CN209316986U - A kind of runway for steering capability test - Google Patents

Abstract

The utility model provides a kind of runway for steering capability test, including photoelectric door, computer, it is characterized in that: there are also lane number one, the second runway, third runways, the both ends of the second runway are arranged in lane number one and third runway, lane number one and the second runway are not on the same line, second runway and third runway are not on the same line, and lane number one and third runway be not in the ipsilateral of the second runway, be provided on three runways for incude whether the photoelectric door that someone passes through, the photoelectric door connect with computer.The program has left-hand rotation also to have right-hand rotation in primary test, it ensure that the accuracy of test, can relatively comprehensive test subject steering capability, and combine the equipment such as computer, photoelectric door and can completely collect data in time, obtain the achievement of subject's steering capability.

Description

A kind of runway for steering capability test

Technical field

The utility model relates to move physical stamina test, especially a kind of runway for steering capability test can be with It is assessed or is classified for analyzing physical ability or situation of the human motion to steering when.

Background technique

In the prior art, well known technology is in the demanding competitive sport of body-defence, and steering capability is one The common important indicator of kind.The common measurement standard of steering capability is mainly to judge the being taken when completion of subject turns to Between, turn forward acceleration time, deceleration time and steering after further accelerate the time.The height of steering capability is to judge a movement Can whether member quickly can penetrate the feinting deception of other side and quickly turn using steering to get rid of opponent or sportsman Change the important indicator that direction is pursued and attacked.At present there are mainly two types of slew test modes, 1, L shape runway combination mark cylinder, 2, L shape Runway binding time recorder.

1st kind of mode, as shown in Figure 1, it is carried out on the runway of a L shape, which provided three mark cylinders, marks Will cylinder is separately positioned at L-shaped both ends and turning point, and when test, subject is first directly run from starting point to second mark cylinder, gently Clap starting point of running back after indicating cylinder.Then, subject directly runs again, and 90 degree of right-hand rotation is done after second indicates cylinder, is run Turn left after indicating cylinder to third, then doubles back to second mark cylinder.90 degree of left-hand rotation is done after second indicates cylinder, The mark cylinder run back to starting point just calculates completion test.In the process of test, subject needs to do the steering of 180 degree three times, primary 90 degree of right turn and 90 degree of left steerings.After the completion of test, most fast completion of the subject in test can be collected Time, with the steering capability of test subject.Although the method can be collected simultaneously the angle of multiple steerings, can also generate Extra steering angle, the physical strength for wasting subject go to complete unnecessary movement.Such as football, vollyball, rugby, basket The sportsman of ball, hockey etc. the steering of 180 degree will not often occur in match, and the steering infrequently occurred in match is put In a basic physical stamina test, the validity of test is influenced whether.

2nd kind of mode, as described in Figure 2, on existing L shape runway use two groups of time recorders, be individually positioned in starting point and Terminal, when test, subject directly runs from starting point, by will start test after the time recorder of starting point.When subject runs to Affected one 90 degree of left-hand rotation or right-hand rotation at once after one turning point.Then, subject directly runs to positioned at terminal just complete again Primary test.The test that the method has only been done merely or turn right can enable some some steering capability weaker or relatively strong Subject cause injustice.Such as when in an assessment test right turn, that just strong to left steering ability and right turn ability Weak subject brings injustice, and it is inaccurate to enable test result, and only provides unidirectional test for subject and fail comprehensively instead Reflect their steering capability.

And above two test can not collect all steering data completely, cannot completely reflect the steering of subject Ability.Steering capability actually includes speed, acceleration, deceleration, left steering speed, right turn speed and further accelerates speed, existing Technology only acquires the total time that subject completes test in fact, does not collect thin only in beginning and end acquisition time Data on section, coach fails the shortcoming for understanding subject completely, to influence trained formulation.

Summary of the invention

The purpose of this utility model provides a kind of for steering capability survey aiming at deficiency of the prior art The runway and test method of examination, the program have left-hand rotation also to have right-hand rotation, ensure that the accuracy of test in primary test, can be with The steering capability of relatively comprehensive test subject, and combine the equipment such as computer, photoelectric door and can completely receive in time Collect data, obtains the achievement of subject's steering capability.

This programme is achieved by the following technical measures: a kind of runway for steering capability test, including photoelectricity Door, computer, there are also lane number one, the second runway, third runway, lane number one and third runway are arranged in the two of the second runway End, not on the same line, not on the same line, and first runs for the second runway and third runway for lane number one and the second runway Road and third runway in the not ipsilateral of the second runway, be provided on three runways for incude whether the photoelectricity that someone passes through Door, the photoelectric door are connect with computer.It is arranged there are three runway not on the same line, subject motion can be made in this way There is the steering procedure of right-hand rotation and left-hand rotation in the process, when entering from lane number one, when first steering is right turn, next turn To being left steering；It is that when first steering is left steering, next steering is right turn when entering from third runway.There is photoelectricity Door can timely measure the time that subject passes through, the time interval of readily available subject motion's process, and computer is used for Collect the initial data that photoelectric door measures.

Lane number one far from the second runway one end be arranged identity recognition instrument, third runway far from the second runway one End setting identity recognition instrument, the identity recognition instrument are connect with computer；Lane number one is vertical with the second runway, the second runway It is vertical with third runway.Identity recognition instrument identifies whether have subject to carry out steering capability test for carrying out identification；? Both ends are provided with identity recognition instrument, and such subject can both test since lane number one, can also open from third runway Begin to test, is adapted to different subjects in this way；Lane number one and the second runway are vertical, can obtain 90 degree of turn in this way To the second runway and third runway are vertical, can also obtain 90 degree of steering in this way.

Preferred lane number one is 7m, and the second runway is 7m, and third runway is 7m.It is provided on runway and photoelectric door one One corresponding flying saucer, is arranged airborne laser range finder in photoelectric door, and airborne laser range finder is used to measure the distance of two neighboring photoelectric door. Flying saucer can not only cooperate photoelectric door to use in this way, can also identify runway, subject is avoided to run out of runway, cause measurement inaccurate Really.

The photoelectric door is 10 or 20, and when photoelectric door is 10, three photoelectric doors are arranged on lane number one, including First photoelectric door, the second photoelectric door, third photoelectric door, wherein the starting point of lane number one, the second light is arranged in the first photoelectric door Electric switch is 2m at a distance from the first photoelectric door, and third photoelectric door is 3m at a distance from the second photoelectric door, is arranged on the second runway Three photoelectric doors, including the 4th photoelectric door, the 5th photoelectric door, the 6th photoelectric door, the 4th photoelectric door setting on the second runway exist The initial position of second runway, the 5th photoelectric door are 2m, the 6th photoelectric door and the 5th photoelectric door at a distance from the 4th photoelectric door Distance is 3m, and four photoelectric doors, including the 7th photoelectric door, the 8th photoelectric door, the 9th photoelectric door, the tenth are arranged on third runway Photoelectric door, wherein the initial position of third runway, the 8th photoelectric door and the 7th light is arranged in the 7th photoelectric door on third runway The distance of electric switch is 2m, and the 9th photoelectric door is 3m at a distance from the 8th photoelectric door, and the end of third runway is arranged in the tenth photoelectric door End.

Photoelectric door be 20 when, wherein lane number one be arranged six photoelectric doors, including the first photoelectric door, the second photoelectric door, The starting point of lane number one is arranged in third photoelectric door, the 4th photoelectric door, the 5th photoelectric door and the 6th photoelectric door, the first photoelectric door Place, the second photoelectric door and the first photoelectric door distance are 1.5m, and third photoelectric door and the second photoelectric door distance are 0.5m, the 4th light Electric switch and third photoelectric door distance are 2.5m, and the 5th photoelectric door and the 4th photoelectric door distance are 0.5m, the 6th photoelectric door and the 5th Photoelectric door distance is 1.5m；Second runway be arranged seven photoelectric doors, including the 7th photoelectric door, the 8th photoelectric door, the 9th photoelectric door, Tenth photoelectric door, the 11st photoelectric door, the 12nd photoelectric door, the 13rd photoelectric door, wherein the setting of the 7th photoelectric door is run first Road and the second runway intersection, and the 7th photoelectric door and the 6th photoelectric door distance are 0.5m, the 8th photoelectric door and the 7th photoelectric door Distance is 0.5m, and the 9th photoelectric door and the 8th photoelectric door distance are 1.5m, and the tenth photoelectric door and the 9th photoelectric door distance are 0.5m, 11st photoelectric door and the tenth photoelectric door distance be 2.5m, the 12nd photoelectric door and the 11st photoelectric door distance be 0.5m, the tenth Three photoelectric doors are arranged at the second runway end lights of distance 0.5m；Third runway seven photoelectric doors of setting, including the 14th photoelectric door, 15th photoelectric door, the 16th photoelectric door, the 17th photoelectric door, the 18th photoelectric door, the 19th photoelectric door, the 20th photoelectricity Door；Wherein the 14th photoelectric door is arranged in the second runway and third runway intersection, the 14th photoelectric door and the 13rd photoelectric door Distance is 0.5m, and the 15th photoelectric door and the 14th photoelectric door distance are 0.5m, the 16th photoelectric door and the 15th photoelectric door away from From for 1.5m, the 17th photoelectric door and the 16th photoelectric door distance are 0.5m, the 18th photoelectric door and the 17th photoelectric door distance For 2.5m, the 19th photoelectric door and the 18th photoelectric door distance are 0.5m, and the 20th photoelectric door is with the 19th photoelectric door distance 2m。

7th photoelectric door corresponds to two flying saucers, i.e. the 7th photoelectric door detects a direction more than other photoelectric doors, for examining Surveying two positions in lane number one end and the second race start, whether someone passes through；14th photoelectric door corresponds to two flying saucers, i.e., 14th photoelectric door detects a direction more than other photoelectric doors, for detecting the second runway end lights and third race start two Whether someone passes through for position.Such 7th photoelectric door avoids lane number one and second and runs for being monitored to two runways There is monitoring blind area in road turning point, and the 14th photoelectric door is also used for being monitored two runways, avoids the second runway and third Occurs monitoring blind area between runway.

Test method for steering capability test, comprising: between logger computer and photoelectric door, photoelectric door and photoelectric door Time difference, the distance between photoelectric door；Computer records time of the subject by each photoelectric door；Subject is obtained to pass through The time interval of all photoelectric doors obtains the motion state of subject according to away from discrete time.

Before starting test, i.e., subject by before first photoelectric door, need to judge at identity recognition instrument whether There is subject to carry out identification, such as either with or without then photoelectric door does not work.

The motion state includes velocity and acceleration, speed be by between two photoelectric doors needing to count away from From divided by the time for passing through two photoelectric doors；Acceleration is the acceleration by one section of region, using two photoelectric doors as one group, The speed for being located at one group of photoelectric door of area distal is subtracted into the speed difference obtained positioned at the speed of one group of photoelectric door of region beginning, this Speed difference is the acceleration for passing through this region divided by the required time by this region.

It can be seen that the utility model is compared with prior art, there is substantive distinguishing features outstanding and significant progress, The beneficial effect of implementation is also obvious.

Detailed description of the invention

Fig. 1 is the schematic diagram of the 1st kind of mode in background technique.

Fig. 2 is the schematic diagram of the 2nd kind of mode in background technique.

Fig. 3 is the structural schematic diagram of specific embodiment of the present invention one.

Fig. 4 is the structural schematic diagram of specific embodiment of the present invention two

In figure, 21 be photoelectric door, and 22 be airborne laser range finder, and 23 be lane number one, and 24 be the second runway, and 25 run for third Road, 26 be identity recognition instrument, and 27 be optical disc.

Specific embodiment

In order to clarify the technical characteristics of the invention, below by specific embodiment, and its attached drawing is combined, to we Case is illustrated.

For illustration and not for limitation, the detail of such as particular system structure, technology etc is proposed, so as to Understand thoroughly the utility model embodiment.However, it will be clear to one skilled in the art that these details its The utility model also may be implemented in its embodiment.

Specific embodiment one

It can be seen that the runway for steering capability test of this programme, including lane number one 23, second by attached drawing 3 The both ends of the second runway 24, lane number one 23 and is arranged in runway 24, third runway 25, lane number one 23 and third runway 25 Two runways 24 not on the same line, the second runway 24 and third runway 25 not on the same line, and lane number one 23 and the For three runways 25 in the not ipsilateral of the second runway, lane number one 23 is vertical with the second runway 24, i.e., angle is 90 degree, the second runway 24 is vertical with third runway 25, i.e., angle is 90 degree.Lane number one 23 is 7m, and the second runway 24 is 7m, and third runway 25 is The length of 7m, three runways can be adjusted according to actual needs, be not limited solely to 7m.The arrangement of runway can be Straight line, can be curve, can be carried out on level land, can also be carried out on the runway for have obstacle.

It is provided on three runways for incuding the photoelectric door 21 whether someone passes through, the photoelectric door and computer Connection.In the present embodiment, identity recognition instrument 26 is set far from one end of the second runway in lane number one, the identity is known Other instrument 26 is connect with computer, the equipment that identity recognition instrument can be used to carry out identification using card reader, fingerprint instrument etc.；? In the present embodiment, using 10 photoelectric doors, three photoelectric doors, including the first photoelectric door 1, the second photoelectricity are set on lane number one Door 2, third photoelectric door 3, wherein the starting point of lane number one 23, the second photoelectric door 2 and the first photoelectricity is arranged in the first photoelectric door 1 The distance of door 1 is 2m, and third photoelectric door 3 is 3m at a distance from the second photoelectric door 2, and three photoelectricity are arranged on the second runway 24 The starting of the second runway 24 is arranged in door, including the 4th photoelectric door 4, the 5th photoelectric door 5, the 6th photoelectric door 6, the 4th photoelectric door 4 Position, the 5th photoelectric door 5 are 2m at a distance from the 4th photoelectric door 4, and the 6th photoelectric door 6 is 3m at a distance from the 5th photoelectric door 5；? Four photoelectric doors, including the 7th photoelectric door 7, the 8th photoelectric door 8, the 9th photoelectric door 9, the tenth photoelectric door are set on third runway 25 10, wherein the initial position of third runway 25 is arranged in the 7th photoelectric door 7, the 8th photoelectric door 8 is at a distance from the 7th photoelectric door 7 2m, the 9th photoelectric door 9 are 3m at a distance from the 8th photoelectric door 8, and the end of third runway 25 is arranged in the tenth photoelectric door 10.Wherein The 4th photoelectric door 4 for monitoring 23 end of lane number one and 24 starting point of the second runway, whether someone passes through, the 7th photoelectric door is used In monitoring 24 end of the second runway and 25 starting point of third runway, whether someone passes through, and is provided on runway a pair of with photoelectric door one The flying saucer 27 answered is respectively provided with airborne laser range finder 22 in each photoelectric door 21, for measuring the distance of two neighboring photoelectric door 21, The distance of two neighboring photoelectric door is set to meet above-mentioned setting needs, in addition, at the turning of lane number one 23 and the second runway 24 Place is additionally provided with a flying saucer 27, for identifying runway, in the corner location of 25 intersection of the second runway 24 and third runway It is provided with a flying saucer 27, for identifying runway.

The test method for steering capability test based on above-mentioned runway, 1) start computer and photoelectric door, recording gauge Time difference between calculation machine and photoelectric door, photoelectric door and photoelectric door, such as when computer time is 10 points of 00 minute 00 seconds, photoelectric door 1 time be 10 points 01 second 00 minute, time of other photoelectric doors, computer will record only photoelectricity when being all 10: 00 00: There are 1 second time differences with computer for door 1.Therefore the time collected by photoelectric door 1 needs to reduce 1 second；2) judge subject whether Carry out identification, if so, then enter step 3), if without if repeat step 2)；3) test starts, all photoelectric doors It will record the time that subject passes through, and the time of record be uploaded to computer；4) computer obtains subject by owning The time interval of photoelectric door；By calculating the running time for obtaining and needing, such as when photoelectric door 1 by the time be 10 points 01 minute 00 Second, photoelectric door 20 by the time be 10: 09 01: when, the running time that computer accounting calculates subject is 9 seconds.It is logical The calculation formula for crossing s=vt obtains speed, and wherein s is that subject is run distance, and v is subject's running speed, and t is to pass through photoelectricity The time interval of door.Obtain acceleration by a=(v1-v2)/t, a therein be one section of region that needs measure acceleration or Deceleration, v1 subject's speed in two photoelectric doors before region thus, v2 thus in two photoelectric doors behind region by Examination person's speed, t are to pass through the time needed for the region to be measured by subject.

Collect the time of ten photoelectric doors, and be converted to running the time after, can correspond to run distance find out it is tested Speed of the person, that is, subject Jing Guo photoelectric door, corresponding diagram 3, we, which can find out, turns rear ability related data, and present embodiment is It is tested since lane number one, successively passes through the second runway and third runway, wherein method is as follows: 1) utilizing first photoelectricity Door 1 and the tenth photoelectric door 10 collect the distance by time and runway, we can calculate complete test time and Speed；2) time, Yi Ji are passed through by time, the 5th to the 6th photoelectric door using the 2nd to the 3rd photoelectric door 8 to the 9th photoelectric doors by the time, we can calculate speed of the subject in this three times accelerating sections；3) it utilizes 3rd to the 4th (4a) photoelectric door by time and the 6th to the 7th (7a) photoelectric door by the time, I Can calculate deceleration of the subject in the two braking sections;4) using the 4th, (4a's to 4b) photoelectric door is logical Cross time and the 7th (7a to 7b) photoelectric door by the time, we can calculate right turn speed, and turn left To speed;5) utilize the 4th (4b) to the 5th photoelectric door passes through time and the 7th (7b) to the 8th photoelectricity Door by the time, we can calculate and further accelerate speed in section after right-hand rotation, and the speed further accelerated in section after turning left Degree.

Specific embodiment two

It can be seen that the runway for steering capability test of this programme, including lane number one 23, second by attached drawing 4 The both ends of the second runway 24, lane number one 23 and is arranged in runway 24, third runway 25, lane number one 23 and third runway 25 Two runways 24 not on the same line, the second runway 24 and third runway 25 not on the same line, and lane number one 23 and the For three runways 25 in the not ipsilateral of the second runway, lane number one 23 is vertical with the second runway 24, i.e., angle is 90 degree, the second runway 24 is vertical with third runway 25, i.e., angle is 90 degree.Lane number one 23 is 7m, and the second runway 24 is 7m, and third runway 25 is The length of 7m, three runways can be adjusted according to actual needs, be not limited solely to 7m.The arrangement of runway can be Straight line, can be curve, can be carried out on level land, can also be carried out on the runway for have obstacle.

It is provided on three runways for incuding the photoelectric door 21 whether someone passes through, the photoelectric door and computer Connection, photoelectric door 21 can be connect by wired or wireless mode with computer.In the present embodiment, it is opened from lane number one Begin to carry out steering capability test, identity recognition instrument 26 is set far from one end of the second runway in lane number one, the identity is known Other instrument 26 is connect with computer, and identity recognition instrument 26 can be connect by wired or wireless mode with computer, identification The equipment that instrument can be used to carry out identification using card reader, fingerprint instrument etc.；In the present embodiment, photoelectric door is 20, Middle lane number one is arranged six photoelectric doors, including the first photoelectric door 1, the second photoelectric door 2, third photoelectric door 3, the 4th photoelectric door 4, The starting point of lane number one 23, the second photoelectric door 2 and is arranged in 5th photoelectric door 5 and the 6th photoelectric door 6, the first photoelectric door 1 One photoelectric door 1 is apart from being 1.5m, third photoelectric door 3 and the second photoelectric door 2 apart from for 0.5m, the 4th photoelectric door 4 and third photoelectricity 3 distance of door be 2.5m, the 5th photoelectric door 5 and the 4th photoelectric door 6 apart from for 0.5m, the 6th photoelectric door 6 and the 5th photoelectric door 5 away from From for 1.5m；Seven photoelectric doors, including the 7th photoelectric door 7, the 8th photoelectric door 8, the 9th photoelectric door 9, the is arranged in second runway 24 Ten photoelectric doors 10, the 11st photoelectric door 11, the 12nd photoelectric door 12, the 13rd photoelectric door 13, wherein the setting of the 7th photoelectric door 7 exists 24 intersection of lane number one 23 and the second runway, and the 7th photoelectric door 7 and the 6th photoelectric door 6 are apart from for 0.5m, the 8th photoelectric door 8 With the 7th photoelectric door 7 apart from being 0.5m, the 9th photoelectric door 9 and the 8th photoelectric door 8 apart from for 1.5m, the tenth photoelectric door 10 and the 9th Photoelectric door 9 is apart from being 0.5m, the 11st photoelectric door 11 and the tenth photoelectric door 10 apart from for 2.5m, the 12nd photoelectric door 12 and the tenth Apart from for 0.5m, the 13rd photoelectric door 13 is arranged at 24 end 0.5m of the second runway of distance one photoelectric door 11；Third runway 25 Seven photoelectric doors, including the 14th photoelectric door 14, the 15th photoelectric door 15, the 16th photoelectric door 16, the 17th photoelectric door are set 17, the 18th photoelectric door 18, the 19th photoelectric door 19, the 20th photoelectric door 20；Wherein the 14th photoelectric door 14 is arranged second 25 intersection of runway 24 and third runway, the 14th photoelectric door 14 and the 13rd photoelectric door 13 are apart from for 0.5m, the 15th photoelectricity The 15 and the 14th photoelectric door 14 of door is apart from being 0.5m, the 16th photoelectric door 16 and the 15th photoelectric door 15 apart from for 1.5m, the tenth Seven photoelectric doors 17 and the 16th photoelectric door 16 apart from for 0.5m, the 18th photoelectric door 18 and the 17th photoelectric door 17 apart from for 2.5m, the 19th photoelectric door 19 and the 18th photoelectric door 18 are apart from for 0.5m, the 20th photoelectric door 20 and the 19th photoelectric door 19 Distance is 2m.7th photoelectric door 7 corresponds to two flying saucers 27, for detecting 23 end of lane number one and 24 starting point of the second runway two Whether someone passes through for position；14th photoelectric door 14 corresponds to two flying saucers 27, runs for detecting 24 end of the second runway and third Whether someone passes through for road 25 starting point, two positions.It is provided with flying saucer 27 corresponding with photoelectric door on runway, is set in photoelectric door Airborne laser range finder 22 is set, airborne laser range finder 22 is used to measure the distance of two neighboring photoelectric door.

When test, 1) starting computer and photoelectric door, between logger computer and photoelectric door, photoelectric door and photoelectric door when Between it is poor, such as when computer time be 10 points 00 second 00 minute, 1 time of photoelectric door be 10 points of 01 seconds 00 minute, other photoelectric doors when Between when being all 10: 00 00:, computer will record only photoelectric door 1 with computer there are 1 second time differences.Therefore photoelectricity Time collected by door 1 needs to reduce 1 second；2) judge that subject whether carries out identification, if so, then enter step 3), If without if repeat step 2)；3) test starts, and all photoelectric doors will record the time that subject passes through, and by record when Between be uploaded to computer；4) computer obtains time interval of the subject by all photoelectric doors；Needs are obtained by calculating Run the time, when photoelectric door 1 by the time be 10 points 00 second 01 minute, photoelectric door 20 by the time be 10 points 09 second 01 minute When, the running time that computer accounting calculates subject is 9 seconds.Run distance can be corresponded to and find out subject by photoelectric door Speed, the wherein transformation approach of speed are as follows: speed=run distance ÷ the run time.Wherein it can be light in measuring and calculating speed The distance of electric switch 1 to 3, the distance of photoelectric door 2 to 3, the distance of photoelectric door 4 to 5, the distance of photoelectric door 6 to 7a, photoelectric door 7b are extremely 8 distance, the distance of photoelectric door 9 to 10, the distance of photoelectric door 11 to 12, the distance of photoelectric door 13 to 14a, photoelectric door 14b are extremely 15 distance, the distance of photoelectric door 16 to 17, the distance of photoelectric door 18 to 19；Measurement accelerator be photoelectric door 3 to 5 away from With a distance from, photoelectric door 10 to 12, the distance of photoelectric door 17 to 19；Measurement moderating process is distance of the photoelectric door 5 to 7a, light Electric switch 12 to 14a distance；When such as measuring the speed that photoelectric door 1 arrives between photoelectric door 3, speed (photoelectric door 1 to photoelectric door 3)= 2m/ (m- 1 time of photoelectric door when photoelectric door 3)；Acceleration is the acceleration by one section of region, using two photoelectric doors as one The speed for being located at one group of photoelectric door of area distal is subtracted the speed obtained positioned at the speed of one group of photoelectric door of region beginning by group Difference, this speed difference are the acceleration for passing through this region divided by the required time by this region.Right turn speed (photoelectric door 7)= Distance/(the 0.5m time of m- photoelectric door 7b when photoelectric door 7a)；Left steering speed (photoelectric door 14)=distance/(photoelectric door 14a When m- photoelectric door 14b time).

The utility model is not limited in above-mentioned specific embodiment, and those of ordinary skill in the art are in the utility model The variations, modifications, additions or substitutions made in essential scope, should also belong to the protection scope of the utility model.

Claims (7)

1. a kind of runway for steering capability test, including photoelectric door, computer, it is characterized in that: there are also lane number ones, second The both ends of the second runway are arranged in runway, third runway, lane number one and third runway, and lane number one and the second runway be not same On one straight line, the second runway and third runway not on the same line, and lane number one and third runway the second runway not It is ipsilateral, be provided on three runways for incude whether the photoelectric door that someone passes through, the photoelectric door connect with computer.

2. the runway according to claim 1 for steering capability test, it is characterized in that: being run in lane number one far from second Identity recognition instrument is arranged in the one end in road, and identity recognition instrument, the identity is arranged far from one end of the second runway in third runway Identifier is connect with computer；Lane number one is vertical with the second runway, and the second runway is vertical with third runway.

3. the runway according to claim 1 for steering capability test, it is characterized in that: lane number one is 7m, second is run Road is 7m, and third runway is 7m.

4. the runway according to claim 3 for steering capability test, it is characterized in that: being provided on runway and photoelectricity The corresponding flying saucer of door, is arranged airborne laser range finder in photoelectric door, and airborne laser range finder is used to measure the distance of two neighboring photoelectric door.

5. the runway according to claim 3 for steering capability test, it is characterized in that: the photoelectric door is 10, Three photoelectric doors, including the first photoelectric door, the second photoelectric door, third photoelectric door are set on lane number one, wherein the first photoelectric door The starting point of lane number one is set, and the second photoelectric door is 2m, third photoelectric door and the second photoelectricity at a distance from the first photoelectric door The distance of door is 3m, and three photoelectric doors, including the 4th photoelectric door, the 5th photoelectric door, the 6th photoelectric door are arranged on the second runway, The initial position of the second runway is arranged in the 4th photoelectric door on second runway, and the 5th photoelectric door is at a distance from the 4th photoelectric door 2m, the 6th photoelectric door are 3m at a distance from the 5th photoelectric door, and four photoelectric doors, including the 7th photoelectricity are arranged on third runway Door, the 8th photoelectric door, the 9th photoelectric door, the tenth photoelectric door；Wherein the 7th photoelectric door on third runway is arranged in third runway Initial position, the 8th photoelectric door at a distance from the 7th photoelectric door be 2m, the 9th photoelectric door with the 8th photoelectric door at a distance from be 3m, The end of third runway is arranged in tenth photoelectric door.

6. the runway according to claim 3 for steering capability test, it is characterized in that: the photoelectric door is 20, Six photoelectric doors, including the first photoelectric door, the second photoelectric door, third photoelectric door, the 4th photoelectric door, the 5th are arranged in middle lane number one Photoelectric door and the 6th photoelectric door, the first photoelectric door are arranged in the starting point of lane number one, the second photoelectric door and the first photoelectric door away from From being 1.5m, third photoelectric door and the second photoelectric door apart from being 0.5m, the 4th photoelectric door and third photoelectric door distance are 2.5m, 5th photoelectric door and the 4th photoelectric door distance are 0.5m, and the 6th photoelectric door and the 5th photoelectric door distance are 1.5m；

Seven photoelectric doors, including the 7th photoelectric door, the 8th photoelectric door, the 9th photoelectric door, the tenth photoelectric door, the is arranged in second runway 11 photoelectric doors, the 12nd photoelectric door, the 13rd photoelectric door, wherein the setting of the 7th photoelectric door is handed in lane number one and the second runway At boundary, and the 7th photoelectric door and the 6th photoelectric door distance be 0.5m, the 8th photoelectric door and the 7th photoelectric door distance be 0.5m, the 9th Photoelectric door and the 8th photoelectric door distance be 1.5m, the tenth photoelectric door and the 9th photoelectric door distance be 0.5m, the 11st photoelectric door with Tenth photoelectric door distance is 2.5m, and the 12nd photoelectric door and the 11st photoelectric door distance are 0.5m, and the setting of the 13rd photoelectric door exists At the second runway end lights of distance 0.5m；

Seven photoelectric doors, including the 14th photoelectric door, the 15th photoelectric door, the 16th photoelectric door, the 17th are arranged in third runway Photoelectric door, the 18th photoelectric door, the 19th photoelectric door, the 20th photoelectric door；Wherein the 14th photoelectric door is arranged in the second runway With third runway intersection, the 14th photoelectric door and the 13rd photoelectric door distance are 0.5m, the 15th photoelectric door and the 14th light Electric switch distance is 0.5m, and the 16th photoelectric door and the 15th photoelectric door distance are 1.5m, the 17th photoelectric door and the 16th photoelectricity Door distance is 0.5m, and the 18th photoelectric door and the 17th photoelectric door distance are 2.5m, the 19th photoelectric door and the 18th photoelectric door Distance is 0.5m, and the 20th photoelectric door and the 19th photoelectric door distance are 2m.

7. the runway according to claim 6 for steering capability test, it is characterized in that: the 7th photoelectric door corresponding two fly Dish, for detecting two positions in lane number one end and the second race start, whether someone passes through；14th photoelectric door corresponding two A flying saucer, for detecting two positions of the second runway end lights and third race start, whether someone passes through.