R2W-PLUS Series Total Station Instruction Manual R2W-2 PLUS 500 R2W-5 PLUS 500 Version1.0e English STONEX Co., Ltd.
Dear Customer: Congratulations! We, STONEX are proud to present you with an R2W-PLUS instrument. Your total station is a rugged and reliable instrument whose performance and design are not surpassed. To fully appreciate and protect your investment, we suggest that you take the necessary time to read and fully understand this manual. We have a dedicated service organization. If the need arises, please don’t hesitate to call us. Thank you for your trust and confidence.
NOTE: Don’t collimate the sun directly Avoid insolating the instrument, and don’t collimate the sun directly for protecting eyes and instrument. Set up the instrument on the tripod When using it please insure the connection between tripod and instrument is firm. It is better to work with wooden tripod for the measurement accuracy. Assemble the tribrach on the instrument The setting of tribrach would influence the accuracy.
Definition of Indication For the safety of your product and prevention of injury to operators and other persons as well as prevention of property damage, items which should be observed are indicated by an exclamation point within a triangle used with WARNING and CAUTION statements in this manual. The definitions of the indication are listed below. Be sure you understand them before reading the manual’s main text.
ʽ CAUTION ƔIf touch the instrument with wet hand, there is danger of electric shock. ƔStand or seat on the carrying case, or turn over the carrying case arbitrarily, the instrument maybe damaged. ƔBe careful of the tripod tiptoe when setup or move it. ƔDrop the instrument or the carrying case, or use defective belt, agraffe or hinge, instrument damage could result. ƔDo not touch liquid leaking from the instrument or battery. Harmful chemicals could cause burn or blisters.
Safety Standards for Laser(R2W-PLUS series) R2W-PLUS series adopts the safe and visible laser on the basis of “Specification Standard of radiant products” (FDA CDRH.21CFR Part 1040.10 and 1040.11) and “Safety of laser products – parts 1: Equipment classification, requirements and user’s guide” (IEC 60825-1:2001). According to above standards, R2W-PLUS series is class ċa/3R laser products. When the prism or reflective sheet is selected in Config mode as target, the output is equivalent to the safer class 1.
CONTENT 1. Nomenclature and Functions .................................................................................1 1.1 Nomenclature................................................................................................................... 1 1.2 Keyboard.......................................................................................................................... 3 1.3 Comprehensive Understanding ........................................................................................
3.2 Illumination settings....................................................................................................... 20 4. Basic measurement program................................................................................21 4.1 Run the program “Basic Measurement”........................................................................ 21 4.2 Basic measurement screen introduction......................................................................... 21 4.3 Angle measurement mode ........
5.3 The Optical Sight ........................................................................................................... 70 5.4 Optical Plummet and Laser Plummet ............................................................................ 70 5.4.1 Optical Plummet(factory optional) ......................................................................... 70 5.4.2 Laser Plummet ........................................................................................................ 71 5.
1. Nomenclature and Functions 1.
Objective Horizontal motion clamp Horizontal tangent screw Keypad Touch screen 2
1.2 Keyboard R2W-PLUS series is equipped with two color touch screens and alphanumeric keypad, operation by both touching screen and pressing keyboard is possible. Do not touch the screen with ball-pen, pencil or other sharp thing to avoid damage on instrument. Keys Name Functions 0~9/ A~! Alphanumeric keypad Enter text and numerical values. Į Shift key for character entry The current entry method can shift among number, smaller letter and capital letter.
1.3 Comprehensive Understanding Function introduction Display After initiating the instrument the screen will go to present “Welcome Interface” which is shown right.STONEX AIOSurvey consists of several functions,that is, “BSC Measure ˄ Basic Measurement ˅ ”, “STD Measure ˄ Standard Measurement ˅ ”, “Engineering Surveying ˄ FieldGenius ˅ ”, “INST Setup ˄Instrument Setup˅” and “About˄Relevant Information˅”. 1.3.
Measurement, Plane Offset Measurement, and Column Offset Measurement. Besides, basic measurement is also appropriate for checking performance functionality and index of angle measurement and distance measurement for total station. 1.3.2 Standard Measurement Function introduction Display Standard measurement function is used to resolve and calculate applied measurements during conventional surveying.
1.3.4 About Function introduction Display The “About” function Offers information of manufacturer and software version. 1.3.5 Third-party software Function introduction Display Third-party software provides professional surveying and cartography function. It’s main interface of “FieldGenius” in the right figure.In fact,the application program interface of STONEX instrument system supports more third-party softwares. 1.3.
1.4 Shortcut key 1)Some shortcut keys are applied in R2W-PLUS series.
1.5 Touch screen calibration When you operate on the screen, if your device isn’t responding to you taps, you may need to recalibrate your screen. In any picture, press the combination key “CTRL+TAB” so as to enter into touch screen calibration. The calibration process is shown in the figure below. 1) Carefully press and briefly hold stylus on the center of the target. Repeat as the target moves around the screen.
1.6 Battery 1.6.1 Battery Power indicator At any screen, pressǏƾǐkey to open fast setting menu. Select Battery, battery level will be seen following Battery Level. NOTE: 1. The battery’s working time will be affected by many factors, such as ambient temperature, recharging time, recharging and discharging times. So we suggest the users recharge the battery full or prepare several full batteries before operation. 2. The battery symbol only indicates power capability for current measurement mode.
2.Mount battery 1. Insert the battery to the instrument. 2. Press the top of the battery until you hear a Click. 1.6.3 Recharge battery 1)Connect the charger connector to the battery. 2)Plug the charger on 100V/240V power supply.The red lamp becomes lighting,which indicates recharging.If interval-time is longer,the connector isn’t fixed well. 3) That the green lamp flashes means recharging is complete.
1.7 USB connection Ɣ The file in the instrument could be read through ActiveSync software by USB cable. Ɣ External memory stick could be used by USB Host connector. The file in the external memory stick could be read in the instrument interface. 1˅Open the cover of USB which behind the display panel˗ 2˅Input external memory stick into USB Host connector˗ 3˅The external memory stick could be recognized as hard disk automatically. It could be file copy etc.
1.8 Guide light(Optional) Guide light is optional in R2W-PLUS series total station. It is mainly used to stake out. The Surveyor could adjust the position of prism and station through the guide light color. It will be faster to set the prism. The guide light could be seen within 100M. The distance will be effective by atmospheric conditions and others.
2. Preparation before Measurement 2.1 Setting up the instrument (1) Set up the tripod first: extend the extension legs to suitable lengths and tighten the screws on the legs.Make sure the legs are spaced at equal intervals and the head is approximately level. Set the tripod so that the head is positioned over the surveying point. Make sure the tripod shoes are firmly fixed in the ground. (2)Attaching the instrument on the tripod head: mount the instrument carefully on the tripod head.
(2) Accurate Levelling-Up with plate level Screw B Screw A 1. Loosen the horizontal motion clamp, and turn the instrument till the plate level is parallel to a line shaped with screws A and B. Adjust the screws A and B to make the bubble in the center of the level. Plate level Screw C Screw B Screw A 2. Loosen the horizontal motion clamp, and turn the instrument approximately 90°.Adjust the screw C until the bubble in the center of the level. Screw C 3.
Note: As shown,you can realize transformation of compensation options by pressing the lower right button. ǏXYONǐcompensate horizontal angle and vertical angle at the same time ǏXONYOFFǐjust compensate X axis ǏXYOFFǐdon’t compensate X axis and Y axis ǏA.OFFǐdon’t compensate X axis and Y axis,and turn off the popup function of electronic bubble. In STONEX FieldGenius software, the Level display is always shown as left figure.
2.3 Centering 2.3.1 Centering with Optical Plummet (Optional) Crossmark Plummet Center Optical plummet Turn the focusing ring of the optical plummet to focus the ground mark point. Then adjust three foot-screws to center the bubble of the circular level. If the plate level is not leveling-up, you can loosen the center screw of the tripod, and move the instrument to center the bubble of the plate level. At last tighten the center screw.
3 Instrument settings Instrument settings software is applied for settings and calibration of instrument,generation and management of instrument constant.It is made up of a serie of functions such as “compensator linear correction”, “compensator zero correction”, “horizontal axis error correction”, “index correction”, “instrument settings”, “distance constant settings”, “communication port settings”, “configuration management”,etc. 3.
3.1.1 Setting the measure condition Opereation: 1. The distance measurement mode will be: Fine, Coarse, Repeat Fine, Average Fine, Tracking. 2. Tilt correction mode will be: HV, V, NO, Always off. 3. Collimator correction mode will be: Yes or No. 4. CR correction mode will be: K=0.142,K=0.2, No. 5. Sea Level correction mode will be: Yes or No. 6. Target Type mode will be: Prism, No Prism, Reflector.You could press “Enter” to keep the setting or press cancelled. 3.1.2 Setting the units Operation: 1.
3.1.3 Setting parameters of communication ports As left shows,click “Other Setup”,you can activate bluetooth(BT) and guidelight(GL),and set parameters of “Bluetooth Port” and “Phy Port”. 3.1.4 Instrument parameters review Click “Data Monitor” used for reviewing the setting parameters.
3.2 Illumination settings Press theǏƾǐ button and click “Target” and “Battery” keys in order to go on with illumination settings including “Cross Light”, “Guide Light”,and“Laser Point”. Cross Light: Click this item to turn on the reticle illumination, and move the slipping button to adjust reticle illumination. Guide Light:Click “Battery” key,resulting in display on which guide light could be adjusted. Laser Point: Tun on/off the laser flash before distance measurement.
4. Basic measurement program 4.1 Run the program “Basic Measurement” Current parameters Function keys Measurement mode 4.2 Basic measurement screen introduction The function keys display in the lower left corner of screen,and they vary from one measurement mode to another.There are some function keys under every measurement mode being listed in the following table. Measurement mode key function S.Zero Set current horizontal angle as zero S.Angle Set current horizontal angle L.
Line Start traverse surveying Offset Start offset measurement(ANG.Offset,DIST Offset,PLANE Offset,CYL.Offset) function Coor Order Set displayed coordinate order as NEZ or ENZ Save Coor Save coordinate of instrument station or not Ang.Unit Set Ang.Unit as DMS,GON,MIL Dist Unit Set Dist Unit as m,UsFeet,IntFeet Stop Stop distance measurement Exit Exit basic measurement program 4.3 Angle measurement mode 4.3.
ĹCollimate the second first target B,and the horizontal angle and vertical angle will display on the screen of instrument. Collimate B 4.3.2 Horizontal angle switch between right and left Make sure the operation is under angle measurement mode.
4.3.3 Setting horizontal angle with the “L.Angle” key Make sure the operation is under angle measurement mode. Operation steps Keys Display ķTurn horizontal circle unit in the needed direction with horizontal clamp and tangent part. ĸClick “L.Angle” key,and activate the function of locking horizontal angle. ǏL.Angleǐ ĹCollimate target point used for Orientation. Ć1 ĺClick “unclock” key to deactivate the function of locking horizontal angle.
4.3.4 Setting horizontal angle with the “S.Angle” key Make sure the operation is under angle measurement mode. Operation steps ķCollimate target used for Orientation. Keys Display point ĸClick “S.Angle” key, and a dialog box will be ejected, as is showed in the right figure. ĹInput horizontal angle you need. ǏS.Angleǐ input horizontal angle Ć 1 Such as˖232°26'26" ĺWith data entry completeˈ click “Enter” key,and angle ǏEnterǐ measurement after orientation will go on.
4.3.5 Setting “vertical angle and percent grade” mode with the “V/%” key Make sure the operation is under angle measurement mode. Operation steps Keys Display ķMake sure the operation is under angle measurement mode. ĸClick “V/%” key. Ć1 ǏV/%ǐ Ć1 Vertical angle and percent grade will be switched in turn every time you click “V/%” key.
4.3.6 Carrying out angle retesting with the “Repeat” key This program is applied for adding up angle retesting valuesˈdisplaying the sum and the average of all observed values,and meantime recording the number of observations. Operation steps Keys ķClick “Repeat” key,and activate angle retesting function.
ĸCollimate the first target A. Collimate A ĹClick “S.Zero” key,and set horizontal angle as zero. ǏS.Zeroǐ ĺCollimate the second target B using horizontal clamp and tangent part.
ĻClick “L.Angle” key. ǏL.Angleǐ ļCollimate the first target A again using horizontal clamp and tangent part. ĽClick “Unlock” key. Collimate A again ǏUnlockǐ ľCollimate the second target B again using horizontal clamp and tangent part. ĿClick “L.Angle” key.And then the screen displays the sum and the average of all angles. Ć1 Collimate again B ǏL.Angleǐ ŀRepeat steps ļ ̚ Ŀ according to the requirement,and carry out angle retesting.
4.4 Distance measurement mode 4.4.1 Distance measurement and measuring mode setting Operation steps Keys Display ķCollimate the centre of prism. Collimate ĸClick “M.Dist” key to enter distance measurement mode, and then the system will carry out measurement based on previous setting mode. ǏM.Distǐ ĹClick “Mode” key to activate setting function of distance measurement mode. Take “Loop Fine” as example here.
ĺDisplay the measurement. Ć1̚Ć2 result of Ć 1 Click “mode” key if you wanna change measurement mode,as step Ĺ shows. Ć 2 Click “M.Ang” key to return to angle measurement mode. 4.4.2 Fine/Tracking distance measurement When you preset the measuring times, the instrument will carry out distance measurement and display the average distance according to the setting times. If you preset single observation, the average distance won’t be displayed. In general, the factory default is set as single observation.
ĸClick “N Fine” key with stylus,and then input the number of needed observations in the upper right column of screen. ĹClick collimate prism,and will carry based on Ć1 ǏN Fineǐ input the number of observations “Enter” key, the centre of then the system out measurement previous setting. Ć1 Click “M.Ang” key to return to angle measurement mode.
4.4.3 Accurate Measurement and Track mode Accurate Measurement mode:it’s a normal measurement mode. Track mode:Track mode takes less time than accurate measurement.It is mainly applied for setting-out survey and useful for tracking moving target. Operation steps Keys ķCollimate the centre of prism. Collimate prism ĸClick “Mode” key to activate setting function of distance measurement mode.And this mode is set as “Track”.
4.4.4 Exchange of distance units Change distance unit on the screen of distance observation. Operation steps Keys ķClick “m/ft” key. Ǐm/ftǐ Display ĸChanged distance unit will display in the upper right corner. Ć1 Ć1 Distance unit will be exchanged among meter,american feet and international feet every time you click “m/ft” key. 4.4.5 Distance stake out measurement This function can display the difference between measured distance and preset distance.
Operation steps Keys ķClick “Setout” key under distance measurement mode. ǏSetoutǐ ĸSelect measurement (SD,HD,VD)to be input required data click “Enter” key. Display distance mode set out, and then Ć1 ĹStart setting out. Ć1 First of all,a prompt that reminds you to input SD to be set out is displayed in the popup dialog box.
4.4.6 Remote Elevation MeasurementďREMĐ The Remote Elevation program calculates the vertical distance (VD) of a remote object relative to ground. When using a prism height, the remote elevation measurement will start from the prism (reference point). If no prism height is used, the remote elevation will start from any reference point in which the vertical angle is established. In both modes, the reference point should be perpendicular to the remote object.
ĸSelect “with PH” button with stylus. Ǐwith PHǐ ĹInput the prism height following PH. Input prism height ĺCollimate the centre P of prism. ĻClick “M.Dist” key to start measuring. ļHorizontal distance between instrument and prism will be shown. Collimate prism ǏM.
ĽClick “Continue” key, and position of prism is locked, that means reference point is confirmed. ǏContinueǐ ľCollimate target K and click “Continue”, vertical distance (VD) will be shown. Ć1) Ǐ Collimate Kǐ Ć1)Click “Exit” key to finish REM.
Operation steps Keys Display ķSelect “None PH” button with stylus. ǏNone PHǐ ĸCollimate the ground point. ĹClick “M.Dist” key to start observing. ĺHorizontal distance between instrument and prism will be shown. Collimate prism ĻClick “Continue” key, and position of ground point G is locked that means reference point is confirmed. ǏContinueǐ ǏM.
ļClick “Continue” key. ǏContinueǐ ĽCollimate remote target K.Vertical distance(VD) will be shown. Ć1) Collimate target Ć1) Click “Exit” to finish REM.
4.4.7 Missing Line Measurement (MLM) The Missing Line Measurement program calculates the horizontal distance (dHD), slope distance (dSD) and elevation (dVD) between two target prisms. The instruemt can accomplish this in two ways: 1ˊMLM Method (A-B, A-C): Measurement is A-B, A-C, A-D, ......... 2ˊMLM Method (A-B, B-C): Measurement is A-B, B-C, C-D, .........
Operation steps ķUnder distance measurement, click “MLM” key to activate Missing Line Measurement. Keys Display ǏMLMǐ ĸSelect method (A-B, A-C) with stylus. ĹCollimate prism A,click “M.Dist” key. Horizontal distance between instrument and prism A will be shown. ǏM.
ĺCollimate prism B,click “M.Dist” key. ǏM.Distǐ ĻClick “Continue” key,then horizontal distance(dHD), elevation difference(dVD) and slope distance (dSD) between prism A and prism B will display. Ć1˅ ǏContinueǐ ļIn order to calculate the horizontal distance between points A and C,collimate prism C,and click “M.Dist” key again.Thus horizontal distance between instrument and prism C will be shown.. ǏM.
ĽClick “Continue” key,then dHD, dVD and dSD between prism A and prism C will be shown. ǏContinueǐ Ć1˅Click “Exit” key to return to main menu. ƔProcedure of MLM Method (A-B, B-C) is completely same as Method. Method (A-B, A-C) 4.4.8 Line-height Measurement This function is applied for measuring and determining a height of line(like electric wire)above ground which is hard to reach.
Operation steps Keys Display ķUnder distance measurement mode, click “LHM” key to activate line-height measurement program. ǏLHMǐ ĸSelect “With PH” button with stylus.
ĹClick “Setup” key to input instrument height(IH) and prism height(PH).After that click “Enter” key. ǏSetupǐ ĺCollimate prism A, click “Measure” key, and distance measurement begins. After that click “Continue” key. ǏMeasureǐ ĻCollimate prism B, click “Measure” key, and distance measurement begins.
ļAfter measurement click “Continue” key. ǏContinueǐ ĽCollimate point L on overhead line. The screen displays measuring data of collimating L. VD ˖ Vertical distance between A and L. HD ˖ Horizontal distance between instrument and L. Off ˖ Horizontal distance between A and L. ľClick “Continue” key which is used for measuring height between overhead line and ground. Operation steps: ƔCollimate point on overhead line before clicking “Continue” key.
ĿCollimate ground point G by screwing vertical tangent part. Collimate ŀClick “Continue” key again, and then height of overhead line(LH) and horizontal distance(Off) will display. Ć1)̚Ć3) ǏContinueǐ G Ć1) Click “X” key to end measurement. Ć2) Click “VH” key to return to operation stepĽ.
4.5 Coordinate Measurement Mode 4.5.1 Setting coordinate of occupied point After input coordinate of occupied point(instrument location), unknown point coordinate will be measured and displayed with this program. Operation steps Keys Display ķClick “M.Coor” key to enter coordinate measurement mode. ǏM.Coorǐ ĸClick “OCC PT” key.
ĹInput coordinate of occupied point from N to Z. ĺFinishing data entry,click “Enter” key and return to coordinate measurement interface. ǏEnterǐ 4.5.2 Setting backsight point Operation steps Keys ķClick “S.BS” key to set backsight point. ǏS.
ĸInput coordinate of backsight point and click “Enter” key. ǏEnterǐ ĹA dialog box is ejected as figure shows. ĺCollimate backsight point, click “Yes” key. And then the system will define backsight azimuth angle which displays in the upper left corner of coordinate measurement screen.
4.5.3 Setting instrument height and prism height Coordinate measurement must be based on instrument height and prism height, thus coordinate of unknown point can be calculated easily and directly. Operation steps Keys ķClick “Setup” key. ǏSetupǐ ĸInput instrument height (IH)and prism height(PH). ĹFinishing data entry, click “Enter” key to return to coordinate measurement screen.
4.5.4 Operation of coordinate measurement With coordinate of occupied point, backsight azimuth angle, Instrument height and prism height set up,you can directly calculate coordinate of unknown point. Operation steps Keys Display ķSet coordinate of occupied point and instrument height/prism height. Ć1) ĸSet backsight azimuth angle. Ć2) ĹCollimate target.
ĺClick “M.Coor” key to finish operation. Ć4) ǏM.Coorǐ Ć1)If don’t input coordinate of occupied point, previous coordinate of occupied point is set as default. If don’t input instrument height and prism height, the previous is set as default too. Ć2)refer to “4.3.4 Setting horizontal angle with the S.Angle key” or “4.5.2 Setting backsight point”DŽ Ć3)Click “Mode” key to change distance measurement method(Fine/N Fine/Loop Fine/Track) Ć4) Click “M.Angle” or “M.
z Set coordinate of occupied point p0 and azimuth angle from point P0 to known point A. Operation steps Keys ķClick “Line” key. ǏLineǐ ĸClick “Save” key with stylus. ǏSaveǐ ĹClick “Setup” key to reset instrument height and prism height. And then click “Enter” key.
ĺCollimate prism in target point P1 where instrument will be transferred. Meantime click “Measure” key. ǏMeasureǐ ĻClick “Continue” key and coordinate of Point P1 displays in the lower left corner of screen. ǏContinueǐ ļClick “Save” key. Coordinate of P1 can be ascertained and it will return to main menu.At last power off and transfer instrument to P1(transfer prism from P1 to P0 meantime).
ĽAfter instrument is established in P1,enter into traverse surveying of coordinate measurement and select “Call” button with stylus. Ć1) ľCollimate last occupied point P0. Click “Setup” key, then coordinate of P1 and azimuth angle from P1 to P0 will be ascertained. And it returns to main menu at the same time. ĿRepeat stepsķ̚ľˈand carry on according to the sequence of guidelines till the end. Ć1) Click “Exit” key to finish Traverse Surveying.
4.5.6 Offset Measurement Mode There are four kinds of Offset Measurement Modes: z Angle Offset Measurement z Distance Offset Measurement z Plane Offset Measurement z Column Offset Measurement 1) Angle Offset Measurement This program is used to measure the point where it’s difficult to set prism. Place the prism at the same horizontal distance from the instrument as that of point A0 to measure. ƔWhen measuring coordinate of ground point A1(projection of point A0),set instrument height and prism height.
Operation steps Keys ķ Click “Offset” key. ǏOffsetǐ Display ĸ Click “ANG.Offset” key in ejecting dialog box. Ĺ Select “Free VA”(or “Lock VA”) with stylus to to start angle offset measurement.(User makes a choice on the basis of own demand) ĺ Collimate prism P,and click “Measure” key.
ĻCollimate target A0 with horizontal clamp and tangent part. Collimate A0 Ļ Click “Continue” key.Then slope distance,horizontal distance and elevation difference from instrument to A0 and coordinate of A0 will be shown. Ć1)ˈĆ2) ǏContinueǐ Ć1) Click “Setup” key to set instrument height and prism height. Ć2)Click “Exit” to finish Angle Offset Measurement ƔSet instrument height/prism height before Offset Measurement. ƔRefer to “4.5.1” to set coordinate of occupied point.
ƔWhen measuring coordinate of ground point A1,set instrument height and prism height. ƔWhen measuring coordinate of point A0,set instrument height only(Prism height is set as 0). ƔRefer to “4.5.1” to set coordinate of occupied point. Operation steps Keys ķ Click “DIST Offset” key in ejecting dialog box. ǏDIST Offsetǐ Display ĸFinish data entry with stylus. ĹCollimate prism and click “Measure” key.
ĺClick “Continue” key,and result displays with the correction of offset distance. Ć1)ˈĆ2) ǏContinueǐ Ć1) Click “Setup” key to set instrument height and prism height. Ć2) Click “Exit” key to finish Distance offset measurement. 3) Column Offset Measurement It is possible to measure circumscription point(P1) of column directly,the distance to the center of column(P0),coordinate and direction angle can be calculated by measured circumscription points P2 and p3.
Operation steps Keys Display ķ Click “CYL.Offset” key. Ǐ CYL.Offse tǐ ĸCollimate the center(P1) of column surface,and then click “Measure” key. ǏMeasureǐ ĹCollimate left point(P2) of column surface,and then click “Continue” key.
ĺCollimate right point(P3) of column surface. ĸ Click “Continue ” key,and relational values between instrument and the center of column(P0) can be calculated and shown. Ć1)ˈĆ2) ǏContinueǐ Ć1) Click “Setup” key to set instrument height and prism height. Ć2) Click “Exit” key to finish column offset measurement. 4) Plane Offset Measurement Measuring will be taken for the place where direct measuring can not be done,for example distance or coordinate measuring for an edge of a plane.
Ɣ Refer to “4.5.1” to set coordinate of occupied point. Operation steps Keys Display ķ Click “PLANE Offset” key. ǏPLANE Offsetǐ ĸCollimate prism P1,and click “Measure” key.
ĹCollimate prism P2,and click “Measure” key. ǏMeasureǐ ĺCollimate prism P3,and click “Measure” key. ǏMeasureǐ ĻClick “Continue” key to calculate relational values between collimation axis and plane. Ć1) ǏContinueǐ Ć1)Click “Setup” key to set instrument height and prism height. ƔIf the three observing points can’t determine a plane,the system will display error message.Thus observe the first point once again.
4.6 About Operation˖ 1. Click “about” icon on desktop. 2. Press “Exit” to return to the basic measurement.
5. Check and Adjustment 5.1 The Instrument Constant 1) Check It is suggested to observe and compare the instrument with a testing line which is set on stable ground with a particular accuracy, though error is not generally included in the instrument constant. If the testing line is unavailable, you can set it for 20 meters or so by yourselves, then check and compare it with your new instrument. AB A BC B C AC 1. Select a point B on the approximately horizontal line AC with about 100 meters long.
5.2 Plate Level and Circular Level 5.2.1 Plate Level 1) Check 1. Mount the instrument on a stable device (as tripod , adjusting device ),and fix it. 2. Level the instrument until the plate level is parallel to a line linking leveling foot screws A and B, then adjust the two screws to center the air bubble. 3. Turn the instrument 180°, observe the moving direction of the bubble, if it is still centered, no adjustment is necessary, if not, you have to adjust it. 2) Adjustment 1.
5.3 The Optical Sight 1) Check 1. Mount the instrument on a tripod and fix it. 2. Set a cross mark target which apart from the instrument about 50m. 3. Take the telescope sight the cross mark. 4. Observe the optical sight collimator whether collimating the cross mark, if collimate the mark, adjustment is not necessary; if not, adjust it. 2) Adjustment 1. Mount the instrument at the tripod and fix it. 2. Set a cross mark target which apart from the instrument about 50m. 3.
NOTE: 1. When adjust the screws of plummet reticle, firstly loosen the screw on the moving direction of reticle, secondly tighten another screw by the same mount, clockwise turning is for tightening, and anticlockwise turning is for loosening, the turning mount for tightening or loosening should be same. 5.4.2 Laser Plummet Check (1)Set the instrument on stable device and fix it. (2)Set a cross mark on the ground under the instrument. (3)Turn the laser switch on and focus it accurately.
5.5 Vertical Cross-hair on Telescope 1) Check (1) Set the instrument up the tripod and carefully level it. (2) Set a point A front the instrument 50m apart; (3) Collimate the point A and adjust the vertical tangent screw; If the point appears to move continuously on the hair, adjustment is not required. Otherwise, adjust it. 2) Adjustment (1) Set the instrument, and set the point A front the instrument 50m apart. (2) Take off cover of telescope eyepiece, there are 4 screws for the reticle part.
5.6 Horizontal Collimation Error C If the telescope’s sight line isn’t perpendicular to the horizontal axis, the collimation error will appear. The assembling, transportation and operation will cause this error. If the collimation error isn’t over the permitted range, with the program the instrument can correct this collimation error. NOTE: After the program correction this deviation error is also on the instrument. 1) Check (1) Set-up the instrument on tripod or adjustment platform and leveling accurately.
reticle. Reticle Adjusting: 1. Rotate the instrument in face right position, turning horizontal tangent screw until Hrƍ=Hr+C. 2.Loosen the shield of telescope’s reticle. 3. Adjusting two screws at left and at right until the vertical hairs of telescope’s reticle coincides with the cross-hairs of collimator or target. 4. Repeat the check and adjustment procedure until the error is accepted. NOTE: 1.
about ±10°. Read the face left angle Vl and face right angle Vr. (3) Calculate the index error according to the formula below: i = ( Vl+Vr-360°)/2 (4)If I<10ͳ, no adjustment is necessary , or you have to adjust it . 2) Adjustment by program: Set-up the instrument on tripod or adjustment platform, and leveling accurately. Procedures 1. Power on, run the software “INST Setup”, on the screen tap Ż or Ź keys until Collimation display, tap it to display collimation error and vertical index error setting menu.
5.8 EDM Optical Axis and the Telescope Sighting Axis Error It is necessary to check this error after the adjustment of telescope reticle error. 1˅Checking (1) Install the instrument at the tripod or a stable device and level it accurately, then power on the instrument. (2) Set a prism about 2m far away from the instrument. (3) Aim at the prism center with telescope reticle. (4) Enter EDM signal testing screen.
6. Specifications R2W-PLUS series Telescope Length 156mm Image Erect Magnification 30× Aperture 45̉̉ Field of view ˍ°3ˌƍ Minimum focus 1.0̉ Angle measurement Reading system Absolute encoder Circle diameter 79̉̉ Angle unit 360degree/400gon/6400mil, selectable Minimum display 0.5Ǝ/ˍƎ/5Ǝ,selectable 0.1mgon/0.2mgon/1mgon, selectable Detecting mode Double Accuracy 2Ǝ/5Ǝ Distance measurement Display resolution(m/inch selectable) Laser class 0.
Reflectorless Temperature unit Pressure unit Temperature input range Pressure input range Prism constant condition Refraction and earth curvature correction Reflecting prism constant correction typ.1.5-5s,max.20s ć/̧, selectable hPa/mmHg/inchHg, selectable -30ć to +60ć (1ć steps) 510hPa to 1066hPa(1hPa setps) -99.9mm to +99.9mm OFF/0.14/0.2, selectable -99.9mm to +99.
Continuous operation time About 10 hours(single distance measurement every 30 seconds) Chargers FDJ6-Li(100V to 240V ) Charging time (at +20ć) Approx.
8.
Appendix I: Atmospheric correction formula and chart(Just for reference) Factory setting: temperature: 20ć, pressure:1013hpa, 0ppm temperature: 20ć, pressure:1013hpa, 0ppm The correction: Kpt˙274.417-0.2905*p/(1ˇ0.0036*t) Kpt˙278.960-0.2902*p/(1ˇ0.0036*t) Where: p--Pressure value (hPa) t--Temperature value (ć) Kpt--Atmospheric correction (ppm) Example: t=20ć, p=1013hpa, L0=1000m. Then: Kpt=0ppm Kpt=4ppm L=L0(1+Kpt)=1000×(1+0×10-6)=1000.000m L=L0(1+Kpt)=1000×(1+4×10-6)=1000.
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Appendix II: Correction for refraction and earth curvature Considering the correction of refraction and earth curvature for distance measurement, the formula for slope distance, horizontal distance and vertical distance applied in the instrument are as followings: The conversion formula for horizontal and vertical distance is as follows when correction for refraction and earth curvature is not applied: HD=SD COS§ VD=SD ̮SIN§̮ NOTE: The factory setting for the refraction coefficient K is 0.142.
Appendix III: Assembling and disassembling for three-jaw tribrach It is convenient to assemble or disassemble the instrument from tribrach by loosen or tighten the tribrach clamp. Disassemble (1) Rotate the tribrach clamp anticlockwise until the lever is loosen. (2) One hand hold up the tribrach, another hand hold the carry handle of the instrument and lift out the instrument from the tribrach.
FCC ID: Y44-R2W Stonex Europe Srl Model name: Total Station Model No.: R2W-2 Plus 500 This device complies with Part 15 of the FCC Rules. Operation is subject to the following two conditions: (1) this device may not cause harmful interference, and (2) this device must accept any interference received, including interference that may cause undesired operation. Changes or modifications not expressly approved by the party responsible for compliance could void the user's authority to operate the equipment.
NOTE: These designs, figures and specifications are subject to change without notice. We shall not be held liable for damages resulting from errors in this instruction manual. STONEX Co.ˈLtd. Tel˖ Fax˖ E-mail˖ Add˖ Web˖ http://www.STONEX .