1、Click to edit Master text styles,Second level,Third level,Fourth level,Fifth level,*,*,Click to edit Master title style,Click to edit Master text styles,Second level,Third level,Fourth level,Fifth level,Click to edit Master title style,Chap.4 Distance surveying and line orientation,Highway school Ch
2、angan university,Chap.4 Distance surveying and line orientation,Distance:refers to length of the,curve,line between two,projections of two,points,to the geoid along the plumb line,.,Main contents,:,钢尺量距(,steel tape distance surveying,);,视距测量(,stadia surveying,);,光电测距(,photoelectric surveying distanc
3、e,),卫星测距(,Satellite ranging,);,直线定向(,line orientation,);,2,Key content:,坐标方位角(,coordinates azimuth calculation,),Classification:,Direct measurement method-,steel tape distance surveying;,Optical measurement method-,stadia,d,istance surveying,;,Physical measurement method-,photoelectric surveying dis
4、tance;,3,4-1,Steel tape distance surveying,一、,The tools,钢尺(,Steel tape,),标杆(,benchmarking,),测钎(,measuring brazing,),and,垂球(,Metal ball,ball,),.,1.Steel tape,Feet long,:,20 meters,30 meters,50 meters,;,S,pecifications:plastic coated or not plastic coated.,Scale and note:mm,cm,dm,m,刻线尺(,compartmentali
5、zed rule,),端点尺(,endpoint rule,),Endpoint rule Compartmentalized rule,4,4-1,Steel tape distance surveying,一、,The tools,2.Flower stem:Fixed line forward direction line,3.Measuring brazing:fix rule segment endpoint position.,二、直线定线(,Fixing line,),目测定线和经纬仪定线,5,4-1,Steel tape distance surveying,三、,Steel
6、tape distance surveying,The basic requirements:“straight,l,evel,accurate.,1.The distance surveying at flat ground,Use the equation:,D,=,nl+q,l-the the length of whole f,e,e,t;,n-the whole rule section number,q-zero rule section length.,surveying error:,D,=,D,往,-,D,返,Distance average:,D,平,=,(,D,往,-,D
7、返,),The relative error:,6,4-1 Steel tape distance surveying,2.The distance surveying at the tilt ground,(1)flat surveying method:,(2)inclined surveying method,7,4-2 Stadia,s,urveying,Stadia,s,urveying,is indirect ranging method,它利用望远镜内十字丝分划板上的视距丝及刻有厘米分划的视距标尺,(,地形塔尺或普通水准尺,),,根据光学原理可以同时测定两点间的水平距离和高差,
8、The relative error is about 1/300,below the rule surveying distance,Determine the elevation precision is below level survey,Stadia measurement is widely used,for measuring the details topography,Measurement.,8,4-2 Stadia,s,urveying,一、,Stadia formula when sight is horizontal,n,9,4-2 Stadia,s,urveyi
9、ng,一、,Stadia formula when sight is horizontal,Horizontal distance formula:,Height difference formula:,n,l,10,4-2 Stadia,s,urveying,二、T,he stadia formula when sight is tilting,Horizontal distance D:,Elementary height difference:,The height difference between A and B:,11,4-2 Stadia,s,urveying,三、,The s
10、teps of the s,tadia,s,urveying,1,在测站上安置经纬仪,量取仪器高(桩顶至仪器横轴中心的距离),精确到,cm,;,2,瞄准竖直于测点上的标尺,并读取中丝读数值;,3,用上、下视距丝在标尺上读数,将两数相减得视距间隔;,4,使竖盘水准管气泡居中,读取竖盘读数,求出竖直角,;,5.,根据视距公式,计算水平距离和高差及立尺点的高程。,12,4-2 Stadia,s,urveying,四、,Stadia measurement errors,1.The stadia rule partition error,2.Constant K value error,3.Verti
11、cal Angle measurement errors,4.Stadia cross reading error,5.Influence of stadia rule tilting to stadia,measurement,6.The influence of external meteorological conditions to stadia measurement,(1)the influence of atmospheric refraction,(2)the influence of atmospheric turbulence,13,4-3 Electromagnetic
12、rangefinder,一、,Ectromagnetic ranging overview,1.Principle,To record the electromagnetic wave traveling time between two endpoints round-trip once time,using its propagation velocity in the atmosphere to calculate the distance between two points.,14,4-3 Electromagnetic rangefinder,一、,Ectromagnetic ra
13、nging overview,2.Rangefinder classification,(,1,),carrier wave adapted,Microwave rangefinder,Photoelectric rangefinder,1.Laser rangefinder,2.Infrared rangefinder,(,2,),method,t,o calculate,time,Phase type rangefinder,Pulsed rangefinder,15,4-3 Electromagnetic rangefinder,(3)according to distance,Remo
14、te range,:,tens of kilometers,M,edium-range,:,from several kilometers to,10 kilometers,Short-range,:,below three kilometers,(4)by carrier number,Single carrier,:,visible light,Infrared light,microwave.,D,ouble carrier,:,visible+visible light,Visible,+infrared radiation,Three carrier,:,visible+visibl
15、e+microwave,Visible+infrared+microwave etc,.,16,4-3 Electromagnetic rangefinder,(5)By the reflection target,Diffuse target(no cooperation target),Cooperation goal,-,flat mirror,prism,Active reflector,-,-,same frequency carrier,wave transponder,;,different frequency,carrier transponder,etc,17,4-3 Ele
16、ctromagnetic rangefinder,二、,Pulse photoelectric surveying distance,18,4-3 Electromagnetic rangefinder,三、,Phase photoelectric rangefinder,1.Basic principle,19,4-3 Electromagnetic rangefinder,三、,Phase photoelectric rangefinder,2,B,asic formula,Modulation wave modulation frequency f,angular frequency t
17、period T,20,4-3 Electromagnetic rangefinder,三、,Phase photoelectric rangefinder,2,B,asic formula,Set modulated signal is sine signal,including the euploid of,2,2,N2,and terminal part less than,2,namely:,21,4-3 Electromagnetic rangefinder,三、,Phase photoelectric rangefinder,3,The determination of N va
18、lue,22,4-3 Electromagnetic rangefinder,三、,Phase photoelectric rangefinder,4,The inner light path set,23,4-3 Electromagnetic rangefinder,四、,Total reflecting prisms,由于光在玻璃中的折射率为,1.5,1.6,,而光在空气中的折射率近似等于,1,,也就是说光在玻璃中的传播要比空气中慢,因此光在棱镜中传播所用的超量时间会使所测距离增大某一数值,称为棱镜常数。,24,4-3 Electromagnetic rangefinder,五、,Dis
19、tance measurement steps,测距时,将测距仪和反射镜分别安置在测线的两,端,仔细地对中。接通测距仪的电源,然后照准反,射镜,检查经反射镜反射回的光强信号。合乎要求,后即可开始测距。,六、,Distance measurement data process,1,Add constants correct,25,4-3 Electromagnetic rangefinder,六、,Distance measurement data process,2,Multiply constant corrections,3,Meteorological correct,不同型号的测距仪,
20、气象改正公式的系数也不同,,在仪器使用说明书内给出了气象改正计算公式。,4.Tilt correction,5,To calculate to geoid corrections,26,4-3 Electromagnetic rangefinder,七、,E,rror sources of photoelectric ranging,Distance error can be divided into two parts:,The first part error of it is proportional to distance D,namely the speed of light val
21、ue error,atmospheric refraction error and ranging frequency error;,Another part is irrelevant with distance,namely phase error,to add constant error,plummet error,Generally rangefinder precision expression,27,1,4-4 Electromagnetic wave rangefinder inspection,一、,Overview,Inspection items mainly inclu
22、de:,1 function examines,2 The correctness of calibration of three axis relationship,3 luminescence tubes phase uniformity(beadle error)measurement,4 Amplitude phase error measurement,5 period errors measurement,6 determination of add constants,7 by constant(including crystal frequency),8 internal an
23、d external precision of the examination.,9 adaptive performance testing:,10 measurement process detection,28,4-4 Electromagnetic wave rangefinder inspection,一、,Overview,Inspection items mainly include:,功能检视,;,三轴关系正确性的检校,;,发光管相位均匀性(照准误差)的测定;,幅相误差的测定;,周期误差的测定;,加常数的测定;,乘常数(包括晶振频率)的测定;,内部、外部符合精度的检验;,适应性
24、能的检测:测程的检测。,29,4-4 Electromagnetic wave rangefinder inspection,二、,The determination of the period errors,1.What is the period errors,Cycle repeated error according to certain distance,mainly comes from internal fixed crosstalk signal.,30,4-4 Electromagnetic wave rangefinder inspection,二、,The determi
25、nation of the period errors,2,The measurement method of the period errors,31,4-4 Electromagnetic wave rangefinder inspection,三、,The determination of surveying distance constant,1.Simple measurement of add constant,2.Fix add,by constant by 6 sections comparison.,To get the observation value by compar
26、ison method,to compare observation with the known baseline data to obtain constant K,by constant R.,32,4-5 Line orientation,Determine the horizontal angle between a straight line and a basic direction.,一、Basic direction,1,True north direction,:,过地面某点真子午线的切线北端所指示的方向。采用天文测量的方法测定。,2,Magnetic north dire
27、ction,:,磁针自由静止时其指北端所指的方向,称为磁北方向,可用罗盘仪测定。,3,Coordinates north direction,:,过O点的真子午线坐标纵轴(X轴)正向所指示的方向,称为坐标北方向。实用上常取与高斯平面直角坐标系中X坐标轴平行的方向为坐标北方向。,33,4-5 Line orientation,二、方位角(,Azimuth,),An azimuth is the direction of a line as given by an angle measured clockwise from the north end of a meridian.It ranges
28、 in magnitude from,0360。,1True azimuth(A):,the direction of a line as,given by an angle measured clockwise from,the true north。,2.Magnetic azimuth(A,m,):,the direction of a line as,given by an angle measured clockwise from,the magnetic north。,3Grid azimuth(,):,the direction of a line as,given by an
29、angle measured clockwise from,the Grid north。,34,4-5 Line orientation,三、磁偏角(,Magnetic declination,),子午线收敛角(,meridian convergence,),1,Magnetic declination:,The horizontal angle between the,north,o,f,the compass and true north,。,2,meridian convergence,:,The horizontal angle between,true and grid north
30、and are positiv,e,when the,magnetic north or grid north is in the east,t,o,true north,the otherwise are negative,.,过,O,点的真子午线,35,4-5 Line orientation,四、,The relationship between three azimuths,36,4-5 Line orientation,五、,Pros and cons grid azimuth,37,4-6 The azimuth surveying,一、,C,ompass determina
31、tion magnetic azimuth,pass construction,telescope,compass box,base,38,4-6 The azimuth surveying,一、,A compass determination magnetic azimuth,2.Compass operation,(,1,)安置罗盘仪于直线的一个,端点,进行对中和整平。,(,2,)用望远镜瞄准直线另一端,点的标杆。,(,3,)松开磁针制动螺旋,将磁针,放下,待磁针静止后,磁针在刻度盘上所指的读数即为该直线的磁方位角。,39,4-6 The azimuth surveying,二、,Gyro
32、 theodolite determination true azimuth,1,Gyro theodolite construction,由望远镜、罗盘盒、基座三部分组成。,GYROMAT2000,AGP1,40,4-6 The azimuth surveying,二、,Gyro theodolite determination true azimuth,1,Gyro theodolite observation methods,(1)Roughly orientation,两逆转点法,:,四分之一周期法:,41,4-6 The azimuth surveying,(,2,),Precision direction,精密定向一般采用跟踪逆转点法和中天法。,42,Chapt.4 Content review,1.Steel tape distance surveying,2.Stadia measurement,3.Electromagnetic rangefinder,4.Electromagnetic rangefinder inspection,5.Line orientation,6.The azimuth surveying,Thats all for this chapter,!,43,






