel 17 is positioned at swift 19 and the both sides of doffer 20, and three is integral type structure, the rotating shaft of fixed pulley 14 is connected with brake unit joint 4, one end of steel wire rope 15 is arranged on swift 19, the other end of steel wire rope 15 is arranged on doffer 20 after exceeding fixed pulley 14, and steel wire rope 15 on swift 19 and doffer 20 on be wound around in opposite direction；Two brake wheels 17 configure braking mechanism 18；

During bump test:

Described central control board 1 is by programme-control emitter 2, the work of the dynamometry harvester clashing into speed measuring device 8, high-speed photography device 9 and shock wall 10, and receives preservation related data；

Real vehicle 3 is accelerated in effective travel by described emitter 2, and real vehicle 3 collides with shock wall 10 after the unpowered art skating of certain distance, and the distance of real vehicle 3 art skating is at least 1.1 times of emitter 2 effective travel；

Described real vehicle 3 is set stroke speed 1-2 times with the test stroke speed clashed into when wall 10 collides, and sets stroke speed and runs the 20-40% of speed per hour as real vehicle 3, and minimum test stroke speed is not less than 25 kilometers per hour；

Analytical calculation, output test result is carried out after off-test.

Described braking mechanism 18 is fluid pressure type, vapour-pressure type, electromagnetic type or mechanical brake gear.

Described shock wall 10 includes even power plate 11, dynamometry harvester and impact pier 13, and even power plate 11 is towards real vehicle 3, and dynamometry harvester is between even power plate 11 and impact pier 13；Described dynamometry harvester is force cell array 12；Described central control board 1 electrically connects and receives shock data with force cell array 12.

It is divided into occupant area and deformable zone in the car body of described real vehicle 3, deformable zone is positioned at the two ends of occupant area, some groups of travel switches and collision block are installed in occupant area, the travel switch often organized or collision block are arranged in side wall, corresponding collision block or travel switch are arranged on floor, before experiment, travel switch or the collision block often organized are separated by setpoint distance；In clashing into generating process, when the travel switch of a certain group and collision block contact, showing that the degeneration of occupant area occurs, travel switch triggers the alarm work in central control board 1.

Described real vehicle 3 is divided into occupant area and deformable zone, according to the vertical marker line setting interval arrangement sets width on the lateral surface of occupant area；In clashing into generating process, when central control board 1 obtains some mark lines of occupant area width decrement shared in the capture area of high-speed photography device 9 beyond setting value by high-speed photography device 9, the alarm in central control board 1 starts to report to the police.

In the examples below:

Central control board 1: be provided with special-purpose software, uses prior art to design and produce, for control, data acquisition, analyzing and processing and the human computer conversation center of pilot system of the present invention.

Emitter 2: use equipment and the product of prior art.

Real vehicle 3: the material object of tested vehicle, such as railcar, high ferro vehicle, common rail vehicle etc..

Speed governing brake unit joint 4: be arranged on the proper site on real vehicle 3, the initial velocity before debugging real vehicle 3 art skating, this initial velocity is by known Theoretical Calculation out.During debugging, speed governing brake unit joint 4 is connected with brake unit, should measure described initial velocity, goes back otherwise allows real vehicle 3 not knock shock wall 10；When formal test, speed governing brake unit joint 4 departs from brake unit.

Debugging speed measuring device 5 and shock speed measuring device 8: for photoelectrical velocity measure equipment, laser velocimeter device, radar velocity measurement device or photographic attachment.

Rail 6 and ground 7: conventional known technology designs and produces.

High-speed photography device 9: conventional known device.

Clash into wall 10: be mainly made up of even power plate 11, force cell array 12 and impact pier 13；Force cell array 12 is between even power plate 11 and impact pier 13, and even power plate 11 is towards real vehicle 3；Central control board 1 electrically connects with force cell array 12, and receives the shock data of output when force cell array 12 is knocked.

Travel switch and collision block and alarm: conventional known product.

Brake unit: for band twin-roll skidding mechanism, including fixed pulley 14, steel wire rope 15, frame 16, brake wheel 17, braking mechanism 18, swift 19 and doffer 20, brake wheel 17 is positioned at swift 19 and the both sides of doffer 20, and three is integral type structure, the rotating shaft of fixed pulley 14 is connected with brake unit joint 4, one end of steel wire rope 15 is arranged on swift 19, the other end of steel wire rope 15 is arranged on doffer 20 after exceeding fixed pulley 14, and steel wire rope 15 on swift 19 and doffer 20 on be wound around in opposite direction；Two brake wheels 17 configure braking mechanism 18.

Test stroke speed: important affair first passes through Theoretical Calculation and determines, or determines according to per hour 25 kilometers.Then basically identical with test stroke speed by clashing into speed measuring device 8 practice examining.

Embodiment 1:

On ground 7 between emitter 2 and shock wall 10, rail 6 is set；Real vehicle 3 is placed on rail 6, and real vehicle 3 clashes into one end of wall 10 dorsad installs emitter 2；The side of rail 6 or both sides are installed and are clashed into speed measuring device 8 and high-speed photography device 9, clash into the perpendicular bisector of speed measuring device 8 and high-speed photography device 9 and are respectively positioned on and clash in the plane that wall 10 is constituted towards the end face of real vehicle 3 one end；Clash into the both sides of wall 10 to install and clash into speed measuring device 8 and high-speed photography device 9, clash into the perpendicular bisector of speed measuring device 8 and high-speed photography device 9 and be respectively positioned on and clash in the plane that wall 10 is constituted towards the end face of real vehicle 3 one end；Central control board 1 electrically connects with automatically controlled part, shock speed measuring device 8, the dynamometry harvester clashing into wall 10 and the high-speed photography device 9 of emitter 2；The speed governing brake unit joint 4 that real vehicle 3 uses when being arranged in debugging working condition, brake unit joint 4 can connect brake unit, simultaneously at the side of rail 6 or both sides installation and debugging speed measuring device 5, the perpendicular bisector of debugging speed measuring device 5 is respectively positioned on real vehicle 3 to start in cross section residing during art skating；Brake unit is band twin-roll skidding mechanism, including fixed pulley 14, steel wire rope 15, frame 16, brake wheel 17, braking mechanism 18, swift 19 and doffer 20, brake wheel 17 is positioned at swift 19 and the both sides of doffer 20, and three is integral type structure, the rotating shaft of fixed pulley 14 is connected with brake unit joint 4, one end of steel wire rope 15 is arranged on swift 19, the other end of steel wire rope 15 is arranged on doffer 20 after exceeding fixed pulley 14, and steel wire rope 15 on swift 19 and doffer 20 on be wound around in opposite direction；Two brake wheels 17 configure braking mechanism 18.

During bump test:

Described central control board 1 is by programme-control emitter 2, the work of the dynamometry harvester clashing into speed measuring device 8, high-speed photography device 9 and shock wall 10, and receives preservation related data；

Real vehicle 3 is accelerated in effective travel by described emitter 2, and real vehicle 3 collides with shock wall 10 after the unpowered art skating of certain distance, and the distance of real vehicle 3 art skating is at least 1.1 times of emitter 2 effective travel；

Described real vehicle 3 is set stroke speed 1-2 times with the test stroke speed clashed into when wall 10 collides, and sets stroke speed and runs the 20-40% of speed per hour as real vehicle 3, and minimum test stroke speed is not less than 25 kilometers per hour；

Analytical calculation, output test result is carried out after off-test.

Embodiment 2:

Substantially the same manner as Example 1, except for the difference that braking mechanism 18: braking mechanism 18 is the mechanical brake gear of disc brake.

Embodiment 3,4:

Essentially identical with embodiment 1,2 respectively, except for the difference that clash into wall 10: clashing into wall 10 and include even power plate 11, dynamometry harvester and impact pier 13, even power plate 11 is towards real vehicle 3, and dynamometry harvester is between even power plate 11 and impact pier 13；Dynamometry harvester is force cell array 12；Central control board 1 electrically connects and receives shock data with force cell array 12.

Embodiment 5-8:

Respectively on the basis of embodiment 1-4, occupant area and deformable zone it is divided in the car body of real vehicle 3, deformable zone is positioned at the two ends of occupant area, some groups of travel switches and collision block are installed in occupant area, the travel switch often organized or collision block are arranged in side wall, corresponding collision block or travel switch are arranged on floor, and before experiment, travel switch or the collision block often organized are separated by setpoint distance；In clashing into generating process, when the travel switch of a certain group and collision block contact, showing that the degeneration of occupant area occurs, travel switch triggers the alarm work in central control board 1.

Embodiment 9-12:

Respectively on the basis of embodiment 1-4, real vehicle 3 is divided into occupant area and deformable zone, according to the vertical marker line setting interval arrangement sets width on the lateral surface of occupant area；In clashing into generating process, when central control board 1 obtains some mark lines of occupant area width decrement shared in the capture area of high-speed photography device 9 beyond setting value by high-speed photography device 9, showing that the degeneration of occupant area occurs, the alarm in central control board 1 starts to report to the police.

The actual key applications of embodiment 1:

1, emitter 2 effective travel is 5 meters, a length of 26 meters of real vehicle 3, and quality is 60.5 tons, sets real vehicle 3 unpowered art skating distance as 10 meters.In other words, the range ability that real vehicle 3 is total is 15 meters.

2, real vehicle 3 is set for 25K type air conditioning generator car (quality is as 60.5 tons), the speed per hour that real vehicle 3 contacts and strikes when clashing into wall 10 is 25 kilometers per hour, art skating distance is 10 meters, can calculate the initial velocity started when sliding according to this vehicle datum drag computing formula and equation of train mot io n formula in turn and be 25.77 kilometers per hour.That is: this speed is the speed when emitter 2 range 5 meters.

3, according to above parameter, the required effective emitted energy calculating emitter 2 is 1550. 1KJ.

4, emitter 2 and real vehicle 3 are close together.

5, two kinds of operating modes: speed debugging working condition and formal test operating mode.

1) speed debugging working condition:

(1) brake unit joint 4 can connect brake unit:

(2) after central control board 1 starts emitter 2 work, after emitter 2 promotes real vehicle 3 to run 5 meters, brake unit functions to, and real vehicle 3 can stop in art skating 10 meters completely, the most not contact impact wall 10, high-speed photography device 9 obtains the real vehicle 3 speed when art skating, if meeting setting requirement to be put into formal test operating mode, otherwise it is necessary to adjust the emissivity size of emitter 2, repetition test, until satisfied.

2) formal test operating mode:

Brake unit joint 4 departs from brake unit, after central control board 1 starts emitter 2 work, after emitter 2 promotes real vehicle 3 to run 5 meters according to setting speed, after real vehicle 3 is unpowered art skating 10 meters with clash into wall 10 and bump against, the Aerodynamic data outfan clashing into wall 10 exports impact force data to central control board 1.In whole knockout process, clashing into speed measuring device 8 and shock data is sent to central control board 1 and preserves by high-speed photography device 9, experiment carries out analytical calculation after terminating, export experimental result.

Art skating distance that real vehicle 3 is unpowered, not less than 1.1 times of the effective impulse stroke of emitter 2, can save floor occupying area according to practical situation.

Claims (7)

1. a twin-roll brake type rail vehicle real vehicle Impact Experimental System, described pilot system includes central control board (1), emitter (2), real vehicle (3) and clashes into wall (10)；Described central control board is provided with special-purpose software in (1), electrically connects with the automatically controlled part of emitter (2) and the dynamometry harvester of shock wall (10)；It is characterized in that:

On ground (7) between described emitter (2) and shock wall (10), rail (6) is set, rail (6) is put real vehicle (3)；

The side of described shock wall (10) is installed and is clashed into speed measuring device (8) and high-speed photography device (9), or both sides are installed and clashed into speed measuring device (8) and high-speed photography device (9)；Clash into speed measuring device (8) and high-speed photography device (9) all electrically connects with central control board (1)；

Described pilot system uses brake unit, speed governing brake unit joint (4) and debugging speed measuring device (5) when being arranged in debugging working condition；Described speed governing brake unit joint (4) is fixed on real vehicle (3)；Described debugging speed measuring device (5) is arranged in the side of rail (6) or both sides and electrically connects with central control board (1), and debugging speed measuring device (5) is positioned at position when real vehicle (3) starts art skating;

Described brake unit is band twin-roll skidding mechanism, including fixed pulley (14), steel wire rope (15), frame (16), brake wheel (17), braking mechanism (18), swift (19) and doffer (20), brake wheel (17) is positioned at swift (19) and the both sides of doffer (20), and three is integral type structure, the rotating shaft of fixed pulley (14) is connected with speed governing brake unit joint (4), one end of steel wire rope (15) is arranged on swift (19), the other end of steel wire rope (15) is arranged on after exceeding fixed pulley (14) on doffer (20), and steel wire rope (15) is upper at swift (19) and the upper winding of doffer (20) in opposite direction；Two brake wheels (17) configuration braking mechanism (18)；

During bump test:

Described central control board (1) is by programme-control emitter (2), the work of the dynamometry harvester clashing into speed measuring device (8), high-speed photography device (9) and shock wall (10), and receives preservation related data；

Real vehicle (3) is accelerated in effective travel by described emitter (2), real vehicle (3) collides with shock wall (10) after the unpowered art skating of certain distance, and the distance of real vehicle (3) art skating is at least 1.1 times of emitter (2) effective travel；

Described real vehicle (3) is set stroke speed 1-2 times with the test stroke speed clashed into when wall (10) collides, and sets the stroke speed 20-40% as real vehicle (3) operation speed per hour, and minimum test stroke speed is not less than 25 kilometers per hour；

Analytical calculation, output test result is carried out after off-test.

Pilot system the most according to claim 1, it is characterised in that: described braking mechanism (18) is fluid pressure type, vapour-pressure type, electromagnetic type or mechanical brake gear.

Pilot system the most according to claim 1 and 2, it is characterized in that: described shock wall (10) includes even power plate (11), dynamometry harvester and impact pier (13), even power plate (11) is towards real vehicle (3), and dynamometry harvester is positioned between even power plate (11) and impact pier (13)；Described dynamometry harvester is force cell array (12)；Described central control board (1) electrically connects and receives shock data with force cell array (12).

Pilot system the most according to claim 1 and 2, it is characterized in that: in the car body of described real vehicle (3), be divided into occupant area and deformable zone, deformable zone is positioned at the two ends of occupant area, some groups of travel switches and collision block are installed in occupant area, the travel switch often organized or collision block are arranged in side wall, corresponding collision block or travel switch are arranged on floor, and before experiment, travel switch or the collision block often organized are separated by setpoint distance；In clashing into generating process, when the travel switch of a certain group and collision block contact, showing that the degeneration of occupant area occurs, travel switch triggers the alarm work in central control board (1).

Pilot system the most according to claim 3, it is characterized in that: in the car body of described real vehicle (3), be divided into occupant area and deformable zone, deformable zone is positioned at the two ends of occupant area, some groups of travel switches and collision block are installed in occupant area, the travel switch often organized or collision block are arranged in side wall, corresponding collision block or travel switch are arranged on floor, and before experiment, travel switch or the collision block often organized are separated by setpoint distance；In clashing into generating process, when the travel switch of a certain group and collision block contact, showing that the degeneration of occupant area occurs, travel switch triggers the alarm work in central control board (1).

Pilot system the most according to claim 1 and 2, it is characterised in that: described real vehicle (3) is divided into occupant area and deformable zone, according to the vertical marker line setting interval arrangement sets width on the lateral surface of occupant area；In clashing into generating process, when central control board (1) obtains some mark lines of occupant area width decrement shared in the capture area of high-speed photography device (9) beyond setting value by high-speed photography device (9), the alarm in central control board (1) starts to report to the police.

Pilot system the most according to claim 3, it is characterised in that: described real vehicle (3) is divided into occupant area and deformable zone, according to the vertical marker line setting interval arrangement sets width on the lateral surface of occupant area；In clashing into generating process, when central control board (1) obtains some mark lines of occupant area width decrement shared in the capture area of high-speed photography device (9) beyond setting value by high-speed photography device (9), the alarm in central control board (1) starts to report to the police.