SURVEYING-1 UNIT-3 LEVELLI NG By CH.TEJA KIRAN Assistant professor Department of Civil Engineering RGUKT-AP SRIKAKULAM CAMPUS What is Levelling? The art of determining relative altitudes of points on surface of earth r beneath surface of earth is called levelling. This is branch of surveying which deals with measurement in vertical planes only. For execution of any engineering project like highways, railways, canals, dams, building, water supply and sanitary scheme it is very necessary to determine elevations of different points along the alignments of proposed projects. Levelling is employed to provide accurate network of heights, covering entire area of project. Levelling is of prime importance to the engineers, both in acquiring necessary data for design of project and also during its execution. Principle of Levelling The principle of levelling is to obtain horizontal line of sight with respect to which vertical distances of the points above or below this line of sight are found. Objects of levelling Levelling is done for following purposes. To prepare a contour map for fixing sites for reservoirs, dams, barrages etc, and to fix alignment of roads, railways, irrigation canal etc. To determine the altitudes of different important points on hill or to know reduce level of different points on surface , above or below surface of earth. To prepare longitudinal section or cross section of projects in order to determine volume of earth work. To prepare layout map for water supply , sanitary or drainage. Uses of Levelling. 1. To establish bench mark as vertical control points which serve as references for other levelling. 2.To enable surveyor calculate whether two points are intervisible from each other on the ground surface. 3.To enable surveyor measurements to be reduced to the horizontal at sea level. 4.To enable drainage works to be surveyed so that water way flow in the desired direction. 5.To provide information for scientists about the shape and structure of the earth and its movement. Terms used in leveling (1)Level surface : A surface parallel to the mean spheroidal surface of the earth is called a level surface. Such surface is a curved surface. Water surface of still lake is considered as level surface. The line drawn on the level surface is known as a level line. This line is normal to plumb line. Hence all points lying on a level surface are equidistant from the centre of the earth. (2) Horizontal Surface: A surface tangential to level surface at a given point is called horizontal surface at that point. Hence a horizontal line is at right angles to the plumb line at that point, which indicates direction of gravity . Any line lying on horizontal plane is called horizontal line it is tangential to level line. 3)Vertical Line. The direction indicated by plumb line is called vertical line, which is perpendicular to horizontal line. Vertical plane: any plane passing through the vertical line is called vertical plane. 4)Datum surface or line: This is an imaginary level surface or line with the reference of which vertical distance of different points above or below of this line is measured. 5)Mean Sea Level (MSL): MSL is the average height of the sea for all stages of the tides. At any particular place MSL is established by making hourly observations of tides and by averaging tide heights over a long period of at least 19 years. In India and Pakistan MSL used is that established at Karachi, presently, in Pakistan. In all important surveys this is used as datum.But after independence, it is MUMBAI HIGH. 6)Reduced Levels (RL): The height or depth of a point taken as height above or below the datum surface is known as RL of that point. It is also called elevation of a point.Elevation of any object below MSL is called negative elevation. 7)LINE OF COLLIMATION- - the line which passes through the Intersection of the cross hairs of the eye piece and optical centre of the objective and its continuation is called as line of collimation. This is also known as line of sight. Axis of the Telescope : This axis is an imaginary line passing through the optical center of the object glass and the optical centre of the eye piece. 8) BENCH MARK – (BM) – B.M. is a fixed reference point of known elevation with reference to datum line. They survey as reference points for finding RL of new points or for conducting levelling operations in project involving roads and railways. It may be of the following types. i)GTS Bench mark (Great Trigonometrically Survey) : A G.T.S. (Great Trigonometrical Survey) benchmark is a permanently fixed reference survey station (or point), having known elevation with respect to a standard datum (mean sea level). These are established all over India by Survey of India department with greater precision. BM ii) Permanent Bench Mark : They are fixed points of reference establish with reference to GTS Bench mark by other government agencies like PWD , Railways, irrigation etc, and are kept on permanent points like culvert, kilometer stones, railway platforms, pillars etc. iii) Arbitrary Bench mark : These are reference points whose elevations are arbitrarily assumed. These are adopted for small work, when only undulation of ground is important to be determined. (iv) Temporary B.M: when the B.Ms are established temporarily at the end of day’s work, they are said to be temporary Bench Mark. They are generally made on root of tree, parapet of nearby culvert etc. Station: A point where the levelling staff is kept. Back sight : (B.S.) - The first sight taken on a levelling staff held at a point of known elevation (BM) is called Back sight. B.S. enables the surveyor to obtain Height of Instrument or elevation of line of sight. Fore Sight : (F.S.) – It is the last staff reading taken from a setting of the level. It is also termed as minus sight. Fore sight is the sight taken on a levelling staff held at a point of unknown elevation to ascertain the amount by which the point is above or below the line of sight. This is also called minus sight as the foresight reading is always subtracted from height of Instrument. Intermediate Sight (IS) : The foresight taken on a levelling staff held at a point between two turning points, or taken on points between BS and Fs , to determine the elevation of that point, is known as intermediate sight. Height of Instrument (HI) : The elevation of the line of sight with respect to assumed datum is known as HI. This is obtained by adding Back sight to RL of B.M or change point. Change Point (CP) : The point on which both the foresight and back sight are taken during the operation of levelling is called change point. Parallax: if the image formed by objective does not lie in the plane of cross hairs , there will be shift in image due to shift of the eye. Such displacement of image is called parallax. For accurate sighting , the parallax is eliminated in two steps. (a) Focussing eye piece for distinct vision of cross hairs. (b) Focussing objective so that the image is formed in plane of cross hairs. Focussing the eye-piece – a piece of white paper is held in front of the object glass and the eye piece is moved in or out by turning it clockwise or anticlockwise until the cross hairs can be seen clearly. Focussing the object glass – telescope directed toward the levelling staff. Looking through the eye piece, the focusing screw is turned clockwise or antilock wise until the graduation of staff is visible. Types of Levelling Equipments i) Dumpy level ii) Tilting level iii) Automatic level iv) Digital Auto level v) WYE level vi)Cooke’s reversible level Dumpy Level Dumpy level is the most commonly used instrument in leveling. In this level the telescope is restricted against movement in its horizontal plane and telescope is fixed to its support. A bubble tube is provided on the top of the telescope. But however, the leveling head can be rotated in horizontal plane with the telescope. Tilting Level Tilting level consist a telescope which enabled for the horizontal rotation as well as rotation about 4 degree in its vertical plane. Centering of bubble can be easily done in this type of level. But, for every setup bubble is to be centered with the help of tilting screw. The main advantage of tilting level is it is useful when the few observations are to be taken with one setup of level. The Automatic level: Automatic level is like the dumpy level. In this case the telescope is fixed to its supports. Circular spirit can be attached to the side of the telescope for approximate leveling. For more accurate leveling, compensator is attached inside the telescope. Compensator can help the instrument to level automatically. Compensator is also called as stabilizer. Now days it is most commonly used in every type of work. Advantage of automatic level Much simpler to use High precision : Mean elevation error on staff graduated to 5mm division varies between +0.5 to 0.8 mm per km of forward and backward levelling. High speed : In fly levelling the progress achieved by various level-wise compared. Digital Auto Level Wye (Y) Level Y level or Wye-level consists y-shaped frames which supports the telescope. Telescope cane be removed from the y-shaped supports by releasing clamp screws provided. These y-shaped frames are arranged to vertical spindle which helps to cause the rotation of telescope. Cooke’s Reversible Level Cooke’s reversible level is the combination of dumpy level and y-level. In this instrument, the telescope can be reversed without rotation the instrument. Collimation error can be eliminated in this case because of bubble left and bubble right reading of telescope. Diaphram : A frame carrying cross hairs usually made of either silk thread or platinum wire and placed at the plane at which vertical image of the object is formed by the objective. Vertical hair of the diaphram enables the surveyor to check the verticality of levelling staff whereas horizontal hairs are used to read the staff graduations. Diaphram Components of Dumpy level : 1.Tripod – The tripod stand consist of three legs which may be solid or framed to support the above three parts of the level. 2.Levelling head : Levelling head generally consists of two parallel plates with 3 foot screws. Upper plate is known as Tribrach and lower plate is trivet which can be screwed on to the tripod. Levelling head has to perform 3 distant functions : i) to support the telescope ii) to attach the level to the tripod iii) to provide a means for level (foot screws) to bring the bubble of tube level at the centre of its run. 3. Foot screws : Three foot screws are provided between the trivet & tribrach. By turning the foot screws the tribrach can be raised or lowered to bring the bubble to the centre of its run. 4.Telescope : Telescope is an optical instrument used for magnifying and viewing the images of distant objects. It consists of two lenses. The lens fitted near the eye is called the eye piece and the other fitted at the end near to the object is called the objective lens. 5.Level Tube : Also known as Bubble Tube. Points to be remembered by Staff man The staff should be made vertical by holding it with both arms while standing behind it. The staff should be held on firm ground. When the telescopic staff is to be extended, care should be taken so that it is perfectly stretched and properly fixed on the spring catcher. The bottom of the staff should be kept clean. Points to be remembered by Level man The Levelling instrument should be placed at a position suitable for the greatest no. of observation to be taken. The instrument should not be too high or too low. The Levelling should be done perfectly. The Levelling instrument should not be placed on the profile line (i.e. the center line of the project). The eye-piece should be focused by holding a sheet of white paper in front of the telescope. The objective should be focused by pointing the telescope towards the staff. The parallax should be eliminated. The verticality of the staff should be verified by observing the two vertical hairs & by noting the minimum reading on the staff when it is moved along the line of sight. After taking the staff reading, the position of the bubble should be verified. If it is disturbed, the reading should be taken again. Temporary Adjustment of 1. Level Selection of suitable position 2. Fixing level with tripod stand 3. Approximate levelling by legs of tripod stand 4. Perfect levelling by foot screws 5. Focussing the eye-piece 6. Focussing the object glass 7. Taking the staff readings Selection of suitable position - A sutaible position is selected for setting the level . From this position , it should be possible to take the greatest number of observation without difficulty. Fixing level with tripod stand – the tripod stand is placed at the required position with its legs well apart, and pressed firmly into the ground. The level is fixed on the tripod stand according to the fixing arrangement provided. Approximate levelling by legs of tripod stand- the foot screws are brought to the center of their run. Two legs of the tripod stand are firmly fixed into the ground. Then the third leg is moved to the left or right , in or until the bubble is approximately at the centre of its run. Perfect levelling by foot screws – the top of the telescope. longitudinal bubble on Bubble brought to the center by turning the foot screw equally either both inward or outward. Then telescope turned through 90 degree. And brought over the third foot screw , and the bubble is brought to the center by turning this foot screw clockwise and anticlockwise. The telescope again brought to its original position. And bubble to the centered the process repeated several times until bubble remain its central position. Focussing the eye-piece – a piece of white paper is held in front of the object glass and the eye piece is moved in or out by turning it clockwise or anticlockwise until the cross hairs can be seen clearly. Focussing the object glass – telescope directed toward the levelling staff. Looking through the eye piece, the focusing screw is turned clockwise or antilock wise until the graduation of staff is visible. Taking the staff readings- finally the leveling of the instrument is verified by turning the telescope in any direction. When the bubble remain in the central position for any direction of the telescope. Levelling Staff Rod which helps in taking reading for determining RL of different points is called levelling rod or staff rod. Levelling Staff are of two types (i) Self reading staff (ii) Target staff. (i) Self reading staff: This staff reading is directly read by the instrument man through telescope. In a metric system staff, one meter length is divided into 200 subdivisions, each of uniform thickness of 5 mm. All divisions are marked with black in a white background. Meters and decimeters are written in red color. Self Reading staff Self reading staff are further divided in (a) Solid staff: It is a single piece of 3 m (b)Folding staff: A staff of two pieces each of 2 m which can be folded one over the other (c)Telescopic staff: A staff of 3 pieces with upper one solid and lower two hollow. The upper part can slide into the central one and the central part can go into the lower part. Each length can be pulled up and held in position by means of brass spring. The total length may be 4 m. Top and central portion are of 1.25m and bottom portion is 1.5m. ii) Target staff: If the sighting distance is more, instrument man finds it difficult to read self reading staff. In such case a target staff may be used. Target staff is similar to self reading staff, but provided with a movable target. Target is a circular or oval shape, painted red and white in alternate quadrant. Types of Levelling operation 1. Simple levelling 2. Differential Levelling 3. Fly Levelling 4. Longitudinal or Profile Levelling 5. Cross-sectional Levelling 6. Check Levelling Simple levelling : When the difference of level between two points is determined by setting the levelling instrument midway between the points, the process is known as simple levelling. Differential levelling : i)If the difference in elevation between them is too great. ii)If there are obstacles intervening. In such case it is necessary to set up the level in several positions and to work in series of stages. Differential levelling This method is also known as compound levelling or continuous levelling. Suppose it is required to know the difference of level between A & B. the level is set up at point O1, O2, O3 etc after temporary adjustment staff reading are taken at every set up . The point C1, C2, C3 are known as change points then difference of level between the A & B is found out. Fly levelling When Differential levelling is done in order to connect a bench mark to the starting point of the alignment of any project, it is called fly levelling. Fly levelling is also done to connect the BM to any intermediate point of the alignment for checking the accuracy of the work. Longitudinal or profile levelling The operation of taking levels along the centre line of any alignment (road, railway, etc.) at regular intervals is known as longitudinal levelling. This operation is undertaken in order to determine the undulations of the ground surface along the profile line. Cross Sectional levelling The operation of taking levels transverse to the direction of longitudinal levelling is known as cross sectional levelling. This operation is undertaken in order to know the nature of the ground across the centre line of any alignment. Check levelling The fly levelling done at end of the day’s work to connect the finishing point with the starting point on the particular day is known as check levelling. It is undertaken in order to check the accuracy of the day’s work. Reciprocal Levelling In this levelling set up on both banks of the river or valley and two set of staff reading are taken by holding the staff on the both banks. Procedure – Suppose A& B are two points on the opposite back of river. The level is set up very near A and after proper temporary adjustment , staff reading are taken at A & B . Suppose the readings are a1 &b2 The level is shifted and set up very near B and after proper adjustment , staff reading are taken at A & B . h= true difference between point A & B In the first case correct staff reading at A= a1 correct staff reading at B= b1 – e True difference of level between A&B h = a1 – (b1 – e ) …………………(1) In second case Correct staff reading at B = b2 Correct staff reading at A = a2 – e True difference in level h =(a2 -e) –b2 ……………(2) From (1)&(2) 2h = a1 – (b1 - e) + (a2 - e) – b2 = a1 – b1 +e +a2 – e – b2 = (a1 – b1) +(a2 – b2) h = (a1-b1) + (a2 – b2) / 2 Difficulties faced in levelling 1. When the staff is too near the instrument 2. Levelling across a large pond or lake 3. Levelling across a river Levelling across a large pond or lake We know that the water surface of still lake or pond is considered to be level. Therefore all points on the a water surface have the same R.L. Two peg A &B fix on opposite bank of the lake or pond. The top of the pegs are just flush with the water surface. The level is set up at O1 and RL of A is determined by taking FS on A. the RL of B is assume to be equal to that of A . Now the level is shifted and set up at O2 . Then by taking a BS on peg B, levelling is continued. Levelling across a river In case of flowing water , the surface cannot be considered level, the water level on the opposite edges will be different. In such case the method of reciprocal levelling is adopted. Two peg A &B are driven in opposite bank of river. 4. Levelling across a solid wall Two peg A &B are driven on either side of wall, just touching it. The level is set up at O1 and a staff reading is taken on A. let this reading be AC. Then then the height of wall is measured by staff . Let the height be AE. The HI is found out by taking a BS on any BM or CP RL of A = HI – AC RL of E = RL of A + AE = RL of F RL of B = RL of F – BF HI at O2 = RL of B + BD . 5 When BM is above line of collimation this happens when the BM is at the bottom of the bridge girder or bottom surface of the culvert. And that it is required to find out RL of A. the level is set up at O and staff is held inverted on the BM. The staff readig taken and noted with negative sign. Let BS & FS reading be – 1.5 and 2.250 respectively. HI of instrument = 100 – 1.5 = 98.5 RL of A = 98.5 – 2.250 = 95.250 6. Levelling across a rising ground or depression while levelling across high ground, the level should not be placed on the top of the ground , but on side so that the line of collimation just passes through the apex. While levelling across a depression the level should be set up on one side and not at the bottom of the depression. Sources of Errors in levelling Instrumental errors Personal errors Errors due to natural causes Instrumental errors The permanent adjustment of the instrument may not be perfect. i.e. the line of collimation may not be parallel to the axis of the bubble tube. The internal arrangement of the focusing tube is not perfect. The graduation of the levelling staff may not be perfect. Personal errors a) The instrument may not be levelled perfectly. b) The focusing of the eye-piece & object glass may not be perfect & the parallax may not be eliminated. c)The position of the staff may be displaced at the change point at the time of taking FS & BS readings. d) The staff may appear inverted when viewed through the telescope. By mistake, the staff readings may be taken upwards instead of downwards. e) The reading of the stadia hair rather than the central collimation hair may be taken by mistake. f) A wrong entry may be made in the level book. Errors due to natural causes When the distance of sight is long, the curvature of the earth may affect the staff reading. The effect of refraction may cause a wrong staff reading to be taken. The effect of high winds & a shining sun may result in a wrong staff reading. Curvature Correction For long sights , the curvature of earth effects staff readings. The line of sight is horizontal , but level line is curved and parallel to mean spheroidal surface of earth, that’s why horizontal line do not coincides with level line. The vertical distance between line of sight and level line at particular place is called curvature correction. This correction is negative as object appears lower than they really are. CC= 0.0785 D2 ( where Distance is in km) Refraction correction Error due to refraction can be understood easily once you understand the phenomenon which takes place when light passes from one density system to another density system. Refraction is nothing but the phenomenon by which when light travels from a denser media to the lighter media, it deflects away from the normal to the plane of the media. Refraction correction value is always positive and is one- seventh part of Curvature Correction. Cr= 0.0785 D2/7 = 0.0112 D2 Combined curvature and refraction effect is = 0.0112 D2 +(- 0.0785 D2 )= - 0.0673 D2 ( always negative) Methods of Determining RLs 1. Collimation Method: It consist of finding the elevation of the plane of collimation ( H.I.) for every set up of the instrument, and then obtaining the reduced level of point with reference to the respec 1. Elevation of plane of collimation for the first set of the level determined by adding back side to R.L. of B.M. 2. The R.L. of intermediate point and first change point are then obtained by subtracting the staff reading taken on respective point (IS & FS) from the elevation of the plane collimation. [H.I.]. 3. When the instrument is shifted to the second position a new plane collimation is set up. The elevation of this plane is obtained by adding B.S. taken on the C.P. And adding RL of C.P. The R.L. of successive point and second C.P. are found by subtract these staff reading from the elevation of second plane of collimation Arithmetical check Sum of B.S – sum of F.S. = last R.L. – First R.L. This method is simple and easy. Reduction of levels is easy. There is no check for intermediate sight readings This method is generally used where more number of readings can be taken with less number of change points for constructional work and profile leveling. 2.Rise and Fall Method: It consists of determining the difference of elevation between consecutive points by comparing each point after the first that immediately preceding it. The difference between there staff reading indicates a riseor fall according to the staff reading at the point. The R.L is then found adding the rise to, or subtracting the fall from the reduced level of preceding point. Arithmetic check Sum of B.. – sum of F. S. = sum of rise – sum of fall = last R. L. – first R.L This method is complicated and is not easy to carry out. Reduction of levels takes more time. Complete check is there for all readings ( BS, IS and FS). This method is preferable for check levelling where number of change points are more. References Surveying and Levelling: N N Basak, Tata McGraw Hill, New Delhi. Surveying: R. Agor, Khanna Publishers. http://nptel.iitm.ac.in/courses-contents/IIT Kanpur and IIT Madras. http://www.slideshare.net www.scribd.com