Topcon GPT-2006 manuel d'utilisation

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Le mot vient du latin "Instructio", à savoir organiser. Ainsi, le manuel d’utilisation Topcon GPT-2006 décrit les étapes de la procédure. Le but du manuel d’utilisation est d’instruire, de faciliter le démarrage, l'utilisation de l'équipement ou l'exécution des actions spécifiques. Le manuel d’utilisation est une collection d'informations sur l'objet/service, une indice.

Malheureusement, peu d'utilisateurs prennent le temps de lire le manuel d’utilisation, et un bon manuel permet non seulement d’apprendre à connaître un certain nombre de fonctionnalités supplémentaires du dispositif acheté, mais aussi éviter la majorité des défaillances.

Donc, ce qui devrait contenir le manuel parfait?

Tout d'abord, le manuel d’utilisation Topcon GPT-2006 devrait contenir:
- informations sur les caractéristiques techniques du dispositif Topcon GPT-2006
- nom du fabricant et année de fabrication Topcon GPT-2006
- instructions d'utilisation, de réglage et d’entretien de l'équipement Topcon GPT-2006
- signes de sécurité et attestations confirmant la conformité avec les normes pertinentes

Pourquoi nous ne lisons pas les manuels d’utilisation?

Habituellement, cela est dû au manque de temps et de certitude quant à la fonctionnalité spécifique de l'équipement acheté. Malheureusement, la connexion et le démarrage Topcon GPT-2006 ne suffisent pas. Le manuel d’utilisation contient un certain nombre de lignes directrices concernant les fonctionnalités spécifiques, la sécurité, les méthodes d'entretien (même les moyens qui doivent être utilisés), les défauts possibles Topcon GPT-2006 et les moyens de résoudre des problèmes communs lors de l'utilisation. Enfin, le manuel contient les coordonnées du service Topcon en l'absence de l'efficacité des solutions proposées. Actuellement, les manuels d’utilisation sous la forme d'animations intéressantes et de vidéos pédagogiques qui sont meilleurs que la brochure, sont très populaires. Ce type de manuel permet à l'utilisateur de voir toute la vidéo d'instruction sans sauter les spécifications et les descriptions techniques compliquées Topcon GPT-2006, comme c’est le cas pour la version papier.

Pourquoi lire le manuel d’utilisation?

Tout d'abord, il contient la réponse sur la structure, les possibilités du dispositif Topcon GPT-2006, l'utilisation de divers accessoires et une gamme d'informations pour profiter pleinement de toutes les fonctionnalités et commodités.

Après un achat réussi de l’équipement/dispositif, prenez un moment pour vous familiariser avec toutes les parties du manuel d'utilisation Topcon GPT-2006. À l'heure actuelle, ils sont soigneusement préparés et traduits pour qu'ils soient non seulement compréhensibles pour les utilisateurs, mais pour qu’ils remplissent leur fonction de base de l'information et d’aide.

Table des matières du manuel d’utilisation

  • Page 1

    GPT -2000 SERIES GPT -2003 GPT -2005 GPT -2006 GPT -2009 PULSE T O T AL ST A TION INSTR UCTION MANU AL[...]

  • Page 2

    [...]

  • Page 3

    1 FOREWORD Thank you f or purchasing the T OPCON Pulse T otal Station, GPT -2000 series. For the best perf ormance of the instruments, please carefully read these instructions and keep them in a con v enient location f or future ref erence .[...]

  • Page 4

    2 General Handling Precautions Before starting work or operation, be sure to check that the instrument is functioning correctly with normal perf ormance. Do not submerge the instrument into water . The instrument can not be submerged underwater . The instrument is designed based on the Inter national Standard IP66, therefore it is protected from th[...]

  • Page 5

    3 Display f or Safe Use In order to encourage the saf e use of products and prev ent an y danger to the operator and others or damage to proper ties, important war nings are put on the products and inser ted in the instruction manuals. We suggest that e v eryone understand the meaning of the follo wing displays and icons bef ore reading the “Saf [...]

  • Page 6

    4 User 1) This product is f or prof essional use only! The user is required to be a quali fi ed sur v e yor or ha v e a good knowledge of surve ying, in order to understand the user and saf ety instructions, bef ore operating, inspecting or adjusting. 2)W ear the required protectors (saf ety shoes, helmet, etc.) when operating. Exceptions from Res[...]

  • Page 7

    5 Safety Standar d f or Laser Beam GPT -2000 series uses the invisib le laser beam. The GPT -2000 series are manufactured and sold in accordance with "P erf ormance Standards for Light-Emitting Products" (FD A/BRH 21 CFR 1040) or "Radiation Safety of Laser Products , Equipment Classi fi cation, Requirements and User`s Guide" (I[...]

  • Page 8

    6 Contents FOREWORD . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1 General Handling Precautions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2 Display for Safe Use . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . [...]

  • Page 9

    7 6.1 Application Measurement (PROGRAMS) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6-2 6.1.1 Remote Elevation measurement (REM) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6-2 6.1.2 Missing Line Measurement (MLM) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6-5 6.1.3 Setting Z C[...]

  • Page 10

    8 9.7.2 Loading Data . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9-14 9.7.3 Setting Parameter of Data Communications . . . . . . . . . . . . . . . . . . . . . . . . . . . 9-15 9.8 Initialization . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .[...]

  • Page 11

    9 Standard Set Composition 1) GPT -2000 series (with lens cap) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1 each 2) On-board Batter y BT -52QA . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1 each 3) Batter y charger BC-27BR or BC-27CR . . . . . . . . . . . . . . . . . . . . . . . . . 1 each 4) T ool kit with c[...]

  • Page 12

    1-1 1 NOMENCLA TURE AND FUNCTIONS 1 NOMENCLA TURE AND FUNCTIONS 1.1 Nomenclature P oint guide (P oint guide type only) Objective lens Display unit Handgrip locking scre w Instrument center mark Optical plummet telescope Circular lev el Tr ibrach fi xing le v er Base Adjustment screw f or circular lev el Lev eling scre w (Only for GPT -2003/ 2005) [...]

  • Page 13

    1-2 1 NOMENCLA TURE AND FUNCTIONS *The position of vertical motion clamp and V er tical tangent screw will diff er depending on the market. Sighting collimator T elescope focusing knob T elescope grip T elescope ey epiece *V er tical motion clamp *V er tical tangent screw Plate lev el Display unit Horizontal motion clamp Horizontal tangent screw In[...]

  • Page 14

    1-3 1 NOMENCLA TURE AND FUNCTIONS 1.2 Display ● Display The display uses a dot matrix LCD which has 4 lines and 20 characters per line. In general, the upper three lines display measured data, and the bottom line displa ys the soft k ey function which changes with the measuring mode. ● Contrast and Illumination The contrast and illumination of [...]

  • Page 15

    1-4 1 NOMENCLA TURE AND FUNCTIONS 1.3 Operating Ke y 1.4 Function Ke y (Soft K ey) The Soft K ey message is displa y ed at the bottom line of display . The functions are according to the display ed message. Keys Name of Key Function Coordinate meas.k ey Coordinate measurement mode Distance meas.k ey Distance measurement mode. ANG Angle meas.k ey An[...]

  • Page 16

    1-5 1 NOMENCLA TURE AND FUNCTIONS Angle measurement Distance measurement mode Coordinate measurement mode Pag e Soft key Displa y mark Function 1 F1 0SET Angle of Horizontal is set to 0°00'00" F2 HOLD Hold the horizontal angle F3 HSET Sets a required horizontal angle by entering numerals. F4 P1 ↓ The function of soft ke ys is shown on [...]

  • Page 17

    1-6 1 NOMENCLA TURE AND FUNCTIONS 1.5 Serial signal RS-232C connector The serial signal connector is used for connecting the GPT -2000 ser ies with a computer or T OPCON Data Collector , which enab les the computer to receive measured data from the GPT -2000 ser ies or to send preset data of horizontal angle, etc. to it. ● The follo wing data wil[...]

  • Page 18

    2-1 2 PREP ARA TION FOR MEASUREMENT 2 PREP ARA TION FOR MEASUREMENT 2.1 P ower Connection (unnecessary if on-board Ni-MH battery BT -52QA is used) See below f or connecting the e xternal batter y pack. ● Battery pack BT -3Q Po w er cord , PC-5 is used. ● Large capacity battery pack BT -3L Po w er cord PC-6 is used. Connector ends PC-5 PC-6 PC-5[...]

  • Page 19

    2-2 2 PREP ARA TION FOR MEASUREMENT 2.2 Setting Instrument Up For Measurement Mount the instrument to the tr ipod. Lev el and center the instrument precisely to insure the best performance. Use tripods with a tr ipod screw of 5/8 in. diameter and 11 threads per inch, such as the T ype E T OPCON wide- frame w ooden tripod. 1. Setting up the T ripod [...]

  • Page 20

    2-3 2 PREP ARA TION FOR MEASUREMENT 2.3 P ower Switch Ke y ON 1 Con fi rm the instrument is le veled. 2 Press the power k ey .. ● Con fi rm the battery power remaining display . Replace with charged battery or charge when batter y le vel is lo w or indicates “Battery empty”. see Section 2.4“Batter y P ower Remaining Displa y” . ● Cont[...]

  • Page 21

    2-4 2 PREP ARA TION FOR MEASUREMENT 2.4 Battery P o wer Remaining Display Batter y po wer remaining displa y indicates the power condition. Note: 1 The batter y operating time will v ary depending on the environmental conditions such as ambient temperature, charging time , the number of times of charging and discharging etc. It is recommended for s[...]

  • Page 22

    2-5 2 PREP ARA TION FOR MEASUREMENT 2.5 V er tical and Horizontal Angle Tilt Correction (GPT -2009 has vertical angle tilt correction only .) When the tilt sensors are activated, automatic correction of v er tical and horizontal angle f or mislev elment is displa y ed. To ensure a precise angle measurement, tilt sensors must be tur ned on. The disp[...]

  • Page 23

    2-6 2 PREP ARA TION FOR MEASUREMENT ● Setting Tilt Correction by Soft Key To enable you to select tilt ON/OFF function. setting is not memor ized after po wer is OFF . [Example] Setting X,Y Tilt OFF Operating procedure Option Display 1 Press [F4] ke y to get the function page 2. [F4] 2 Press [F1](TIL T) key . In case ON is already selected, the d[...]

  • Page 24

    2-7 2 PREP ARA TION FOR MEASUREMENT 2.6 How to Enter Alphan umeric character s This enables y ou to enter alphanumeric characters such as the instrument height, pr ism height, occupied point, backsight point etc.. ● How to select a item [Example setting] Occupied point in the data collection mode. ● How to enter character s The arrow indicates [...]

  • Page 25

    2-8 2 PREP ARA TION FOR MEASUREMENT ● To correct a character , mo v e the cursor to correct character b y pressing [ ] or [ ] key and enter again. 2.7 P oint Guide (Only for P oint Guide type) F ast and simple to use, the P oint Guide feature is useful when doing stak e out work. The LED’ s for the P oint Guide System on the instrument telescop[...]

  • Page 26

    2-9 2 PREP ARA TION FOR MEASUREMENT 2.8 Laser Plummet ON/OFF (Only f or Laser Plummet type) Laser plummet option will help you to center the instrument easily onto the measurement point. There are two wa ys to turn on/off of laser plummet option as follows . ● On/Off of laser plummet option by Soft Ke y in Tilt Correction ● On/Off of laser plum[...]

  • Page 27

    3-1 3 ANGLE MEASUREMENT 3 ANGLE MEASUREMENT 3.1 Measuring Horizontal Angle Right and V er tical Angle Make sure the mode is in Angle measurement. Operating procedure Operation Display 1 Collimate the 1st target (A). Collimate A 2 Set horizontal angle of target A at 0° 00' 00". Press the [F1](0 set) ke y and press the [F3](YES) key . [F1][...]

  • Page 28

    3-2 3 ANGLE MEASUREMENT 3.2 Switching Horizontal Angle Right/Left Make sure the mode is Angle measurement. 3.3 Measuring from the Required Horizontal Angle 3.3.1 Setting by Holding the Angle Make sure the mode is angle measurement . Operating procedure Operation Display 1 Press the [F4]( ↓ ) ke y twice to get the function on page 3. [F4] twice 2 [...]

  • Page 29

    3-3 3 ANGLE MEASUREMENT 3.3.2 Setting a Horizontal Angle from the K eys Make sure the mode is Angle measurement . 3.4 V er tical Angle P er cent Grade(%) Mode Make sure the mode is Angle measurement . Operating procedure Operation Display 1 Collimate the target. Collimate 2 Press the [F3](HSET) ke y . [F3] 3 Input the required horizontal angle by u[...]

  • Page 30

    3-4 3 ANGLE MEASUREMENT 3.5 Repetition Angle Measurement ● Repetition angle measurement can be done by horizontal angle right measurement mode. Make sure the mode is Horizontal Angle Right measurement. Operating procedure Operation Display 1 Press the [F4]( ↓ ) ke y to get the function on page 2. [F4] 2 Press the [F2](REP)ke y . [F2] 3 Press th[...]

  • Page 31

    3-5 3 ANGLE MEASUREMENT 3.6 Buzzer Sounding for Horizontal Angle 90° Increments When the horizontal angle falls in the r ange of less than ± 1° of 0°, 90°, 180° or 270°, the buzzer sounds. Buzzer stops only when the horizontal angle is adjusted to 0°00’00”, 90°00’00” , 180°00’00” or 270°00’00”. This setting is not memoriz[...]

  • Page 32

    3-6 3 ANGLE MEASUREMENT 3.7 Compasses ( vertical angle) Ve r tical angle is display ed as shown below . Operating procedure Operation Display 1 Press the [F4]( ↓ ) ke y twice to get the function on page 3. [F4] twice 2 Press the [F3](CMPS) ke y . *1) [F3] *1) Every time pressing the [F3](CMPS) key , the displa y mode switches . +90° -90° 0° 0?[...]

  • Page 33

    4-1 4 DIST ANCE MEASUREMENT 4 DIST ANCE MEASUREMENT ● Prism mode and Non-prism mode In GPT -2000 series, the distance measurement will be done using invisib le pulse laser beam emitted from pulse laser diode. Y ou can select measurement mode between Prism mode which collimating a prism and Non-pr ism mode that is collimating a target object e xce[...]

  • Page 34

    4-2 4 DIST ANCE MEASUREMENT 4.3 Distance Measurement (Continuous Measurement) Make sure the mode displa ys angle measurement. Operating procedure Operation Display 1 Collimate the center of prism. Collimate P 2 Press the [ ] ke y . Distance measurement star ts. *1),2) [ ] The measured distances are shown. *3)~*5) ● Pressing the [ ] ke y again, th[...]

  • Page 35

    4-3 4 DIST ANCE MEASUREMENT 4.4 Distance Measurement (N-time Measurement/Single Measurement) When the number of times measurement is preset, the GPT -2000 series measures the distance the set number of times. The a ver age distance will be display ed. When presetting the number of times as 1, it does not display the a v erage distance, because of s[...]

  • Page 36

    4-4 4 DIST ANCE MEASUREMENT ● Choose meter /feet / feet+inch unit b y soft key It is possible to change the unit f or distance measurement mode by soft k ey . This setting is not memorized after power off . Refer to 16 “SELECTING MODE” to set at the initial setting (memorized after power off). 4.5 Fine Mode/T racking Mode/Coar se Mode This se[...]

  • Page 37

    4-5 4 DIST ANCE MEASUREMENT 4.6 Stake Out (S.O) The difference betw een the measured distance and the input stake out distance is displa yed. Measured distance — Stake out distance = Displayed v alue ● In stake out operation, y ou can select either horizontal distance (HD), relative ele v ation (VD) and slope distance (SD) Operating procedure O[...]

  • Page 38

    4-6 4 DIST ANCE MEASUREMENT 4.7 Offset Measurement There are four offset measurement modes in the Offset Measurement. ● Angle offset ● Distance offset ● Plane offset ● Column offset To show the offset measurement menu, press the [OFSET] soft key from distance or coordinate measurement mode. ● Outputting the Measurement Data The results of[...]

  • Page 39

    4-7 4 DIST ANCE MEASUREMENT 4.7.1 Angle Offset This mode is useful when it is dif fi cult to set up the prism directly , for e xample at the center of a tree. Place the prism at the same hor izontal distance from the instrument as that of point A0 to measure. To measure the coordinates of the center position, operate the offset measurement after s[...]

  • Page 40

    4-8 4 DIST ANCE MEASUREMENT The horizontal distance from the instrument to the prism will be measured. 5 Collimate point A 0 using the horizontal motion clamp and horizontal tangent screw . Collimate A 0 6 Show the relativ e ele vation of point A 0 . [ ] 7 Show the slope distance of point A 0 . ● Each time pressing the [ ] ke y , horizontal dista[...]

  • Page 41

    4-9 4 DIST ANCE MEASUREMENT 4.7.2 Distance Offset Measurement Measuring distance and coordinate of the center of a pond or a tree of which the radius is known. Measuring the distance or coordinate till P0 point, input oHD value as an offset value and measure P1 point showing as f ollowing dr aw in distance offset measurement. The displa y shows dis[...]

  • Page 42

    4-10 4 DIST ANCE MEASUREMENT After measuring, the result added offset value will be shown. 6 Show the relativ e ele vation of point P0. ● Each time pressing the [ ] ke y , horizontal distance, relativ e ele v ation and slope distance are shown in sequence. [ ] ● Show coordinate of point P0. [] ● To retur n to procedure 4 , press [F1](NEXT) ke[...]

  • Page 43

    4-11 4 DIST ANCE MEASUREMENT 4.7.3 Plane Offset Measurement Measuring will be taken f or the place where direct measuring can not be done, f or e xample distance or coordinate measuring for a edge of a plane. Three random prism points (P1, P2, P3) on a plane will be measured at fi rst in the plane offset measurement to determine the measured plane[...]

  • Page 44

    4-12 4 DIST ANCE MEASUREMENT 6 Measure the second and third points in the same way . Collimate P2 [F1] Collimate P3 [F1] The instrument calculates and displays coordinate and distance value of cross point between collimation axis and of the plane. *1),2) 7 Collimate the edge (P0) of the plane. *3) ,4) Collimate P0 8 To show the slope distance (SD),[...]

  • Page 45

    4-13 4 DIST ANCE MEASUREMENT 4.7.4 Column Offset Measurement If it is possible to measure circumscription point (P1) of column directly , the distance to the center of the column (P0), coordinate and direction angle can be calculated by measured circumscription points (P2) and (P3). The direction angle of the center of the column is 1/2 of total di[...]

  • Page 46

    4-14 4 DIST ANCE MEASUREMENT 6 Collimate the center of the column (P1) and press the [F1](MEAS) ke y . N-time measuring will star t. After the measurement, angle measuring display of the left side (P2) will be shown. Collimate P1 [F1] 7 Collimate the left side of the column (P2) and press the [F4](SET) ke y . After the measurement, angle measuring [...]

  • Page 47

    5-1 5 COORDINA TE MEASUREMENT 5 COORDINA TE MEASUREMENT 5.1 Setting Coordinate V alues of Occupied P oint Set the coordinates of the instrument (occupied point) according to coordinate or igin, and the instrument automatically converts and displays the unknown point (prism point) coordinates f ollowing the origin. It is possible to retain the coord[...]

  • Page 48

    5-2 5 COORDINA TE MEASUREMENT 5.2 Setting Height of the Instrument It is possible to retain the height of instrument after tur ning the po wer off . Refer to Chapter 16 “SELECTING MODE”. 5.3 Setting Height of T arget (Prism Height) This mode can be used to obtain Z coordinate values . It is possible to retain the height of target after turning [...]

  • Page 49

    5-3 5 COORDINA TE MEASUREMENT 5.4 Execution of Coor dinate Measuring Measure the coordinates by entering the instrument height and pr ism height, coordinates of unknown point will be measured directly . ● When setting coordinate values of occupied point, see Section 5.1 “Setting Coordinate V alues of Occupied P oint” ● When setting the inst[...]

  • Page 50

    6 SPECIAL MODE (Menu Mode) 6-1 6 SPECIAL MODE (Menu Mode) By pressing the [MENU] ke y , the instr ument will be in MENU mode. In this mode, special measuring , setting and adjustment are possible. "D A T A COLLECTION MODE" Normal measurement mode "LA Y OUT MODE" "MEMOR Y MANA GER MODE" MENU 1/3 F1:DATA COLLECT F2:LAYOU[...]

  • Page 51

    6 SPECIAL MODE (Menu Mode) 6-2 6.1 Application Measurement (PROGRAMS) 6.1.1 Remote Elev ation measurement (REM) To obtain elevation of the point at which setting the target prism is not possible , place the prism at any point on the vertical line from the target then carr y out REM procedure as follo ws. 1) With prism height (h) input (Example :h=1[...]

  • Page 52

    6 SPECIAL MODE (Menu Mode) 6-3 2) Without prism height input Horizontal distance (HD) between the instrument and prism will be shown. 8 Collimate target K. Ve r tical distance (VD) will be shown. *2),3) Collimate K *1) Refer to Section 2.6 “How to Enter Alphanumeric characters”. *2) T o retur n to procedure 5 , press the [F2](R.HT) k ey . To re[...]

  • Page 53

    6 SPECIAL MODE (Menu Mode) 6-4 The prism position will be decided. 7 Collimate ground point G. Collimate G 8 Press the [F4](SET) ke y . The position of point G will be decided. *1) [F4] 9 Collimate target K. Ve r tical distance (VD) will be shown. *2) Collimate K *1) T o retur n to procedure 5 , press the [F3](HD) k ey . To retur n to procedure 7 ,[...]

  • Page 54

    6 SPECIAL MODE (Menu Mode) 6-5 6.1.2 Missing Line Measurement (MLM) Measurement for horizontal distance (dHD), slope distance (dSD), ele v ation (dVD) and horizontal bearing (HR) between two target prisms. It is possible to enter the coordinate v alue directly or calculate from coordinate data fi le. MLM mode has two modes. 1: MLM-1 (A-B , A-C) :M[...]

  • Page 55

    6 SPECIAL MODE (Menu Mode) 6-6 5 Press the [F1] or [F2] ke y to select using GRID F ACT OR. [Example:F2 : DON’T USE] [F2] 6 Press the [F1] ke y . [F1] 7 Collimate prism A, and press the [F1](MEAS) key . Horizontal distance (HD) between the instrument and prism A will be shown. Collimate A [F1] The prism position will be decided. 8 Collimate prism[...]

  • Page 56

    6 SPECIAL MODE (Menu Mode) 6-7 ● How to use coor dinate data It is possible to input coordinate v alue directly or calculate from coordinate data fi le The horizontal distance (dHD) and relative elev ation (dVD) between prism A and C . 12 To measure the distance between points A and D , repeat procedure 12 to14. *1) *1) T o retur n to pre vious [...]

  • Page 57

    6 SPECIAL MODE (Menu Mode) 6-8 6.1.3 Setting Z Coordinate of Occupied P oint Occupied point coordinate data and known point actual measuring data are utilized, z coordinate of occupied point is calculated and reset again. Known point data and coordinate data can use the coordinate data fi le. 1) Setting occupied coordinate [Example setting] Using [...]

  • Page 58

    6 SPECIAL MODE (Menu Mode) 6-9 2) Z Coordinate Calculation fr om Kno wn P oint Measuring Data [Example setting] Using coordinate data fi le Operating procedure Operation Display 1 After pressing [MENU] ke y , press [F4](P ↓ ) ke y to get the menu on page 2. [MENU] [F4] 2 Press the [F1] ke y . [F1] 3 Press the [F3](Z COORD .) key . [F3] 4 Press t[...]

  • Page 59

    6 SPECIAL MODE (Menu Mode) 6-10 11 Press the [F4](CALC) ke y .*2) Z : Z coordinate dZ: Standard de viation [F4] 12 Press the [F4](SET) ke y . *3) Z coordinate of the occupied point will be set. Bascksight point measuring screen will be shown. [F4] 13 Press the [F3](YES) ke y . Horizontal angle will be set. The display returns to Programs 1/2 menu. [...]

  • Page 60

    6 SPECIAL MODE (Menu Mode) 6-11 6.1.4 Area Calculation This mode calculate the area of a closed fi gure. There are two area calculation methods as f ollows. 1) Area Calculation from Coordinate data fi le 2) Area Calculation from Measured data ● Area is not calculated correctly if enclosed lines cross each other . ● It is impossible to calcula[...]

  • Page 61

    6 SPECIAL MODE (Menu Mode) 6-12 2) Area Calculation from Measured Data When 3 or more points are set, the area surrounded by the points is calculated and the result will be shown. *1) T o set specify point, press the [F1](PT#) key . *2) T o show the list of the coordinate data in the fi le, press the [F2](LIST) k ey . Operating procedure Operation[...]

  • Page 62

    6 SPECIAL MODE (Menu Mode) 6-13 ● To change the display unit It is possible to change the displa y ed area unit. When 3 or more points are measured, the area surrounded by the points is calculated and the result will be shown. *1) Measurement is Fine N-times measurement mode. Operating procedure Operation Display 1 Press the [F3](UNIT) ke y . [F3[...]

  • Page 63

    6 SPECIAL MODE (Menu Mode) 6-14 6.1.5 P oint to Line Measurement This mode is used to obtain the coordinate data with the origin point A(0,0,0) and the line AB as N axis. Place the 2 prisms at the points A and B on the line, and place the instrument at unknown point C. After measuring the 2 pr isms , the coordinate data and the direction angle of t[...]

  • Page 64

    6 SPECIAL MODE (Menu Mode) 6-15 7 Collimate prism P1 (Or igin) and press [F1](MEAS) key . Measuring star ts. *1) Input display of re fl ector B(P2) height will be shown. Collimate P1 [F1] 8 Press [F1](INPUT) ke y and enter re fl ector B(P2) height. [F1] Enter R. HT [F4] 9 Collimate prism B (P2)(Or igin) and press the [F1](MEAS) ke y . Measuring s[...]

  • Page 65

    6 SPECIAL MODE (Menu Mode) 6-16 6.2 Setting the GRID F A CT OR GRID F ACT OR can reset in this menu mode. F or more information, refer to Section 8.1.1”Setting the GRID F ACT OR” Operating procedure Operation Display 1 After pressing the [MENU] ke y , press the [F4](P ↓ ) key to get the menu on page 2. [MENU] [F4] 2 Press the [F2](GRID F ACT [...]

  • Page 66

    6 SPECIAL MODE (Menu Mode) 6-17 6.3 Setting Illumination of Display and Cr oss Hairs Setting ON/OFF/LEVEL (1 to 9) for illumination of displa y (LCD) and reticle. Setting LEVEL (1 to 9) is only for reticle . [Example setting] LEVEL:2 and tur n on the illumination. Operating procedure Operation Display 1 After pressing the [MENU] ke y , press the [F[...]

  • Page 67

    6 SPECIAL MODE (Menu Mode) 6-18 6.4 Setting Mode 1 In this mode, the f ollowing settings are possib le. 1. Setting Minimum Reading 2. Auto P o wer off 3. V er tical and Horizontal Angle Tilt Correction (Tilt ON/OFF) (GPT -2009 has v er tical angle tilt correction only .). 4. Systematic Error of Instr ument Correction (GPT -2003/2005/2006) 5. Select[...]

  • Page 68

    6 SPECIAL MODE (Menu Mode) 6-19 6.4.2 A uto P o wer Off If no ke y operation is giv en or no process of measurement is performed for more than 30 min utes ( No change exceeding 30” has occurred dur ing horizontal angle or v er tical angle measurement.), the power turns off automatically . If the instrument is set at distance measurement mode ( No[...]

  • Page 69

    6 SPECIAL MODE (Menu Mode) 6-20 6.4.3 V ertical and Horizontal Angle Tilt correction ( Tilt ON/OFF) (GPT -2009 has vertical angle tilt correction only .) In case the instrument is used in an unstable situation, constant indexing of v ertical and hor izontal angle may be impossib le. In this case, the function of tilt correction can be stopped by se[...]

  • Page 70

    6 SPECIAL MODE (Menu Mode) 6-21 6.4.5 Selecting Battery T ype On-board batter y BT -32Q can be also availab le f or GPT -2000 ser ies. When you use BT -32Q (Ni-Cd) batter y , select [Ni-Cd] type of batter y in this parameters 1 menu. If you select wrong type of battery , the batter y remaining displa y ma y work incorrectly . BT -52QA : Ni-MH batte[...]

  • Page 71

    7 D A T A COLLECTION 7-1 7D ATA COLLECTION The GPT -2000 is ab le to store the measured data into the inter nal memory . The internal memor y is shared by the measured data fi les and the coordinate data fi les. ● Measured data The collected data is memorized into a fi les. ● The number of measurement points ( In case not using the inter nal[...]

  • Page 72

    7-2 7 D A T A COLLECTION ● Data collect menu operation By pressing the [MENU] ke y , the instr ument will be in MENU 1/3 mode. Press the [F1](D A T A COLLECT) ke y , the menu of data collect 1/2 will be shown. [ESC] [MENU] [F1] Normal measurement mode MENU 1/3 F1:DATA COLLECT F2:LAYOUT F3:MEMORY MGR. P ↓ SELECT A FILE FN: INPUT LIST ––– E[...]

  • Page 73

    7 D A T A COLLECTION 7-3 7.1 Preparation 7.1.1 Selecting a File for Data Collection A fi le used by data collection mode must be selected at fi rst. Select a fi le before beginning data collection mode because selection screen of a fi le is displa y ed. And a selection from data collection menu is possible in the mode . Operating procedure Oper[...]

  • Page 74

    7-4 7 D A T A COLLECTION 7.1.2 Selecting a Coordinate File f or Data Collection When coordinate data in a coordinate data fi le are used for occupied point or bac ksight point, select a coordinate fi le from the data collect menu 2/2 beforehand. 7.1.3 Occupied P oint and Bac ksight P oint The occupied point and direction angle in the data collect[...]

  • Page 75

    7 D A T A COLLECTION 7-5 4 Press the [F3](YES) ke y . [F3] 5 Enter ID , INS.HT in the same wa y . *2),3) 6 Press [F3](REC) ke y . Enter ID , INS.HT [F3] 7 Press [F3](YES) ke y . The display returns to the data collect menu 1/2. [F3] *1) Refer to Section 2.6 “How to Enter Alphanumeric characters”. *2) ID can be input by inputting a register numb[...]

  • Page 76

    7-6 7 D A T A COLLECTION ● Example for setting the direction angle: The follo wing is to memorize the data of the backsight after setting the bac ksight point from point number . Operating procedure Operation Display 1 Press the [F2](BACKSIGHT) k e y from the data collect menu 1/2. The previous data is sho wn. [F2] 2 Press the [F4] (BS) ke y . *1[...]

  • Page 77

    7 D A T A COLLECTION 7-7 7.2 Operational Procedure of “DA T A COLLECT” Operating procedure Operation Display 1 Press the [F3](FS/SS) ke y from the data collect menu 1/2. The previous data is sho wn. [F3] 2 Press the [F1](INPUT) ke y and enter PT#. Press the [F4](ENT) ke y . *1) [F1] Enter PT# [F4] 3 Enter PCODE, R.HT in the same wa y . *2),3) 4[...]

  • Page 78

    7-8 7 D A T A COLLECTION 7.2.1 Searc hing the recorded data While ex ecuting the DA T A COLLECT mode, y ou can search the recorded data. 7.2.2 Entering PCODE / ID using PCODE Library While ex ecuting the DA T A COLLECT mode, y ou can enter PCODE /ID from PCODE Librar y . *1) Refer to Section 2.6 “How to Enter Alphanumeric characters”. *2) PCODE[...]

  • Page 79

    7 D A T A COLLECTION 7-9 7.2.3 Entering PCODE / ID from the list of PCODE Y ou can also enter PCODE / ID from the list of PCODE. Operating procedure Operation Display 1 Mov e the arrow to the PCODE or ID in the D A T A COLLECT mode, press the [F2](SRCH) ke y . [F2] 2 By pressing the follo wing ke ys, the register number will increase or decrease. [[...]

  • Page 80

    7-10 7 D A T A COLLECTION 7.3 Data Collect Offset Measurement mode This mode is useful when it is dif fi cult to set up the prism directly , for e xample at the center of a tree. Data Collect . Offset Measurement has two measur ing methods. ● Angle offset measurement ● Distance offset measurement ● Plane offset measurement ● Column offset [...]

  • Page 81

    7 D A T A COLLECTION 7-11 5 Press the [F1](MEAS) ke y . Continuous measuring star ts. [F1] 6 Collimate point A0 using the horizontal motion clamp and horizontal tangent screw . Collimate A 0 7 Show the horizontal distance of point A0. [] 8 Show the relativ e ele vation of point A0. ● Each time pressing [ ] ke y , hor izontal distance , relative e[...]

  • Page 82

    7-12 7 D A T A COLLECTION 7.3.2 Distance Offset Measurement The measurement of a place apar t from a prism is possible by inputting offset horizontal distance of front and back / right and left. When measuring coordinates of ground point A 1 : Set the instrument height / pr ism height. When measuring coordinates of point A 0 : Set the instr ument h[...]

  • Page 83

    7 D A T A COLLECTION 7-13 5 Press the [F1](INPUT) ke y and enter Forw ard direction offset value . *1) [F1] Enter HD [F4] 6 Collimate the prism. Collimate P 7 Press the [F2] or [F3] ke y . Example:[F3](NEZ) ke y Measuring star ts. The data is recorded and the next measuring point is display ed. [F3] *1) T o skip entering, press the [F3](SKP) key . [...]

  • Page 84

    7-14 7 D A T A COLLECTION 7.3.3 Plane Offset Measurement Measuring will be taken f or the place where direct measuring can not be done, f or e xample distance or coordinate measuring for a edge of a plane. Three random points (P1, P2, P3) on a plane will be measured at fi rst in the plane offset measurement to determine the measured plane. Collima[...]

  • Page 85

    7 D A T A COLLECTION 7-15 5 Measure the second and third points in the same way . *1) Collimate P2 [F1] Collimate P3 [F1] The display changes to PT# input in the plane offset measurement. Input point number if necessary . 6 Press the [F4](MEAS) ke y . The instrument calculates and displays coordinate and distance value of cross point between collim[...]

  • Page 86

    7-16 7 D A T A COLLECTION 7.3.4 Column Offset Measurement If it is possible to measure circumscription point (P1) of column directly , the distance to the center of the column (P0), coordinate and direction angle can be calculated by measured circumscription points (P2) and (P3). The direction angle of the center of the column is 1/2 of total direc[...]

  • Page 87

    7 D A T A COLLECTION 7-17 7.4 NEZ A uto Calculation As measured data is collected, coordinates are calculated and stored for tra v erse or topo collection. A utomatic making out function of coordinate data sets up in CONFIG of data collect. Ref er to Section 7.6 “Setting P arameter of Data Collect [CONFIG.]”. As a default, coordinate data calcu[...]

  • Page 88

    7-18 7 D A T A COLLECTION 7.5 Editing PCODE Library [PCODE INPUT] PCODE data can be entered into PCODE Librar y in this mode . A PCODE is liked with a number of 1 to 50. PCODE can be also edited in MEMOR Y MANA GER menu 2/3 in the same wa y . Operating procedure Operation Display 1 Press the [F2](PCODE INPUT) ke y from Data Collect menu 2/2. [F2] 2[...]

  • Page 89

    7 D A T A COLLECTION 7-19 7.6 Setting P arameter of Data Collect [CONFIG.] In this mode, the f ollowing settings of data collect mode are possib le. ● Setting Items ● How to Set Items Example Setting: D A T A CONFIRM : YES Menu Selecting Item Contents F1:DIST MODE FINE / CRS(1) / CRS(10) Select Fine /Coarse(1) /Coarse(10) mode in distance measu[...]

  • Page 90

    8 LA Y OUT 8-1 8L AY OUT LA Y OUT mode has two functions which are setting of layout points and setting ne w points using coordinate data in the inter nal memory . Also , if the coordinate data is not stored in the internal memor y , this can be input from ke y board. The coordinate data is loaded from PC to the inter nal memory via RS-232C. ● Th[...]

  • Page 91

    8 LA Y OUT 8-2 ● Lay out menu operation By pressing the [MENU] ke y , the instr ument will be in MENU 1/3 mode. Press the [F2](LA Y OUT) key , the menu of lay out 1/2 will be shown. [MENU] [F2] Normal measurement mode MENU 1/3 F1:DATA COLLECT F2:LAYOUT F3:MEMORY MGR. P ↓ SELECT A FILE FN:_________ INPUT LIST SKP ENTER Selecting a file for LAYOU[...]

  • Page 92

    8 LA Y OUT 8-3 8.1 Preparation 8.1.1 Setting the GRID F A CT OR ● Calculation Formula 1) Elev ation F actor 2) Scale F actor Scale F actor : Scale F actor at the surveying station 3) Grid F actor Grid F actor = Elevation F actor × Scale F actor Distance Calculation 1) Grid Distance 2) Ground Distance ● How to Set Grid F actor Operating procedu[...]

  • Page 93

    8 LA Y OUT 8-4 8.1.2 Selecting Coordinate Data File Y ou can e x ecute a La yout from selected coordinate data fi le , also you can record Ne w point measured data into the selected coordinate data fi le. ● The only coordinate data fi le existing can be selected and y ou can not make a ne w fi le in this mode. F or more information about File[...]

  • Page 94

    8 LA Y OUT 8-5 8.1.3 Setting Occupied P oint Occupied point can be set by two setting methods as f ollo w . 1) Setting from the coordinate data stored in the inter nal memory . 2) Direct ke y input of coordinate data. ● Example setting :Setting the occupied point from the inter nal coordinate data fi le Operating procedure Operation Display 1 Pr[...]

  • Page 95

    8 LA Y OUT 8-6 ● Example setting :Setting Instrument point coordinates directly Operating procedure Operation Display 1 Press the [F1](OCC.PT INPUT) k e y from the Lay out menu 1/2. The previous data is sho wn. [F1] 2 Press the [F3] (NEZ) ke y . [F3] 3 Press the [F1](INPUT) ke y and enter coordinate value . press the [F4](ENT) ke y . *1) [F1] Ent[...]

  • Page 96

    8 LA Y OUT 8-7 8.1.4 Setting Backsight P oint The follo wing three setting methods f or Backsight point can be selected. 1) Setting from the coordinate data fi le stored in the inter nal memory . 2) Direct ke y input of coordinate data. 3) Direct ke y input of setting angle. ● Example setting :Setting the backsight point from the internal coordi[...]

  • Page 97

    8 LA Y OUT 8-8 ● Example setting: Setting the bac ksight point coordinates directly Operating procedure Operation Display 1 Press the [F2](BACKSIGHT) k e y from the Lay out menu 1/2. The previous data is sho wn. [F2] 2 Press the [F3] (NE/AZ) ke y . [F3] 3 Press the [F1](INPUT) ke y and enter coordinate value . Press the [F4](ENT) ke y . *1) , 2) [...]

  • Page 98

    8 LA Y OUT 8-9 8.2 Executing a La y out The follo wing methods can be selected f or e xecuting a La y out: 1) Recalling points from inter nal memory by point number . 2) Direct ke y input of coordinate values . Example setting : Recalling point from internal memor y . Operating procedure Operation Display 1 Press the [F3](LA Y OUT) key from the la [...]

  • Page 99

    8 LA Y OUT 8-10 ● P oint Guide Function (Onl y for P oint Guide type) The point guide function can be used while ex ecuting a La y out. 7 When the display v alue dHR, dHD and dZ are equal to 0, the lay out point is estab lished.*3 ) 8 Press the [F2](NEZ) ke y . The coordinate data is shown. [F2] 9 Press the [F4](NEXT) ke y to set ne xt lay out po[...]

  • Page 100

    8 LA Y OUT 8-11 8.3 Setting a New P oint New point is required f or e xample when a la yout point cannot be sighted from e xisting control points. 8.3.1 Side Shot Method Set up the instrument at a known point, and measure the coordinate of the new points by the side shot method Operating procedure Operation Display 1 Press the [F4]( ↓ ) ke y from[...]

  • Page 101

    8 LA Y OUT 8-12 6 Press the [F4](ENTER) ke y . The fi le will be set . [F4] 7 Press the [F1](INPUT) ke y , and enter the new point name. *4) Press the [F4](ENT) ke y . [F1] Enter PT# [F4] 8 Enter re fl ector height in the same wa y . [F1] Enter R.HT [F4] 9 Collimate the new point, and press the [F1] (MEAS) ke y . Distance measuring star ts. Colli[...]

  • Page 102

    8 LA Y OUT 8-13 8.3.2 Resection Method Set up the instrument at a new point, and calculate the coordinate of the new point using the coordinate data of maximum se ven kno wn points and the measurements made to these points. By follo wing observation, resection is possible . • Resection by distance measurement:2 or more points must be measured •[...]

  • Page 103

    8 LA Y OUT 8-14 5 Enter instrument height in the same way . [F1] Enter INS.HT [F4] 6 Enter the known point A number . *3) [F1] Enter PT# [F4] 7 Enter re fl ector height. [F1] Enter R.HT [F4] 8 Collimate the known point A, and press the [F1](ANG) or [F2](DIST) ke y . Example:[F2](DIST) Distance measuring star ts. Known point B entering display will[...]

  • Page 104

    8 LA Y OUT 8-15 13 Press the [F4](CALC) ke y . *6) Standard Deviation will be sho wn. Unit : (sec.) or (mGON) or (mMIL) [F4] 14 Press the [F2]( ↓ ) ke y . Standard Deviations of each coordinate will be shown. Unit : (mm) or (inch) The display will be changed alternately by pressing [F2]( ↓ ) or ( ↑ ) ke y . [F2] 15 Press the [F4](NEZ) ke y . [...]

  • Page 105

    8 LA Y OUT 8-16 ● Viewing PT# LIST Y ou can see the PT# List and enter the data from the List, also you can see coordinate data of a point. [Example: Ex ecuting La yout Mode] Operating procedure Operation Display 1 While ex ecuting the LA Y OUT mode, press the [F2](LIST) ke y . The arrow( → ) indicates selected data. [F2] 2 By pressing the foll[...]

  • Page 106

    9 MEMOR Y MANA GER MODE 9-1 9 MEMOR Y MANA GER MODE The follo wing items f or internal memor y are av ailable in this mode . 1) FILE ST A TUS : Checking the number of stored data / Remaining internal memor y capacity . 2) SEARCH : Searching the recorded data. 3) FILE MAINT AN. : Deleting fi les / Editing fi le name 4) COORD . INPUT : Inputting co[...]

  • Page 107

    9 MEMOR Y MANA GER MODE 9-2 9.1 Display Internal Memory Status This mode is used to check the internal memor y status. Operating procedure Operation Display 1 Press the [F3](MEMOR Y MGR. ) key from the menu 1/3. [F3] 2 Press the [F1](FILE ST A TUS) key . The total number of stored measured data fi les and coordinate l fi les are shown. [F1] Remai[...]

  • Page 108

    9 MEMOR Y MANA GER MODE 9-3 9.2 Searc hing Data This mode is used to search the recorded fi le data in the D A T A COLLECT or LA Y OUT mode. The follo wing 3 search methods in each type of fi les can be selected. 1: First data search 2: Last data search 3: Point n umber search(MEAS.D A T A, COORD .D A T A) Number search (PCODE LIB.) MEAS. D A T A[...]

  • Page 109

    9 MEMOR Y MANA GER MODE 9-4 ● To edit the data in searc hing mode P oint name (PT#, BS#) , ID , PCODE and Height data (INS.HT , R.HT) can be corrected in the searching mode. Measured value can not be corrected. Operating procedure Operation Display 1 Press the [F1](EDIT) ke y from last page of display ed data. [F1] 2 Select the item to correct by[...]

  • Page 110

    9 MEMOR Y MANA GER MODE 9-5 9.2.2 Coordinate Data Sear ching Example searching :P oint number searching Operating procedure Operation Display 1 Press the [F3](MEMOR Y MGR.) k ey from the menu 1/3. [F3] 2 Press the [F2](SEARCH) ke y . [F2] 3 Press the [F2](COORD . D A T A) ke y . [F2] 4 Press the [F1](INPUT) ke y and enter File Name. Press the [F4]([...]

  • Page 111

    9 MEMOR Y MANA GER MODE 9-6 9.2.3 PCODE LIBRAR Y Sear ching Example searching :Number searching Operating procedure Operation Display 1 Press the [F3](MEMOR Y MGR.) k ey from the menu 1/3. [F3] 2 Press the [F2](SEARCH) ke y . [F2] 3 Press the [F3](PCODE LIB.) k ey . [F3] 4 Press the [F3](No . SEARCH) key . [F3] 5 Press the [F1](INPUT) ke y and ente[...]

  • Page 112

    9 MEMOR Y MANA GER MODE 9-7 9.3 FILE MAINTENANCE In this mode, the f ollowing items are a v ailable . Renaming fi le name / Searching data in a fi le / Deleting fi les ● FILE MAINT AN. menu Pressing [F3](FILE MAINT AN.) ke y from MEMOR Y MANA GER menu 1/3, fi le list will be shown. • File discrimination mar k (*,@,&) File discrimination[...]

  • Page 113

    9 MEMOR Y MANA GER MODE 9-8 9.3.1 Rename a File An existing fi le in internal memor y can be renamed. 9.3.2 Searc hing Data in a File An existing fi le in internal memor y can be searched. Operating procedure Operation Display 1 Press the [F3](FILE MAINT AN.) key from the Memor y manager menu 1/3. [F3] 2 Select a fi le by pressing [ ]or[ ] k e y[...]

  • Page 114

    9 MEMOR Y MANA GER MODE 9-9 9.3.3 Deleting a File This mode erases a fi le from internal memor y . Only one fi le can be erased at a time. Operating procedure Operation Display 1 Press the [F3](FILE MAINT AN.) key from the Memor y manager menu 1/3. [F3] 2 Select a fi le to delete by pressing [ ]or[ ] k e y . [ ]or[ ] 3 Press the [F3](DEL) ke y .[...]

  • Page 115

    9 MEMOR Y MANA GER MODE 9-10 9.4 Coordinate Data Direct K e y Input Coordinate data for the la y out point or control point can be input directly from the ke yboard. This data can be stored into a fi le in the internal memor y . Operating procedure Operation Display 1 Press the [F3](MEMOR Y MGR.) k ey from the menu 1/3. [F3] 2 Press the [F4](P ↓[...]

  • Page 116

    9 MEMOR Y MANA GER MODE 9-11 9.5 Delete a Coordinate Data fr om a File Coordinate data in a fi le can be erased. Operating procedure Operation Display 1 Press the [F3](MEMOR Y MGR.) k ey from the menu 1/3. [F3] 2 Press the [F4](P ↓ ) ke y . [F4] 3 Press the [F2](DELETE COORD .) key . [F2] 4 Press the [F1](INPUT) ke y and enter File Name. Press t[...]

  • Page 117

    9 MEMOR Y MANA GER MODE 9-12 9.6 Editing PCODE Library PCODE data can be entered into PCODE Librar y in this mode . A PCODE is linked with a number of 1 to 50 PCODE can be also edited in D A T A COLLECT menu 2/3 in the same wa y . Operating procedure Operation Display 1 Press the [F3](MEMOR Y MGR. ) key from the menu 1/3. [F3] 2 Press the [F4](P ?[...]

  • Page 118

    9 MEMOR Y MANA GER MODE 9-13 9.7 Data Communications Y ou can send a data fi le stored in the internal memor y to a computer directly . Also , y ou can directly load a coordinate data fi le and PCODE Library data to the inter nal memor y from the computer . 9.7.1 Sending Data Example: Sending a Measured data fi le Operating procedure Operation D[...]

  • Page 119

    9 MEMOR Y MANA GER MODE 9-14 9.7.2 Loading Data Coordinate data fi les and PCODE Library data can be loaded from PC. Example: Loading a coordinate data fi le Operating procedure Operation Display 1 Press the [F3](MEMOR Y MGR.) k ey from the menu 1/3. [F3] 2 Press the [F4](P ↓ ) ke y twice. [F4] [F4] 3 Press the [F1](D A T A TRANSFER) k ey . [F1[...]

  • Page 120

    9 MEMOR Y MANA GER MODE 9-15 9.7.3 Setting P arameter of Data Communications ● Items of the Parameter ● Example Setting Baud rate : 4800 Item Selecting Item Contents F1: Protocol [A CK/NAK], [ONE W A Y] Setting Protocol [A CK/NAK] or [ONE W A Y] communication F2: Baud rate 300, 600, 1200, 2400, 4800, 9600 Setting transfer speed 300/600/1200/240[...]

  • Page 121

    9 MEMOR Y MANA GER MODE 9-16 9.8 Initialization This mode is used to initialize the internal memor y . F ollowing data can be initialized. FILE D A T A :All fi les of measuring data and coordinate data PCODE D A T A: PCODE LIST ALL D A T A: FILE D A T A and PCODE D A T A Note that the follo wing data are not initialized e v en if initialization is[...]

  • Page 122

    10 SET A UDIO MODE 10-1 10 SET A UDIO MODE The light acceptance quantity lev el f or the EDM (SIGNAL), the atmospheric correction value (PPM), correction value of prism constant (PSM) and correction value of non-prism constant (NPM) are display ed in this mode. When re fl ected light from the prism is received a buzz er sounds. This function is go[...]

  • Page 123

    11 SETTING THE PRISM / NON-PRISM CONST ANT V ALUE 11-1 11 SETTING THE PRISM / NON-PRISM CONST ANT V ALUE The prism constant value of T opcon is set to zero. When using prisms other than T opcon’ s, it is necessar y to set the prism constant correction value of that speci fi c prism. Once you set the correction v alue f or prism constant, it is r[...]

  • Page 124

    12 SETTING A TMOSPHERIC CORRECTION 12-1 12 SETTING A TMOSPHERIC CORRECTION The velocity of light through air is not constant and depends on the atmospheric temperature and pressure. The atmospheric correction system of this instr ument corrects automatically when the correction value is set. 15 ° C/59 ° F, and 1013.25hPa / 760mmHg / 29.9 inHg is [...]

  • Page 125

    12 SETTING A TMOSPHERIC CORRECTION 12-2 ● How to Set the Atmospheric Correction V alue Directly Measure the temperature and air pressure to fi nd atmospheric correction value (PPM) from the char t or correction formula. Operating procedure Operation Display 1 Press the [F4] ke y to get the soft k e y page 2 in the distance measurement mode or pa[...]

  • Page 126

    12 SETTING A TMOSPHERIC CORRECTION 12-3 Atmospheric Correction Chart (For your reference) The atmospheric correction value is obtained easily with the atmospheric correction char t. Find the measured temperature in horizontal, and pressure in vertical on the char t. Read the value from the diagonal line , which represents the required atmospheric c[...]

  • Page 127

    12 SETTING A TMOSPHERIC CORRECTION 12-4[...]

  • Page 128

    12 SETTING A TMOSPHERIC CORRECTION 12-5[...]

  • Page 129

    13 CORRECTION FOR REFRACTION AND EAR TH CUR V A TURE 13-1 13 CORRECTION FOR REFRA CTION AND EARTH CUR V A TURE The instrument measures distance, taking into account correction for refraction and earth cur vature . 13.1 Distance Calculation Formula Distance Calculation Formula; with correction for refraction and ear th curvature taken into account. [...]

  • Page 130

    14 POWER SOURCE AND CHARGING 14-1 14 PO WER SOURCE AND CHARGING 14.1 On-board Battery BT -52QA ● To remo ve 1 Push the batter y loc king le ver and pull out the BT -52QA on-board batter y as shown belo w . ● To c harge 1 Plug the charger into the outlet. 2 Connect the charger connector to the batter y , then charging will star t. Preparatory ch[...]

  • Page 131

    14 POWER SOURCE AND CHARGING 14-2 ● To install Place the base of the on-board batter y into the GPT -2000 ser ies, push the on-board battery toward the instrument side till the batter y clicks into position. ● Do not charge or discharge continuously , otherwise the batter y and the charger may be deteriorated. If charging or discharging is nece[...]

  • Page 132

    15 DET ACH/A TT A CH OF TRIBRA CH 15-1 15 DET A CH/A TT A CH OF TRIBRA CH The instrument is easily detached or attached to the tr ibrach, with a tribrach locking le ver loosened or tightened for this purpose. ● Detachment 1 Loosen the tribrach locking le v er , b y re volving it 180° or 200gon in the countercloc kwise direction (which will point[...]

  • Page 133

    16 SELECTING MODE 16-1 16 SELECTING MODE 16.1 Items of the Selecting Mode The follo wing modes are av ailab le. Menu Items Selecting item Display 1: UNIT SET TEMP . & PRES. °C / °F hP a / mmHg / inHg Select the unit of temperature for atmospheric correction. Select the unit of air pressure for atmospheric correction . ANGLE DEG(360°) / GON(4[...]

  • Page 134

    16 SELECTING MODE 16-2 EDM OFF TIME 0-99 The time when EDM is cut off from distance measurement is completed can be changed. This function is effectiv e f or shortening the fi rst time measuring time when distance measurement is star ted from distance measurement completing state. (Default:3min utes) 0 :After completing distance measurement, EDM i[...]

  • Page 135

    16 SELECTING MODE 16-3 *LANGU A GE selection is different in different countries. 16.2 How to Set Selecting Mode <Example> : Setting unit in hP a, °F , NEZ MEMOR Y :ON A CK MODE ST ANDARD / OMITTED Set the procedure of the communication with e xternal device. ST AND ARD:Normal procedure OMITTED:Even though the [A CK] is omitted from the exte[...]

  • Page 136

    16 SELECTING MODE 16-4 7 Press [F3](O THERS SET) ke y . [F3] 8 Press [F4](P ↓ ) ke y , to get the function in page 2 . [F4] 9 Press [F1] ke y . [F1] 10 Press [F1](ON) ke y , and press [F4] (ENTER) key . Returns to OTHERS SET menu. [F1] [F4] 11 Po w er off Po w er OFF OTHERS SET 1/5 F1:H-ANGLE BUZZER F2:S/A BUZZER F3:W-CORRECTION P ↓ OTHERS SET [...]

  • Page 137

    17 CHECK AND ADJUSTMENT 17-1 17 CHECK AND ADJUSTMENT 17.1 Checking and adjusting of instrument constant Normally , the instrument constant does not have discrepancy . It is recommended you measure and compare with an accurately measured distance at a location where the precision is speci fi cally monitored on a consistent basis. If such a location[...]

  • Page 138

    17 CHECK AND ADJUSTMENT 17-2 17.2 Checking the Optical Axis To check if the optical axis of EDM and theodolite are matched, follow the procedure belo w . It is especially impor tant to check after adjustment of the e yepiece reticle is carried out. 1) P osition a prism about more than 150m apar t from GPT -2000 series . 2) After the power s witch O[...]

  • Page 139

    17 CHECK AND ADJUSTMENT 17-3 10) Move the collimating point to the center of prism gradually until b uzzer sound star ts . Tu r ning the horizontal tangent screw to be one to two le v el of SIG v alue to adjust the collimating point same as step 6 procedure. 11) Note hor izontal angle same as step 6 procedure . 12) Calculate the aver age value of s[...]

  • Page 140

    17 CHECK AND ADJUSTMENT 17-4 17.3 Checking/Adjusting the Theodolite Functions ● P ointers on the Adjustment 1) Adjust the ey epiece of the telescope properly pr ior to an y checking operation which in v olves sighting through the telescope. Remember to focus properly , with parallax completely eliminated. 2) Carr y out the adjustments in the orde[...]

  • Page 141

    17 CHECK AND ADJUSTMENT 17-5 17.3.1 Checking /Adjusting the Plate Level Adjustment is required if the axis of the plate lev el is not perpendicular to the ver tical axis. ● Check 1) Place the plate lev el parallel to a line running through the centers of two le v eling scre ws , sa y , A and B. Use these two le v eling screws only and place the b[...]

  • Page 142

    17 CHECK AND ADJUSTMENT 17-6 17.3.3 Adjustment of the V ertical Cross-hair Adjustment is required if the vertical cross-hair is not in a place per pendicular to the horizontal axis of the telescope ( since it must be possible to use an y point on the hair f or measuring horizontal angles or running lines). ● Check 1) Set the instrument up the tr [...]

  • Page 143

    17 CHECK AND ADJUSTMENT 17-7 17.3.4 Collimation of the Instrument Collimation is required to make the line of sight of the telescope perpendicular to the hor izontal axis of the instrument, otherwise, it will not be possible to e xtend a straight line b y direct means. ● Check 1) Set the instrument up with clear sights of about 50 to 60meters (16[...]

  • Page 144

    17 CHECK AND ADJUSTMENT 17-8 17.3.5 Checking / Adjusting the Optical Plummet T elescope Adjustment is required to make the line of sight of the optical plummet telescope coincide with the ver tical axis ( otherwise the vertical axis will not be in the tr ue v er tical when the instrument is optically plumbed). ● Check 1) Coincide the center mark [...]

  • Page 145

    17 CHECK AND ADJUSTMENT 17-9 17.3.6 Checking / Adjusting the Laser Plummet (For Laser Plummet type) ● Check 1) T urn on the laser plummet and coincide the center of the laser with a measur ing point. 2) Rotate the instrument 180° or 200g around the ver tical axis and check the measuring point. If the laser is properly centered in the measur ing [...]

  • Page 146

    17 CHECK AND ADJUSTMENT 17-10 17.3.7 Adjustment of V ertical Angle 0 Datum If when measuring the ver tical angle of target A at telescope position normal (direct) and rev erse settings, the amount of normal and rev erse measurements combined is other than 360° (ZENITH-0), half of the difference from 360° is the error amount from corrected 0 setti[...]

  • Page 147

    17 CHECK AND ADJUSTMENT 17-11 17.4 How to Set the Instrument Constant V alue To set the Instr ument constant which is obtained in Section 17.1 “Chec k and adjusting of instrument constant”, follo w as below . Note: Each of the Prism mode and Non-pr ism mode has instrument constant. Y ou must obtain the instrument constant of prism mode. If you [...]

  • Page 148

    17 CHECK AND ADJUSTMENT 17-12 17.5 Adjustment of Compensation Systematic Error of Instrument (Only for GPT -2003/2005/2006) Operating procedure Operation Display 1 Lev el the instrument properly with the plate lev el. 2 While pressing the [F1] ke y , tur n power s witch ON. [F1] + Po w er ON 3 Press the [F3] ke y . [F3] 4 Press the [F1] ke y . [F1][...]

  • Page 149

    17 CHECK AND ADJUSTMENT 17-13 14 Press the [F4](SET) ke y . Repeat the procedures in step 13 and 14 so that the count of measured times matches to the one in F ACE(2). Then the display returns to main menu. ● To show the constant list of systematic error of instrument 1 Press the [F3] ke y from Adjustment Mode menu 1/ 2. [F3] 2 Press the [F2] ke [...]

  • Page 150

    18 PRECA UTIONS 18-1 18 PRECA UTIONS 1) F or transpor tation, hold b y the handle or yok e of the instrument. Ne v er hold by the lens barrel as it can affect the fi xing br ack et inside and reduce the accuracy of the instrument. 2) Ne ver e xpose the instrument without a fi lter to direct sunlight. It ma y damage the components inside the instr[...]

  • Page 151

    19 SPECIAL ACCESSORIES 19-1 19 SPECIAL A CCESSORIES Data entry keyboard DK-7 Occupied point, coordinate data and other data can be input from DK-7. It is also possible to control GPT -2000 series from DK-7. A uto con verter AC-5 ● Input voltage:12V DC ● Output voltage :DC 8.4V ● Cable length:3m appro x. ● External dimensions: 100(L) × 53(W[...]

  • Page 152

    19 SPECIAL ACCESSORIES 19-2 Mini prism The mini prism (25.4mm) is made from precision ground glass and mounted in high impact plastic housings. ● The mini has the unique capability of being positioned either at a "0" or "–30" with the same prism Prism sets See the description on Chapter 21 "PRISM SYSTEM" Optical pl[...]

  • Page 153

    19 SPECIAL ACCESSORIES 19-3 Aluminum extension leg tripod, T ype E ● Flat head 5/8" × 11 threads with adjustable legs. Wide-frame extension leg tripod, T ype E (W ood) ● Flat head 5/8" × 11 threads with adjustable legs.[...]

  • Page 154

    20 BA TTER Y SYSTEM 20-1 20 B A TTER Y SYSTEM In case of On-board batter y In case of External batter y Pac k BT -3Q BT -3L A C-5 Car batter y BT -52QA GPT -2000 series GPT -2000 series Cord Batter y pac k PC-6 PC-5 PC-3 PC-5 PC-6 Charging BT -52QA Charging time BC-27BR/CR Quick BC-27BR for A C 120V use BC-27CR for A C 230V use BT -32Q BC-19BR/CR Q[...]

  • Page 155

    21 PRISM SYSTEM 21-1 21 PRISM SYSTEM Arrangement according to your needs is possib le. It is possible to change the combination according purpose. Use the abov e prisms after setting them at the same height as the instr uments. T o adjust the height of prism set, change the position of 4 fi xing screws. T arget pole-2 (not used with 9 prisms) Pris[...]

  • Page 156

    22 ERROR DISPLA YS 22-1 22 ERR OR DISPLA YS Error code Description Counter measures 3 points required When area calculating, there are less than 3 points coordinate data in selected fi le. Con fi rm the fi le data and calculate again. CALC ERROR Calculation is impossib le from the data input. Con fi rm the input data. DELETE ERROR When deleting[...]

  • Page 157

    22 ERROR DISPLA YS 22-2 ● If error still persist after attempting to clear them, contact your local T opcon dealer or T opcon head of fi ce. CIRCULAR ERROR Kno wn points and occupied point are on the same circle at the resection mode. Ta ke the diff erent point. PT# EXIST Same new point name is already memorized in the memor y . Con fi rm the n[...]

  • Page 158

    23 SPECIFICA TIONS 23-1 23 SPECIFICA TIONS T elescope Length : 150mm Objective lens : 45mm (EDM 50mm) Magni fi cation : 30 × Image : Erect Field of view : 1°30' Resolving power : 2.5" Minimum f ocus : 1.3m Reticle illumination : Provided Distance measurement Measurement range Non-prism mode (T arget: White wall) Prism mode Condition 1:[...]

  • Page 159

    23 SPECIFICA TIONS 23-2 Least Count in Measurement Fine measurement mode : 1mm (0.005ft.) / 0.2mm (0.001ft.) Coarse measurement mode : 10mm (0.02ft.) / 1mm (0.005ft.) T rac king measurement mode : 10mm (0.02ft.) Measurement Display : 12 digits : max. displa y 99999999.9999 Measurement Time Fine measurement mode : 1mm : Approx. 1.2sec. (Initial 3 se[...]

  • Page 160

    23 SPECIFICA TIONS 23-3 Laser Plummet (only for Laser plummet type) Light source : L.D (Visib le laser) Wa ve length : 633nm Out put : 1mW maximum Laser class : CLASS 2 (ll) laser product Dimension : 336(H) × 184(W) × 150(L) mm (13.2(H) × 7.2(W) × 5.9(L) in) W eight Instrument (with batter y) : 5.0kg ( 11.0 lbs) (without batter y) : 4.7kg ( 10.[...]

  • Page 161

    APPENDIX APPENDIX-1 APPENDIX 3 Dual Axis Compensation Inclination of the vertical axis with respect to tr ue v er tical will result in incorrectly measured horizontal angles. The e xtent of the error in horizontal angle measurement due to axis tilt depends on three f actors : ● the amount of the tilt of axis ● the elev ation of the target ● t[...]

  • Page 162

    APPENDIX APPENDIX-2 It is clear from the table that dual axis compensation has the most bene fi t when the ele v ation of the target is greater then 30° and the axis is tilted more than 10". The entr ies indicated in bold in the table sho w , in f act, that for man y common sur v eying applications i.e . target ele vation <30° and axis e[...]

  • Page 163

    APPENDIX APPENDIX-3 4 Precaution when Charging or Storing Batteries The capacity of batter y will be aff ected and its service life shor tened in any of the f ollo wing cases while it is recharged, dischrged or stored. 1) Recharging Fig. 1 shows how ambient temperature at recharging is related to charging ef fi ciency or as aff ecting discharge ca[...]

  • Page 164

    APPENDIX APPENDIX-4 01 0 20 30 40 50 60 20 40 60 80 100 120 0 Ambient temperature when charging(℃) C harging efficiency (discharge capacity(% )) 0.1C charge Fig.1 Recharging Discharge : 0.2, E.V.=1.0V Temperature at discharge : 20℃ 0 20 40 20 40 60 80 100 120 0 Ambient temperature(℃) Discharge capacity(%) 0.2C discharge Fig. 2 D[...]

  • Page 165

    APPENDIX APPENDIX-5[...]

  • Page 166

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    T OPCON CORPORA TION 75-1 Hasunuma-cho ,Itabashi-ku,T okyo ,174-8580 Japan Phone:3-3558-2520 F ax:3-3960-4214 http:// www .topcon.co.jp PULSE T OT AL ST A TION GPT -2000 series 64531 90170 GPT -2000 0107 (2B) TOPCON (GREA T BRIT AIN) L TD. T opcon House Kennet Side, Bone Lane Newb ury Berkshire RG14 5PX U.K. Phone: 001-44-1635-551120 F ax: 001-44-1[...]