STONEX R2 PLUS Dear Customer: Congratulations! We, STONEX are proud to present you with these series 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 contact us.
STONEX R2 PLUS Contents 1. Precautions for Safety .................................................................................1 1.1 Note ..............................................................................................................1 1.2 Definition of Indication................................................................................2 1.3 Safety Standards for Laser ...........................................................................3 2. Preparation before Measurement ......
STONEX R2 PLUS 7. 1 Distance Stake out .....................................................................................34 7.2 Coordinates Stake out Measurement..........................................................36 7.3 REM Stake out Measurement.....................................................................37 8. Area ...........................................................................................................39 8.1 Area Calculation by Measured Data...............................
STONEX R2 PLUS 20.2 Input Road Horizontal Elements ..............................................................74 20.2.1 Input Line Element................................................................................74 20.2.2 Input Circle Element .............................................................................75 20.2.3 Input Spiral Element..............................................................................76 20.2.4 Road Horizontal Element Editing .................................
STONEX R2 PLUS 23.4 View known points data .........................................................................106 23.5 Clear all known points’ data...................................................................107 24. Code Management.................................................................................108 24.1 Edit Code list..........................................................................................108 24.2 Clear all Codes ..................................................
STONEX R2 PLUS 1. Precautions for Safety 1.1 Note ◆ Don’t collimate the sun directly Avoid to insolate the instrument, and don’t collimate the sun directly for protecting eyes and instrument. ◆ Avoiding the librations on the instrument When transporting, keep the instrument in the case and try your best to lighten librations. ◆ Carry the instrument When carrying,the instrument handle must be hold tight. ◆ Check the battery power Before using it, you should check the power whether it is enough.
STONEX R2 PLUS ◆ Stored data responsibility STONEX should not be held liable for the lost data because of wrong operation. 1.2 Definition of Indication For the safe 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.
STONEX R2 PLUS ! CAUTION ● Do not touch the instrument with wet hand. Electric shock could result. ● Do not stand or seat on the carrying case, and do not turn over the carrying case arbitrarily, the instrument could be damaged. ● Be careful of the tripod tiptoe when setup or move it. ● Do not drop the instrument or the carrying case, and do not use defective belt, agraffe or hinge. Instrument damage could result. ● Do not touch liquid leaking from the instrument or battery.
STONEX R2 PLUS ! WARNING ● Never point the laser beam at other’s eyes, it could cause serious injury. ● Never look directly into the laser beam source, it could cause permanent eye damage. ● Never stare at the laser beam, it could cause permanent eye damage. ● Never look at the laser beam through a telescope or other optical devices, it could cause permanent eye damage. 1.
STONEX R2 PLUS 2. Preparation before Measurement 2.1 About Battery 2.1.1 Battery Power Symbol Meas PC 0.0 ppm 0 SD VA II HA P1 DIST SHV1 SHV2 0 S E T Measurement is possible The battery is lower, it is better to replace or recharge it Measurement is impossible, it is necessary to replace or recharge battery NOTE: ◆ The working time of battery will be effected by many factors, such as ambient temperature, recharging time, recharging and discharging times.
STONEX R2 PLUS 2.1.2 Replace the Battery 1) Remove the battery ① Press the button downward as shown left ② Remove the battery by pulling it toward you 2) Mount the battery ① Insert the battery to the instrument ② Press the top of the battery until you hear a Click. 2.1.3 Recharge the Battery As above figures show, connect the charger and the battery, then plug the charger into the outlet of 110V-220V AC power supply, recharging will begin.
STONEX R2 PLUS 2.2 Setting Up the Instrument Mount the battery in the instrument before performing this operation because the instrument will tilt slightly if the battery is mounted after leveling. I. Set up the tripod first: extend the extension legs to suitable lengths and tighten the screws on the midsections. 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.
STONEX R2 PLUS Screw B Screw A Turn the instrument approximately 90°. Adjust screw C, till the bubble in the center of the level. Screw C Repeat above steps until the bubble remains in the center of the plate level while the instrument is rotated to any position. 5. Center the surveying point again Loosen the centering screw slightly. Looking through the optical plummet eyepiece, slide the instrument over the tripod head until the surveying point is exactly centered in the reticle.
STONEX R2 PLUS 3. Basic Functions 3.
STONEX R2 PLUS Focusing knob Instrument height mark Eyepiece Serial number Plummet Leveling screw 10
STONEX R2 PLUS 3.2 Basic Key Operation Keys F1~F4 0~9 Description Select the functions matching the softkeys 1.Input number when numeric input 2.Input characters when alphabetic input ● Input a decimal point ± Input plus/minus sign Power Power on/off ★ Enter into setting mode directly Cnfg Enter into config mode directly ESC Escape to the previous menu or mode Shift 1. Shift between number and alphabetic when inputting 2.Shift targets model when measuring BS 1.
STONEX R2 PLUS 3.3 Display The LCD could display 8 lines with 24 characters per line. In measurement mode, it displays some common information in above 7 lines and displays soft functions in the last line. Status screen Instrument model STONEX R2 PLUS S/N STN3050 Ver 12-04-26 Date 08/15/2006 Time 10:01:59 JOB JOB1 MEAS Application software version Current power The active JOB MEM Target type Basic measure mode Meas PC 0.
STONEX R2 PLUS 3.4 Mode Diagram Meas mode STONEX R2 PLUS S/N STN3050 Ver 12-04-26 Date 08/15/2006 Time 10:01:59 JOB JOB1 MEAS [MEAS] PC ppm SD VA HA {ESC} MEM Meas 0 0 II P1 DIST S H V 1 SHV2 0SET CORD MENU HOLD H S E T [MEM] {ESC} EDM O C C OFST R E C Memory 1.JOB 2.Known data 3.Code 4.Storage Media Select 5.USB {1} {2} {3} [REC] JOB 1.JOB select 2.JOB rename 3.JOB delete 4.Download 5.Com setting 6.File copy Known data 1.Key input 2.Com input 3.Delete 4.View 5.Clear 6.
STONEX R2 PLUS Setting mode (Press {★} directly) Inst Config 1.Backlight 2.LCD contrast 3.Reticle lev 4.Key Beep 5.EDM signal Config mode (Press {Cnfg} directly) Config 1.Meas condition 2.Inst config 3.Inst adjust 4.Com setting 5.Unit 6.Date & Time 7.Key Function : YES :5 :7 :YES : EDM 3.5 Power On/Off I. Power on 1. Confirm the instrument is leveling, press the red key {POWER}. Initing…… STONEX R2 PLUS S/N STN3050 Ver 10-06-21 Date 07/12/2010 Time 10:01:59 JOB JOB1 MEAS 2.
STONEX R2 PLUS 3.5 How to Input Number and Alphabet 001:CODEAB 002: 003: 004: 005: 006: 007: ↑↓.P T O P LAST DEL 001:CODEAB 002:MY01 003: 004: 005: 006: 007: ↑↓.P T O P LAST DEL 1. Enter into input code status (See§21.1 Input a code), the cursor is blinking and ready to input. The note “A” at the top right corner shows the active input mode, you can press the key {shift} to switch between alphabet and number. 2. Input the code in turn and press the blue key {ENT} to save it.
STONEX R2 PLUS Inst Config 1.Backlight 2.Laser 3.LCD contrast 4.Reticle lev 5.Key Beep 6.EDM signal EDM : YES :NO :5 :7 :YES : Inst Config 1.Backlight 2.Laser 3.LCD contrast 4.Reticle lev 5.Key Beep 6.EDM signal EDM : YES :NO :5 :7 :YES : Inst Config 1.Backlight 2.Laser 3.LCD contrast 4.Reticle lev 5.Key Beep 6.EDM signal EDM Inst Config 1.Backlight 2.Laser 3.LCD contrast 4.Reticle lev 5.Key Beep 6.EDM signal : YES :NO :5 :7 :YES : : YES :NO :5 :7 :YES : Inst Config 1.Backlight 2.Laser 3.
STONEX R2 PLUS 3.7 How to Set Parameters Press key {Cnfg} on the keyboard to enter into config mode in any status, all the following items can be set. 3.7.1 Measure Condition Setting 1. Press key {Cnfg} to enter into config mode. Config 1.Meas condition 2.Inst config 3.Inst adjust 4.Com setting 5.Unit 6.Date & Time 7.Key Function 2. Select “1.Meas condition” to set measurement parameters. All items display on two pages. Meas condition P1 1.Dist mode :HD 2.Tilt adjust :XONYON 3.Refr.coeff :.20 4.
STONEX R2 PLUS 3.7.2 Instrument Basic Setting 1. Press key {Cnfg} to enter into config mode. Config 1.Meas condition 2.Inst config 3.Inst adjust 4.Com setting 5.Unit 6.Date & Time 7.Key Function Inst config 1.Auto off 2.LCD contrast 3.Reticle adjust 2. Select “2.Inst config” to set instrument basic parameters. Three items display. :15min :9 :7 3. Change the settings if necessary. Press keys { }/ { } to select items and press keys { }/ { } to set the options. 4. Press key {ESC} back to the previous mode.
STONEX R2 PLUS 3.7.3 Communication Port Setting Please set communication parameters before connecting your computer. Config 1.Meas condition 2.Inst config 3.Inst adjust 4.Com setting 5.Unit 6.Date & Time 7.Key Function 1. Press key {Cnfg} to enter into config mode. 2. Select “4.Com setting” to set the parameters of communication port. Com setting :1200 1.Baud rate :8bit 2.Data bits :No 3.Parity :1bit 4.Stop bit 5.Check sum :No :No 6.Xon/Xoff 7.Comode :B-TOOTH 3. Change the settings if necessary.
STONEX R2 PLUS 3.7.4 Unit Setting 1. Press key {Cnfg} to enter into config mode. Config 1.Meas condition 2.Inst config 3.Inst adjust 4.Com setting 5.Unit 6.Date & Time 7.Key Function Unit 1.Temp. 2.Pressure 3.Angle 4.Dist 2. Select “5.Unit” to set unit. :℃ :hPa :degree :meter 3. Change the settings if necessary. Press keys { }/ { } to select items and press keys { } / { } to set the options. 4. Press key {ESC} back to the previous mode. Table 3-4 Option list of unit setting Options Item 1.Temp.
STONEX R2 PLUS 3.7.5 Date & Time Setting The date and time displays at the status mode. 1. Press key {Cnfg} to enter into config mode. Config 1.Meas condition 2.Inst config 3.Inst adjust 4.Com setting 5.Unit 6.Date & Time 7.Key Function 2. Select “6.Date & Time”. 3. Input date month/date/year. Date and Time Date Time :08/08/2006 :10:00:00 and time. The date format: 4. Press key {ENT} to save settings and back to the previous mode. 3.7.7 Key Function Setting 1.
STONEX R2 PLUS Following items can be defined: Items Descriptions DIST Start distance measure SHV1 Display switching between SD/HAVA, HD/HA/VA and VD/HA/VA SHV2 Display switching between SD/HD/VD and SD/HA/VA 0SET Set horizontal angle to 0 CORD Enter coordinate measurement menu MENU Enter program menu HOLD Hold the horizontal angle HSET Set horizontal angle EDM Enter distance setting menu OCC Setting the station point OFST Enter offset measurement menu REC Enter points collection me
STONEX R2 PLUS KEY FUNCTION RESUME 1.User Define 1 2.User Define 2 3.Default Define Key Resume 1. Press key {1} to resume the User Define 1 as the current Key setting 2. Press key {2} to resume the User Define 2 as the current Key setting 3. Press key {3} to resume the Default Define as the current Key setting 3.7.6 EDM Setting Meas 1. Press F1: [MEAS] in the status mode or select to enter into measure mode. Press key {Func} to turn to page P3. PC 0.
STONEX R2 PLUS Note: ◆ Options with the symbol “﹡” are the factory setting. ◆ ppm value could be calculated by inputted temperature and pressure, or input directly. If the option of “ppm correct” is set as “Yes”, the temperature, pressure and ppm can not be inputted by hand. ◆ This operation is also available in stake out mode. ◆ You can press star{★}/F1[EDM] key to enter EDM setting menu directly.
STONEX R2 PLUS 4. Angle Measurement 4.1 Measure a Horizontal Angle of Two Points Meas PC 0.0 ppm 0 SD VA 85°55′50″ II HA 0°00′00″ P1 DIST SHV1 SHV2 0 S E T Meas PC 0.0 ppm 0 1. Sight the 1st target. Press F4: [0SET] twice to set the 1st target as 0°at P1 in the measure mode. Press [SHV1] or [SHV2] to change display status firstly if in distance mode. 2. Sight the 2nd target. The displayed value is the included angle between two points.
STONEX R2 PLUS 4.2 Set the Horizontal Angle to a Required Value Meas 1. Take your instrument sight the 1st target. Press F4: [HSET] at P2 in the measure mode. PC 0.0 ppm 0 SD VA 302.5432gon II HA 0.0000gon P2 CORD MENU HOLD H S E T Set H Angle 1. Azimuth 2. Back sight Set H Angle Azimuth -399.9998 Tgt.H 0.000m PT# Observe point! OK Meas PC ppm 0 0 2. Select the first item 1.Azimuth, and input the required value in Azimuth filed, then press {ENT} to save the value.
STONEX R2 PLUS 5. Distance Measurement Please set the following items before distance measurement: ● Measurement condition ( See §3.8.1 Measure Condition Setting) ● EDM (See §3.8.6 EDM setting ) 【Procedure of distance measurement】 Meas PC ppm 0 0 SD HD VD II P1 1. Aim at the target, press F3:[SHV2], the display mode of basic measurement will change to SD/HD/VD mode, and then press F1: [DIST] to start measure distance. DIST S H V 1 SHV2 0SET Dist Fine -----※ Meas SD HD VD 2.
STONEX R2 PLUS NOTE: ◆ Make sure that the target setting in the instrument matches the type of target used. ◆ If the objective lens is dirty, it will affect the accurate of measured results. Dust it off with your special brush and wipe it with your special cloth (in your carrying case) before putting away. ◆ If an object with a high reflective factor (metal, white surface) exists between the instrument and the target when measuring, the accuracy of the measured results will be affected.
STONEX R2 PLUS 6. Coordinate Measurement It is possible to find the 3D coordinates of a target by coordinate measurement. Please input the occupied coordinate, instrument height, target height, backsight coordinate (or azimuth angle) and azimuth before coordinate measurement. ○ N Target Ht Z Inst. Ht Target point Occiped point E 6.1 Input the Occupied Point Data 【Procedure of inputting occupied point data】 Meas PC 0.0 ppm 0 SD VA II HA P1 CORD MENU HOLD H S E T Coordinate 1. JOB select 2. Occ.
STONEX R2 PLUS PT# Inst.H: 1.500m Code: sdds N0: 0.000 E0: 0.000 Z0: 0.000 User READ R E S R E C 0O K0 5. Press F3: [REC] to record the data in active occupied data list, see “ § 21.1 Record Occupied Data”. You could press F1: [READ] to read the existed data for occupied point from memory. You could also press F2: [RES] to enter Resection program to get the station point coordinate, see “§12. Resection”. Press F4: [OK] to confirm your setting.
STONEX R2 PLUS 4. Press F4: [OK] to save the setting. NOTE: ◆ The point number that was read is displayed until the current JOB is changed or a new point number is selected. ◆ If more than two points with the same point name exist in the current JOB, the instrument finds the first recorded data only. 6.2 Azimuth Setting The azimuth of backsight could be inverse calculated by the coordinates of occupied and backsight. N 0 Azimuth Instrument Station Angle Set H angle 1.Azimuth 2.Backsight 1. Select “2.
STONEX R2 PLUS Note: ◆ You can select “1. Azimuth” to input the azimuth angle directly. ◆ After input the coordinate of backsight, you can press F1:[MEAS] to check for backsight checking, HD between station and backsight, dHD and dVD between calculated backsight and measured backsight will be display. Set H angle/BS Azimuth 45°00′00″ Tgt.H 1.000m Pt# HD 0.163m dHD -0.163m dVD 11.655 REC OK press F3: [REC] to record and set the station, then back to the previous mode.
STONEX R2 PLUS 【Procedure of 3D coordinates measurement】 Coordinate 1. JOB select 2. Occ. Orientation 3. EDM 4. Measure Coord Measure N E Z VA HA MEAS 1000.000 1000.000 10.466 132.3648gon II 150.3536gon TAGT REC 1. Aim at the target point. 2. Select “4. Measure” to start. The coordinate value of the target is displayed. 3. Press F2: [TAGT] to re-input the occupied data if necessary, see “§6.1 Input the occupied point data”. You can press F4: [REC] to record the data. 4.
STONEX R2 PLUS 7. Stake out Measurement Stake out measurement is used to stake out the required point. The difference between the previously inputted data to the instrument (the stake out data) and the measured value can be displayed by measuring the horizontal angle, distance or coordinates of the sighted point.
STONEX R2 PLUS 【Procedure of distance stake out measurement】 Menu 1.Coordinate 2.Stake out 3.Area 4.Offset 5.MLM 6.REM 7.Resection P1 1. Press F2: [MENU] at P2 in the measure mode. Select “2. Stake out”. S-O 1. JOB select 2. Occ. Orientation 3. EDM 4. S-O data 2. Select “2. Occ. Orientation”. Input the occupied orientation data, see “§6.1 Input the occupied point data ”. Then set the azimuth angle of the backsight point, see “§6.2 Azimuth setting”. S-O 1. Occ. Orientation 2. S-O data 3. EDM 3.
STONEX R2 PLUS S-O dSD↓ S-O dHA← SD VD HA 5.251m 82.5440gon 149.3610gon 334.9916gon I MEAS MOKS 6. Horizontally rotate the instrument until “dHA” is near 0 and set the target on the sight line. Press F1: [MEAS] to start distance measurement. 7. The difference of measured and stake out value ”S-O dSD” is displayed. Move the prism forward and backward until “S-O dSD” is 0m.
STONEX R2 PLUS Stake out 1.Height 2.Angle & Dist 3.Coord S-O 3. Select “2. S-O data”, then select “3.Coord”. 4. Input the coordinates of the stake out point. Press F1: [READ] to read the existed coordinates as stake out coordinate. Press F4: [OK] to set the data. Coord Np: Ep: Zp: Pt# Tgt.H READ 157.000 0.178 0.000 1.500m R E C MOKS -147.328m 0.000m 19.310m S-O dHD ↑ -147.328 S-O dHA→ 146.7194go VA 296.1184gon I HA 249.0324gon MEAS NEXT MOKS ↓ 5.
STONEX R2 PLUS S-O Ht Ht. Tgt.H 2.000m 0.000m 4. Input height from the surveying point to the position to be stake out. Then press F4: [OK] to set the data. MOKS S-O Ht SD VA HA 9.562 10.251m 79.6986gon 249.0404gon I MEAS R E M 5. Press F1: [REM] to begin REM stake out measurement. Move telescope to find the point to be stake out. : Move the telescope near the zenith : Move the telescope near the nadir Press key {ESC} back to stake out mode.
STONEX R2 PLUS 8. Area Calculate an area shaped with several points. The coordinate data of the points could be either measured or input by hand. Input: Output: Coordinates: P1 (N1, E1) Area:S P2 (N2, E2) P3 (N3, E3) … N P3 P2 P4 S P1 P5 E 0 NOTE: ◆ The number of points: 3 ~ 30. ◆ Make sure these points must be measured or listed clockwise or anticlockwise, or mistake will result. 8.1 Area Calculation by Measured Data 【Procedure of area calculation】 Area 1.Occ.Orientation 2.
STONEX R2 PLUS N E Z VA HA 10.000 5.000 53.493 152.6296gon 62.1314gon 0OK0 01:Pt_01 02:Pt_02 03:Pt_03 04:Pt_04 05: 06: 07: CALC 3. Press F4: [MEAS] to re-measure distance or press F1: [OK], the measured data is set as“Pt-01”. MEAS 4. Repeat steps 2 and 3 till all points are measured one by one. Make sure measure them clockwise or anticlockwise. Press F2: [CALC] and the calculated area will display. MEAS Area Calculation Pt: 4 Area m2 ha 5. Press F4: [OK] back to menu mode. 0OK0 8.
STONEX R2 PLUS Occ. O1 Pt# Pt1 Coord C1 Pt# Pt2 Pt# Pt3 Pt# Pt4 Pt# Pt5 ↑↓.P T O P LAST SRCH 3. Pt#: Known point data saved in the active JOB or in the coordinate search JOB. Occ./Coord: Coordinate data saved in the active JOB or in the coordinate search JOB. 01:O1 02:Pt1 03:C1 04:Pt2 05: 06: 07: READ CALC 4. Select the first point in the list and press key {ENT} to set. The selected point is set as “Pt-01”. 5. Repeat steps 2 and 4 till all points are selected.
STONEX R2 PLUS 9. Offset Measurement Offset measurement are performed in order to find a point where a target cannot be installed directly or to find the distance and angle to a point which cannot be sighted. It is possible to find the distance and angle to a point you wish to measure (target point) by installing the target at a location (offset point) a little distance from the target point and measuring the distance and angle from the surveying point to the offset point.
STONEX R2 PLUS Offset 1.Occ. Orientation 2.Offset/Dist 3.Offset/Angle 4.Offset/2Dist Offset 1.Occ. Orientation 2.Offset/Dist 3.Offset/Angle 4.Offset/2Dist Offset/Dist SD VA HA 10.186m 90.0000gon 64.5154gon II MEAS MOKS Offset/Dist Dist Direc 10.000m ↓ MOKS Offset/Dist SD VA HA 13.511m 346.9636gon 249.0298gon R E C N E Z M NOS Y E S 3. Select [MENU]/4. Offset, or press F3: [OFST] at P3 of basic measurement menu. 4. Select “1. Occ. orientation” to input the instrument occupied data, see “ § 6.
STONEX R2 PLUS 9.2 Angle Offset Measurement Sighting the direction of the target point to find it from the included angle. Set offset points for the target point on the right or left sides of and as close as possible to the target point and measure the distance to the offset points and the horizontal angle of the target point. Target point Offset point (Target) Offset point (Target) Instrument station 【Procedure of angle offset measurement】 Menu 1.Coordinate 2.Stake out 3.Area 4.Offset 5.MLM 6.REM 7.
STONEX R2 PLUS Offset/Ang SD VA HA 13.511m 346.9636gon 249.0298gon 6. After finishing measurement: Press F1: [REC] to save; Press F2: [NEZ] to display NEZ coordinate; Press F3: [NO] back to step 6; Press F4: [YES] back to offset mode. R E C N E Z M NOS Y E S 9.3 Dual-Distance Offset Measurement By measuring the distance between the target point and the two offset points.
STONEX R2 PLUS Observe 1st offset N E Z VA HA MEAS 10.186 10.000 10.000 90.0000gon 64.5154gon MOKS Observe 2nd offset N E Z VA HA MEAS Dist 10.186 10.000 10.000 90.0000gon 64.5154gon MOKS 5. Sight the 2nd target, press F1: [MEAS] and measured data will display, press F4: [OK] to accept this value. 6. Input the distance from 2nd point to the target point and press key {ENT}, the angle and distance of the target point are displayed. 123456789m Offset/2Dist SD VA HA 4.
STONEX R2 PLUS 10. MLM MLM is used to directly measure slope distance, horizontal distance and the height difference from one base point to other points without moving the instrument. NOTE: ◆ The last measured data could be set as the base point for the next starting operation. ◆ The height difference between one point and the base point could be displayed as grade mode. H2 S2 V2 %2 H1 V1 S1 %1 Target (P3) Target (P2) Start point (P1) Occupied point 10.
STONEX R2 PLUS MLM S/% SD HD VD % M L M MOVE MEAS I 4. Aim at the next point P3 and press F1: [MLM] to begin measure. Repeat this operation to measure other target points. 5. Press F2: [MOVE], the last target measured becomes the new starting position to perform MLM of next target. Press F4: [MEAS] to re-measure the starting position. 6. Press key {ESC} back to menu mode. Note: ◆ Once “S/%” is displayed, the distance between two points is displayed as the gradient 10.
STONEX R2 PLUS 11. REM REM is a function used to measure the coordinate and height to a point where a target cannot be directly installed such as power lines, overhead cables or bridges, etc. Target point B α2 H2 S Ht α1 H1 B’ Here is the equation used to calculate the data presented in above figure: Ht=H1+Scosα1tgα2-Ssinα1 【Procedure of REM】 Menu 1.Coordinate 2.Stake out 3.Area 4.Offset 5.MLM 6.REM 7.Resection P1 REM Need prism obs SD HD VD REM REM Ht. SD HD VD I 3. Reference point measurement.
STONEX R2 PLUS 12. Resection Resection program is used to determine the coordinates of an instrument station (unknown) by measuring several known points. Coordinate data in memory could be read.
STONEX R2 PLUS 12.1 Coordinate Resection Between 2 and 5 known points can be measured by distance measurement and angle measurement. 【Procedure of coordinate resection】 Menu 1.Coordinate 2.Stake Out 3.Area 4.Offset 5.MLM 6.REM 7.Resection 1. Select [MENU] at P2 of basic measurement mode, and then select “7. Resection”, or select [RES] at P3 directly. Resection 1.NEZ 2.Elevation 2. Select “1.NEZ” and input known point data.
STONEX R2 PLUS Resection SD VA HA Tgt.H No.2Pt 10.188m 189.9284gon 47.2432gon m CALC I TNOT Y E S Occ. Coord N E Z dN dE NEXT DISP R E C TOKT Resection Set Azimuth TNOT Y E S 6. Repeat procedures 4 and 5 of other points. When the minimum quantity of measured data required for the calculation is present, [CALC] will be displayed. Press F1: [CALC] to calculate. Instrument occupied coordinate and standard deviation are displayed. Press F3: [NO] to re-measure the point. 7.
STONEX R2 PLUS No. 1Pt# Z Pt# Tgt.H READ R E C NEXT MEAS Resection 5. Sight the first known point and press F1: [DIST] to begin measurement. The measured data are displayed. No.1PT Z Pt# 6. Press F4: [YES] to use the measured data of the first DIST Resection No.1Pt SD 10.188m VA 189.9284gon HA 47.2432gon Tgt.H 000000m CALC I TNOT Y E S Occ.Coord Z dZ NEXT 3. After setting the elevation for the first known point, press F3: [NEXT] to set the second point data. 4.
STONEX R2 PLUS 12.3 Resection Calculation Process The N, E coordinates are found by angle and distance measurement equations, and the instrument occupied coordinates are found using the least squares method. The Z coordinate is found by treating the average value as the instrument occupied coordinate.
STONEX R2 PLUS 12.4 Precautions When Performing Resection In some cases it is impossible to calculate the coordinates of occupied point if the unknown point and three or more known points are arranged on the edge of a single circle. It is also impossible to calculate if the included angle between the known points is too small. It is difficult to imagine that the longer the distance between the instrument occupied and known points, the narrower the included angle between the known points.
STONEX R2 PLUS 13. Point Projection Point projection is used for projecting a point to an established baseline. The point to project can be either measured or input. Displays the distances from the first point and point to project to the position at which a line extending from point to project intersects the baseline at right angles. Y direction X direction Baseline 1st Pt 2nd Pt Offset Length Point to project Length: Distance along the baseline from 1st point to 2nd point (X direction).
STONEX R2 PLUS Point projection 1.Occ. Orientation 2.Define baseline 3.Point projection Point projection 1.Occ. Orientation 2.Define baseline 3.Point projection Define 1st Pt. Np: Ep: Zp: Pt#: 0.000 0.000 0.000 3. Input the instrument occupied data, see “§6.1 Input the occupied point data”. 4. Select “2. Define baseline”. 5. Input the first point data, or press F1: [READ] to use existed coordinates data, or press F3:[MEAS] to measure the point. READ R E C M E A S OK Define 2nd Pt.
STONEX R2 PLUS 13.2 Point Projection The baseline must be defined before performing point projection. 【Procedure of point projection】 Point projection 1.Occ. Orientation 2.Define baseline 3.Point projection Point projection Np: Ep: Zp: Pt#: 0.000 0.000 0.000 P1 HOKD READ MEAS Point projection Length Offset dVD NEZ REC 1385.260m -203.107m 2.212m S-O 1. Select “3. Point projection” after finishing defining baseline. 2. Input the point coordinate. Press F2: [MEAS] to measure the point to project.
STONEX R2 PLUS 14. Stake out Line Stake out line is used for stake out a required point at a designed distance from the base line and for finding the distance from the baseline to a measured point. 2nd Pt Z Cut Grade Fill 1stPt Offset E Baseline Azimuth Length N 14. 1 Define Baseline 【Procedure of defining baseline】 To perform stake out line, please define a baseline first. The baseline can be defined by inputting coordinates of the two points. Menu P2 1.Point projection 2.Stake out line 3.
STONEX R2 PLUS 14. 2 Stake Out Line-Point This measurement can be used to find the required point coordinates by inputting the length and offset based on baseline.
STONEX R2 PLUS Stake out line Np: Ep: Zp: 0.000 0.000 0.000 REC S-O 4. Press F3: [REC] to record the value as a known point, see “§20.1 Input Known Point Coordinate by Keys”. Press F4: [S-O] to stake out the required point, see “§7. Stake out Measurement”. Press key {ESC} to continue. 14.3 Stake out Line/Line Stake out line-line tells how far horizontally the measured point is from the baseline and how far vertically the measured point is from the connected line.
STONEX R2 PLUS 【Procedure of stake out line/line】 Stake out line 1.Occ. Orientation 2.Define baseline 3.Stake out line 1. Select “3. Stake out line” after defining a baseline. 2. Select “2.Line”. Stake out line 1.Point 2.Line 3. Input offset value: the horizontal move distance of baseline, right side indicates positive value and left side indicates negative value. Go to step 4 without inputting. 4. Aim at the target and press F4: [MEAS] to measure. The measured results are displayed.
STONEX R2 PLUS 15. Traverse Surveying Measure the coordinate of foresight point and save it in the list, this point would be taken as the occupied point after transferring to point 2, and the previous occupied point will be taken as the backsight point, the azimuth angle will be calculated and set. N Known point A P3 P1 P2 Occupied point P0 Azimuth E (0,0,0) 15.1 Save Coordinate Here is the operation of how to measure the foresight point and save it in the list.
STONEX R2 PLUS 3. Aim at the target point and then press F1: [DIST]. You can press F4: [I.HT] to re-input instrument height or target height here. Save coord VD VA HA 29.183ft 315.3212gon 64.5876gon DIST I I.HT 4. Press F4: [SET] to save the data, or press F3: [REC] to record it in the list. Save coord VD VA HA 19.682ft 159.9150gon 68.0594gon MEAS I REC SET Save coord N E Z 5.000 5.000 29.877 > Set? 5. Press F3: [NO] back to the previous mode and press F4: [YES] to set the data.
STONEX R2 PLUS 16. Inverse The distance and azimuth from a start point to an end point could be calculated according to input their coordinates. Input: Output: Coordinate of start point: N0,E0,Z0 Distance: D Coordinate of end point : N1,E1,Z1 Azimuth: Az Menu P2 1.Point projection 2.Line stakeout 3.Traverse 4.Inverse 5.Polarize 6.Repeat Measure 7.Arc staking out Coord Inverse Start point N 1000.000 E 1000.000 Z 39.383 Pt# READ R E C 0OK0 Coord Inverse End point N 1000.000 E 1000.000 Z 10.
STONEX R2 PLUS 17. Polar Coordinates Calculation The coordinates of the end point could be calculated according to input azimuth, distance and the NEZ coordinates of start point. Input: Coordinate of start point: N0,E0,Z0 N Azimuth: Az Distance: Dist Output: End point Coordinate of end point:N1,E1,Z1 Az D Start point 【Procedure of Polarize】 Menu P2 1.Point projection 2.Line stake out 3.Traverse 4.Inverse 5.Polarize 6.Repeat Measure 7.Arc staking out Calc polar coord Pt# C1 N 1000.000 E 1000.000 Z 39.
STONEX R2 PLUS 18. Repetition Angle Measurement Repetition angle measurement can be done by horizontal angle right measurement mode. Menu P2 1.Point projection 2.Line stake out 3.Traverse 4.Inverse 5.Polarize 6.Repeat Measure 7.Arc staking out Angle Remeasure 1. Press F2: [MENU] on P2 of the basic measurement mode. 2. Turn to P2, select 6.Repeat Measure. 3. Press the F3:[Yes] key. >OK? ---- ---- YES NO Angle Remeasure Ht: Hm: [0] 0°00′00″ 4. Collimate the target A and press the F1[0SET] key. 5.
STONEX R2 PLUS Angle Remeasure [4] Ht: Hm: 180°40′00″ 45°10′00″ 10. Press F2: [Meas] or [ESC] key to return to the normal mode. 0SET MEAS FREE H O L D 11. Press the F3:[YES] key. Angle Remeasure Exit >OK? ---- ---- YES NO NOTE: ● Horizontal angle can be accumulated up to (3600°00'00" – minimum reading) (horizontal angle right). In case of 5 second reading, horizontal angle can be accumulated up to +3599°59'55".
STONEX R2 PLUS 19. Arc Staking Out Measurement Stake out a designed arc by arc staking out measurement, see below figure, after define the arc by 2points-arc or 3points, the instrument will help you move the rod to the arc. Here: S.P– Start point of arc E.P– End point of arc C.P– Circle center point of arc Station(from S.P to A) - the station on the arc computed radially from the current position of the prism. Offset(from rod to B) – offset distance from the current position to the arc.
STONEX R2 PLUS 19.1 Two Point Arc Staking Out 1. Press F2: [MENU] on P2 of the basic measurement mode, select 7.Arc Staking out to enter arc staking out menu, select 1.Occ.Orientation to set the station. And then select 2. 2pt+radius arc to start 2-point arc staking out measurement. Arc Stakeout 1.Occ.Orientation 2.2pt+radius arc 3.Three Point arc 2. Input the coordinate of arc start point. Press F1[READ] to read the existed coordinate as stake out coordinate Press F4:[OK] to set the data.
STONEX R2 PLUS Are stake out/Measure Stn : Offset: In: Fill: 1.112m 0.013m 0.013m 0.306m MEAS OK 6. According the S-O dHA angle to move the rod until the telescope sight intersect the arc. 7. Repeat moving and measuring the rod until all the stake data are accepted. Press F4: [ESC] to escape this program. Are stake out/Measure Stn : Offset: In: Fill: 1.109m 0.003m 0.003m 0.006m MEAS OK 19.2 Three Point Arc Staking Out 1. Press F2: [MENU] on P2 of the basic measurement mode, select 7.
STONEX R2 PLUS 4. Input the coordinate of arc middle point. Press F1[READ] to read the existed coordinate as stake out coordinate Press F4:[OK] to set the data. Define/Mid PT Pt# Np: Ep: Zp: J5 3.027 -0.685 0.305 READ R E C MEAS OK Are stake out/Measure Stn : Offset: S-O dHA Fill: MEAS 0.015m 115.491m 5 16 17 1.541 OK Are stake out/Measure Stn : Offset: In: Fill: MEAS 0.015m 10.025m 0.013m 0.306m OK Are stake out/Measure Stn : Offset: In: Fill: MEAS 0.012m 0.003m 0.003m 0.006m OK 5.
STONEX R2 PLUS 20. Road Staking Out Measurement This program is especially designed for Road Layout measurement. It can be used for horizontal curve layout. Normally one road is constituted by several elements, such as line, circle curve or Spline. Menu P3 1.Road Calculation H road elements list Input Start station Select 1 1 Road Calculation 1.Input the parameter 2.Road Setout 3.Road file Type EndPile HCurve/Start Point STATION: 0.000 Np : 0.000 Ep : 0.000 Zp : 0.
STONEX R2 PLUS 20.1 Input the Start Station Road Calculation 1.Road file 2.Input the parameter 3.Road Setout Road Define 1.Horizontal Curve 2.Vertical curve 3.Road Calculation HCurve/Start Point STATION: 0.000 Np : 0.000 Ep : 0.000 Zp : 0.000 1. Press F2: [MENU] on P2 of the basic measurement mode, on the page 3 select 2.Road Calculation enter road menu. 2. Select 1.Input the parameter to enter road design menu. And then select 1.Horizontal Curve, start point entering menu will display. 3.
STONEX R2 PLUS NOTE: Line Input/END POINT Pt# N E Z READ 100m 0.000m 0.000m You can press F3:[ENDP] to enter the end point inputting menu. Input the end point coordinate directly, or press F1:[READ] to recall from memory. Press F3:[LINE] to back to the LENGTH menu LINE ENT Type EndPile Line 100.000 Press F4:[ENT] to confirm, you will see the line element in the list menu. Here EndPile means the end station of this element. DEL LINE CIR CURV 20.2.2 Input Circle Element CIRCLE INPUT Dist 100.
STONEX R2 PLUS 20.2.3 Input Spiral Element Spiral Input Dist 100.000m Rad 100.000m Azimuth 57°17′44″ Turn RIGHT Direction IN ENT Type Line Circle Spiral EndPile 100.000 200.000 300.000 1. Make sure the instrument is in horizontal elements editing menu, press F4 to display spiral element inputting menu. Input the curve parameters, including length[Dist], radius[Rad], azimuth[Azimuth], turn [Turn] and direction[Direction]. 2. Press F4:[ENT] key to confirm, back to the horizontal elements menu.
STONEX R2 PLUS Type Line Spiral Circle Spiral Line EndPile 100.000 200.000 300.000 400.000 500.000 DEL LINE CIR CURV ● Edit horizontal element Type Line Spiral Circle Spiral Line EndPile 100.000 200.000 300.000 400.000 500.000 1. Move ▲ or ▼ key, the cursor will move to different element. DEL LINE CIR CURV Line Input/CIRCLE 2. Press ENT key to edit the selected element. Dist 200.000m Rad 100.000m Azimuth 0°00′00″ Turn RIGHT Direction IN ENT Type Line Spiral Circle Spiral Line EndPile 100.000 300.
STONEX R2 PLUS 20.3 Input Road Vertical Elements Road vertical elements is confirmed by some intersection points, you should input same parameters for the intersection points, including station, height, and length from this intersection point to next intersection point. 20.3.1 Input Vertical Road Element. Road Define 1.Horizontal Curve 2.Vertical curve 3.Road Calculation StartPile FIST LAST Height 1. Make sure the instrument is in Road Define menu, select 2.
STONEX R2 PLUS StartPile 0.000 Height 600.000 FIST LAST DEL ADD VCurve/Element STATION 200.000 Ht. 625.000 Lengh 250 3. You will see the just inputted element in the vertical element editing menu. 4. Press F4:[ADD] to input next one. Here the STATION is displayed automatically, it comes from the previous element’s length. Press F4: key to confirm. ENT StartPile 0.000 200.000 400.000 500.000 550.000 FIST LAST Height 600.000 625.000 570.000 685.000 700.000 5.
STONEX R2 PLUS below: ● Edit horizontal element StartPile 0.000 200.000 400.000 500.000 FIST LAST Height 600.000 625.000 570.000 685.000 1. Move ▲ or ▼ key, the cursor will move to different element. DEL ADD VCurve/Element STATION 200.000 Ht. 625.000 Lengh 180 m 2. Press ENT key to edit the selected element. ENT StartPile 0.000 200.000 380.000 480.000 FIST LAST Height 600.000 625.000 570.000 685.000 DEL ADD 3.
STONEX R2 PLUS 20.4 Road Calculation 20.4.1 Input the road width element Road Define 1.Horizontal Curve 2.Vertical curve 3.Road Calculation 1. Make sure the instrument is in Road Define menu, select 3.Road Calculation 2. Press F1:[WIDE] to road width setting menu. RoadCal/Calc STATION:0.000 SPAC 0.000 m WIDE PEG ENT SPile LW Press F1:[FIST] key, the cursor will move to the first element. Press F2:[LAST] key, the cursor will move to the last element. Press F3:[Del] key to delete the selected element.
STONEX R2 PLUS 20.4.2 Additional Station Setting Some special stations can be calculated and stake out, the setting procedures are same with road width element inputting, but their result are different; for road width element, the inputted parameters are available from setting station to next element, but for additional station setting, the inputted parameters are available only for setting station. Road Define 1.Horizontal Curve 2.Vertical curve 3.Road Calculation 1.
STONEX R2 PLUS 20.4.3 Road Calculation After design the road, input the interval to calculate the staking points. 1. Input the interval of staking points on the road. RoadCal/Calc STATION:0.000 SPAC 20.000 m WIDE PEG ENT Road Define 1.Horizontal Curve 2.Vertical curve 3.Road Calculation 2. Press F4:[ENT] to calculate, “calculating” will display until “Cal complete” appear, the program go back to previous menu automatically.
STONEX R2 PLUS 20.5 Road Staking Out Data View After design and calculate the road, all the staking points can be view. 1. Press F2: [MENU] on P2 of the basic measurement Road Calculation mode, on the page 3 select 1.Road Calculation enter 1.Road file road menu. 2.Input the parameter 3.Road Setout 2. Select 3.Road Setout to road setout menu. Road Setout 1.Occ.Orientation 2.Road Setout 3.Road data view STAKE 1 STAKE 2 STAKE 3 STAKE 4 STAKE 5 STAKE 6 STAKE 7 ↑↓.P TOP LAST SRCH Road RoadCoordSO Pt# 1 Code 0.
STONEX R2 PLUS 20.6 Road Stake Out Road Calculation 1.Road file 2.Input the parameter 3.Road Setout Road Setout 1.Occ.Orientation 2.Road Setout 3.Road data view Road RoadCoordSO Pt# 1 Code 0.000C Np : 0.000 Ep : 0.000 Zp : 600.000 READ PREV NEXT ENT Road RoadCoordSO Pt# 1 Code 0.000C Np : 0.000 Ep : 0.000 Zp : 600.000 READ PREV NEXT ENT 1. Press F2: [MENU] on P2 of the basic measurement mode, on the page 3 select 1.Road Calculation enter road menu. 2. Select 3.Road Setout to road setout menu.
STONEX R2 PLUS 20.7 Road File Management 20.7.1 Select a Road File All the elements you inputted and the staking data you calculated are recorded in the current road file. You can select other file to define other road, normally one file includes one road. NOTE: ◆ There are 10 road files in total, the factory default setting is “ROAD1”. ◆ The default names are “ROAD1”,”ROAD2”…”ROAD10”, you can rename them if necessary. Road Calculation 1.Road file 2.Input the parameter 3.Road Setout Road file 1.
STONEX R2 PLUS 20.7.2 Rename a Road File Road Calculation 1.Road file 2.Input the parameter 3.Road Setout Road file 1.Road File Select 2.Road File Rename 3.Road File Delete 4.Road Initialize Road File Rename Procedures: 1. Press F2: [MENU] on P2 of the basic measurement mode, on the page 3 select 1.Road Calculation enter road menu. 2. Select 1.Road file to road file management menu. 3. Select 2.Road File Rename, current road file will display. Road4 Road File Rename 4.
STONEX R2 PLUS 20.7.3 Delete a Road File Road Calculation 1.Road file 2.Input the parameter 3.Road Setout Road file 1.Road File Select 2.Road File Rename 3.Road File Delete 4.Road Initialize Road File Select P1 ROAD1 96 ROAD2 55 ROAD3 0 FOIFMA 100 ROAD5 0 ROAD6 0 ROAD7 10 FOIFMA Confirm to delete? NO Procedures: 1. Press F2: [MENU] on P2 of the basic measurement mode, on the page 3 select 1.Road Calculation enter road menu. 2. Select 1.Road file to road file management menu. 3. Select 3.
STONEX R2 PLUS 20.7.4 Delete all Road Files Road Calculation 1.Road file 2.Input the parameter 3.Road Setout Road file 1.Road File Select 2.Road File Rename 3.Road File Delete 4.Road Initialize Procedures: 1. Press F2: [MENU] on P2 of the basic measurement mode, on the page 3 select 1.Road Calculation enter road menu. 2. Select 1.Road file to road file management menu. 3. Select 4.Road Initialize.
STONEX R2 PLUS 21. Record You can record measured data, occupied data and notes into the active JOB. The memory is 60000 points in total. 21.1 Record Occupied Data You can input occupied data into the active JOB. The record items include: occupied coordinates, point number, instrument height, code, user, date, time, weather, wind, temperature, air pressure and ppm. If the current occupied data have not been recorded in the active JOB, the previous occupied data will be used as the active one.
STONEX R2 PLUS 5. Set the backsight information, and back to Rec menu. NOTE ◆If the inputted Pt# is the same as an existed one, the instrument will display as shown left. Press F3: [NO] to re-input; Press F4: [YES] to overwrite; Press F1: [ADD] to save, and the original one will not be deleted. ◆ ◆ ◆ ◆ ◆ ◆ ◆ ◆ Pt# J2 Inst.H 0.000m Code ROAD N0: 0.000 E0: 0.000 Z0: 0.000 Overwrite ? ADD 0NO0 Y E S The max length of Pt# is 14 characters. The instrument height range: -9999.999~9999.999.
STONEX R2 PLUS 21.3 Distance&Coordinate Data 【Procedure of recording distance&coordinate data 】 Meas PC 0.0 ppm 0 SD VA 302.5432gon II HA 0.0000gon P3 EDM OCC OFST R E C REC JOB-MY 1.JOB select 2.Occ. data 3.Angle data 4.Collect Points 5.Note 6.View REC/Dist+C Free 43997 N 5.000 E 5.000 Z 5.000 Pt# D10 Tgt.H 1.45ft Code NO002 AUTO DIST OFST R E C 1. Press F4: [REC] on P3 in basic measurement mode to enter into record mode. The active JOB will display. 2. Select “4. Collect Points”. 3.
STONEX R2 PLUS 21.4 Record Note 【Procedure of recording note】 Meas PC 0.0 ppm 0 1. Press F3: [REC] on P3 in measure mode to enter into record mode. The active JOB will display. SD VA 302.5432gon II HA 0.0000gon P3 EDM OCC OFST R E C 2. Select “5. Note”. REC JOB-MY 1.JOB select 2.Occ. data 3.Angle data 4.Collect Points 5.Note 6.View REC/Note ROAD100 Free 13996 3. Input note and press F1: [OK] to save. The max length is 60 characters. 0OK0 NOTE: ◆ Max note length is 60 characters.
STONEX R2 PLUS 21.5 View Data 【Procedure of view data 】 Meas PC 0.0 ppm 0 1. Press F3: [REC] on P3 in measure mode to enter into record mode. The active JOB will display. SD VA 302.5432gon II HA 0.0000gon P3 EDM OCC OFST R E C REC JOB-MY 1.JOB select 2.Occ. data 3.Angle data 4.Collect Points 5.Note 6.View Stn Dist Coord Dist Coord Dist Coord ↑↓.P T O P J2 J3 J3 J4 J4 J5 J5 LAST SRCH 2. Select “6. View”. 3. All recorded data of the active JOB will display, Press F1:[ ↑↓.
STONEX R2 PLUS 21.6 Select job 【Procedure of job select 】 Meas PC 0.0 ppm 0 1. Press F4: [REC] on P3 in measure mode to enter into record mode. The active JOB will display. SD VA 302.5432gon II HA 0.0000gon P3 EDM OCC OFST R E C 2. Select 1.JOB select to set job, see “22.2 Select a JOB” to operate. REC JOB-MY 1.JOB select 2.Occ. data 3.Angle data 4.Collect Points 5.Note 6.View JOB selection : JOB2 0 S.F. =1.000000 Coord search JOB :JOB3 LIST S.F.
STONEX R2 PLUS 22. JOB Management 22.1 Storage Media Select For R2-PLUS series, SD card slot is an standard equipment, user can record the measured data in internal memory or SD card directly. Before your work, it is necessary select appropriate storage media. For both memory, the file management procedures are same. 【Procedure of storage select】 Memory 1.JOB 2.Known data 3.Code 4.Storage Media Select 5.USB 1. Select [MEM] in the status mode to enter into memory management. 2. Select “4.
STONEX R2 PLUS will display. 3.At power on mode, if you insert or pull out the SD card, or will display, but these operations are not recommended. 4. All the menu for internal memory or external SD card are same. 22.2 Select a JOB The active JOB or coordinate search JOB could be selected.
STONEX R2 PLUS JOB selection JOBA JOB1 JOB-MY MYJOB JOB-B JOB01 JOB-C P1 15 56 20 50 45 2 0 5. Select an active JOB. The numbers to the right represent the number of data items in each JOB. Press key {ENT} to save the setting. 6. Input the scale factor if necessary. The range: 0.5000000 ~ 2.000000, and the factory setting is 1.000000. JOB-MY S.F.=0.999998 JOB selection :JOB-MY S.F.=0.999998 Coord search JOB :CORD1 7. Select a coord search JOB following above steps 4 and 5. LIST 22.
STONEX R2 PLUS 22.4 Delete a JOB It is possible to delete an existed JOB. Once the JOB has been deleted with the recorded data cleared, the JOB name returns to the default one. 【Procedure of JOB deletion】 Memory 1.JOB 2.Known data 3.Code 4.Storage Media Select 5.USB JOB 1.JOB select 2.JOB rename 3.JOB delete 4.Download 5.Com setting 4.File Copy JOB deletion JOBA JOB1 JOB-Paul01 MYJOB JOB-B JOB01 JOB-C0000000 1. Press F3: [MEM] in the status mode to enter into memory management. 2. Select “1.
STONEX R2 PLUS 22.5 Output JOB Data Measured data, occupied data, known point data, note and coordinates data existed in all JOBs could be outputted to PC via serial port. NOTE: ◆ The software STONEX exchange is available in your CD-ROM or download from www.stonexpositioning.com ◆ Be sure the communication port setting of instrument and PC is the same, see “§ 3.8.3 Communication Port Setting”, you can select MEM/1.JOB/5.Com setting to set the communication parameters also. 【Procedure of download】 Memory 1.
STONEX R2 PLUS 22.6 File Copy It is possible to copy the job from current internal memory to SD card, or copy known data from SD card to internal memory. 【Procedure of JOB copy】 Memory 1.JOB 2.Known data 3.Code 4.Storage Media Select 5.USB 2. Select “6. File Copy”, the job list for current JOB 1.JOB select 2.JOB rename 3.JOB delete 4.Download 5.Com setting 6.File Copy JOB deletion JOBA JOBCDD JOB-Paul01 MYJOB JOB-B JOB01 JOB-C000000 1. Select MEM/1.JOB/6.File Copy. memory will display.
STONEX R2 PLUS 22.7 Connect PC via USB port R2-PLUS is equipped with USB port, you can connect it with PC for data transferring. 【Procedure of USB port connecting】 Memory 1.JOB 2.Known data 3.Code 4.Storage Media Select 5.USB 1. Select [MEM] in the status mode to enter into memory management. U FUNCTION Plug the USB Exit Press ESC 2. Select “5.USB” to enter USB port connecting screen. U FUNCTION 3. Connect instrument and PC via USB cable, R2-PLUS will display “U FUNCTION Stop Press ESC”.
STONEX R2 PLUS 23. Known Data Management There are 6 items in known data management. 23.1 Input Known Point Coordinate by Keys You could input or delete coordinates of known point in the active JOB by key entry or entry from PC. The existed data you have input beforehand could be used as occupied point, backsight point, coordinates of known point or stakeout point. The memory is 60000 points in total. 【Procedure of Inputting known points coordinate】 Memory 1.JOB 2.Known data 3.Code 4.
STONEX R2 PLUS JOB6 Free 45911 Pt# N E Z S1 S1 10.500 11.544 100.000 Overwrite? ADD 0NO0 Y E S 5. Once the Pt# is the same as an existed one, it will display as shown left: Press F3: [NO] to re-input; Press F4: [YES] to overwrite; Press F1: [ADD] to save, and the original one will not be deleted. 23.2 Input Known Point Coordinate via RS-232C 【Procedure of Inputting known points coordinate】 Memory 1.JOB 2.Known data 3.Code 4.Storage Media Select 5.
STONEX R2 PLUS 23.3 Delete known point coordinate 【Procedure of known points deletion】 1. Press F3: [MEM] in the status mode to enter into memory management. Memory 1.JOB 2.Known data 3.Code 4.Storage Media Select 5.USB JOB selection DAFENG JOBFF WOMENSHI FATELU KEMEN JOB6 JOB7 P1 10 3000 1256 100 560 510 0 3. Select “3.Delete” and all known points in current JOB will display. Known data JOB JOB6 1.Key input 2.Com input 3.Delete 4.View 5.Clear 6.Com setting Pt# Pt# Pt# Pt# Pt# Pt# Pt# ↑↓.
STONEX R2 PLUS 23.4 View known points data 【Procedure of known points view】 Memory 1.JOB 2.Known data 3.Code 4.Storage Media Select 5.USB JOB selection DAFENG JOBFF WOMENSHI FATELU KEMEN JOB6 JOB7 P1 10 3000 1256 100 560 510 0 Known data JOB JOB6 1.Key input 2.Com input 3.Delete 4.View 5.Clear 6.Com setting Pt# Pt# Pt# Pt# Pt# Pt# Pt# ↑↓.P N E Z Pt# 1 2 3 A B S1 S2 T O P LAST SRCH S1 50.000 100.000 010.919 1. Press F3: [MEM] in the status mode to enter into memory management. 2. Select “2.
STONEX R2 PLUS 23.5 Clear all known points’ data 【Procedure of clearing all known points】 Memory 1.JOB 2.Known data 3.Code 4.Storage Media Select 5.USB JOB selection DAFENG JOBFF WOMENSHI FATELU KEMEN JOB6 JOB7 P1 10 3000 1256 100 560 510 0 1. Press F3: [MEM] in the status mode to enter into memory management. 2. Select “2.Known data” , job list will display. Select one Job you want to operate, press [ENT] key to confirm, known data menu will display, you can see the active JOB on the second line.. 3.
STONEX R2 PLUS 24. Code Management You could edit codes in this mode. All existed codes in memory could be read for all jobs, and the selected code could be recorded together with occupied data or measured data. 24.1 Edit Code list 【Procedure of inputting a code】 Memory 1.JOB 2.Known data 3.Code 4.Storage Media Select 5.USB Code 1.Code Edit 2.Clear list 001:CODE 002:CODEA 003:CODEB 004:CODEBCD 005:CODEBDEG 006:CODEBES 007: ↑↓.P T O P LAST DEL 1.
STONEX R2 PLUS 24.2 Clear all Codes 【Procedure of clearing all codes】 Memory 1.JOB 2.Known data 3.Code 4.Storage Media Select 5.USB 1. Press F3: [MEM] in the status mode to enter into memory management. 2. Select “3.Code” to enter into code management. 3. Select “2.Clear list”. Code 1.Code Edit 2.Clear list 4. Press F3: [NO] back to previous mode; Clear all codes, Confirm to delete? Press F4: [YES] to delete all codes recorded in memory of all JOBs completely.
STONEX R2 PLUS 25. Warning and Error Messages “Low Signal !” Please accurately re-sight the target. “Same coordinates” The coordinates of the backsights are the same, please re-define or re-input. “Out of value” The difference value of coordinates is over range “Out of range” The stake out height is over range. “Need 1st obs” During missing line measurement, the observation of the starting position was not completed normally.
STONEX R2 PLUS 26. Check and Adjustment 26.1 The Instrument Constant Ⅰ. Check It is suggested to observe and compare the instrument with a testing baseline 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 select a flat place and set up the instrument and a target in the same height. AB A BC B C AC 1.
STONEX R2 PLUS 26.2 Tubular Level Ⅰ. 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 bubble. 3. Turn the instrument 180°/200gon, observe the moving direction of the bubble, if it is still centered, no adjustment is necessary, if not, you have to adjust it. Ⅱ. Adjustment 1.
STONEX R2 PLUS 26.4 The Optical Sight Ⅰ. 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. Ⅱ. 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.
STONEX R2 PLUS NOTE: 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. 26.6 Laser Plummet Ⅰ.
STONEX R2 PLUS Ⅱ. 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. (3) Loosen all four fixing screws slightly with the cross screw-driver. (4) Revolve the eyepiece section so that the vertical cross-hair coincides to point A, finally, re-tighten the four screws. (5) Repeat the checking and adjusting until there is no deviation.
STONEX R2 PLUS NOTE: 1. When adjusting the screws of 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. 2. After the reticle adjustment, it is necessary to adjust the vertical index error by program, see “§23.10 Vertical Index Error”. 26.
STONEX R2 PLUS 5. Rotate the instrument 180°/200gon. Loosen the horizontal clamp and turn the instrument 180 ° X -0.0008gon Y 0.0012gon /200gon while referring to the displayed horizontal angle, then re-tighten the clamp. Wait a few seconds Take F1 II for the display to stabilize, then read the automatically 0OK0 compensated angles X2 and Y2.
STONEX R2 PLUS the value should be stable when reading. Ⅰ. Check: Please adjust the reticle of telescope and correct the collimation error before this operation. (1) Mount the instrument at the tripod or a stable device and level it accurately, then turn on the instrument. (2) Aim at the cross-hairs of collimator or the obvious target at a distance, VA should be about ±10°. Read the face left angle Vl and face right angle Vr.
STONEX R2 PLUS 6. Press F3: [YES] to set the correction, and press F4: [NO] to give up. Index Error Old New Set ? 0.0048gon 0.0012gon YES NO0 26.11 EDM Optical Axis and the Telescope Sighting Axis Error It is necessary to check this error after the adjustment of telescope reticle error. Check (1) Install the instrument at the tripod or a stable device and level it accurately, then power on the instrument. (2) Set a reflective sheet about 5m-20m far away from the instrument.
STONEX R2 PLUS 27. Technical Data Telescope Length Image Objective aperture Magnification Field of view Mini focus distance Reticle illumination Angle measurement Reading system Circle diameter Angle unit Minimum display Detecting mode Accuracy 156mm Erect Ф45mm 30× 1°30′ 1.0m 10 brightness levels Absolute encoder for R2 PLUS series 79mm degree/gon, selectable 1″/5″/10″, selectable 0.0001°/0.0005°/0.001°, selectable 0.
STONEX R2 PLUS Measurement time(Initial:2.5s) Prism Reflective sheet(RP60) Reflectorless Display resolution Fine mode Tracking mode Distance unit Temperature unit Pressure unit Temperature input range Pressure input range Prism constant condition Refraction and earth curvature correction Reflecting prism constant correction 0.1mm (0.001ft) /1mm (0.01ft) 10mm(0.1ft) m/ft, selectable ℃/℉, selectable hPa/mmHg/inchHg, selectable -30℃ to +60℃ (1℃ steps) 510hPa to 1066hPa(1hPa setps) -99.9mm to +99.9mm OFF/0.
STONEX R2 PLUS Memory Internal memory External SD card Data communication I/O 60000 points 60000 points RS-232C/USB/SD card/ Bluetooth *3(optional) TM Power Battery Voltage Continuous operation time Chargers Charging time 3400mAh Li-ion Rechargeable battery 7. 4V DC 9 hours(At +20℃) FDJ6-Li(100V to 240V 50/60Hz) Approx. 4 hours Others CPU EDM technology Build-in temp.
STONEX R2 PLUS *1 Technical Data for R2 PLUS series EDM Reflectorless Measurement Range Option R2-2 PLUS 350 R2-5 PLUS 350 Kodak Gray Range D Range E Range F Card m m m White side, 200 250 300 100 120 150 300 400 500 150 200 250 90% reflective Gray side, 18% reflective White side, R2-2 PLUS 500 R2-5 PLUS 500 90% reflective Gray side, 18% reflective Atmospheric Conditions D: Object in strong sunlight, severe heat shimmer E: Object in shade, sky overcast F: Underground, night and tw
STONEX R2 PLUS 28.
STONEX R2 PLUS NOTE: These designs, figures and specifications are subject to change without notice.
FCC ID: Y44-R2 Stonex Europe Srl Model name: Total Station Model No.: R2-2 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.
