Certified according to ISO 9001:2008
SHAFTS GEOMETRY
MEASUREMENT MACHINE
22, Logoisky tract, Minsk
220090, Republic of Belarus
tel/fax: +375 17 281 36 57
info@riftek.com
User's manual
www.riftek.com
RF800 Series
2
Shafts Geometry Measurement Machine. RF800 Series
RF800 [Revision 1.0.0] 01.08.2018
Contents
.............................................................................................................................................31. Safety precautions
.............................................................................................................................................32. CE сompliance
.............................................................................................................................................33. Laser safety
.............................................................................................................................................34. General information
.............................................................................................................................................35. Structure and operating principle
........................................................................................................................................... 3 5.1. Optical micrometer
................................................................................................................. 4 5.1.1. Micrometer specifications
........................................................................................................................................... 5 5.2. Structure
........................................................................................................................................... 7 5.3. Operating principle
.............................................................................................................................................76. Basic technical data
.............................................................................................................................................87. Software
........................................................................................................................................... 8 7.1. Main window
........................................................................................................................................... 8 7.2. Settings
................................................................................................................. 9 7.2.1. Language
................................................................................................................. 10 7.2.2. Password
................................................................................................................. 10 7.2.3. Parameters
................................................................................................................. 11 7.2.4. Operator
................................................................................................................. 11 7.2.5. Part
.............................................................................................................. 12 7.2.5.1. Adding / editing the part template
.............................................................................................................. 14 7.2.5.2. Part template control
.............................................................................................................. 15 7.2.5.3. Saving the part template
................................................................................................................. 15 7.2.6. Workplace
........................................................................................................................................... 16 7.3. Calibration
.............................................................................................................................................178. Intended use
........................................................................................................................................... 17 8.1. Preparation for use
................................................................................................................. 18 8.1.1. Visual inspection
................................................................................................................. 18 8.1.2. Installation
................................................................................................................. 18 8.1.3. Switching on the machine
................................................................................................................. 18 8.1.4. Setting parameters and forming the database of templates
................................................................................................................. 18 8.1.5. Calibration
................................................................................................................. 18 8.1.6. Metrological verification
........................................................................................................................................... 18 8.2. Working with the machine
................................................................................................................. 19 8.2.1. Shafts of different diameters
................................................................................................................. 19 8.2.2. Shafts of different lengths
................................................................................................................. 19 8.2.3. Setting the origin of the linear coordinate
................................................................................................................. 21 8.2.4. Template selection
................................................................................................................. 22 8.2.5. Measurement
........................................................................................................................................... 26 8.3. Working with the database
.............................................................................................................................................289. Maintenance
........................................................................................................................................... 28 9.1. General instructions
........................................................................................................................................... 28 9.2. Safety precautions
........................................................................................................................................... 28 9.3. Maintenance procedure
................................................................................................................. 28 9.3.1. Daily maintenance work
.............................................................................................................. 28 9.3.1.1. Checking the loosening of screw connections
.............................................................................................................. 28 9.3.1.2. Optical signal quality control
................................................................................................................. 31 9.3.2. Annual maintenance work
.............................................................................................................................................3110. Warranty policy
.............................................................................................................................................3111. Revisions
.............................................................................................................................................3212. Distributors
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1. Safety precautions
·
All specialists must study this User's Manual before operating the machine.
·
Use supply voltage and interfaces indicated in the machine specifications.
·
In connection/disconnection of cables, the power must be switched off.
·
Do not use the machine in locations close to powerful light sources.
·
To obtain stable results, wait about 20 minutes after powering the machine to
achieve the uniform warm-up of the micrometer.
·
During the measurement procedure, the protective doors of the machine must be
closed.
2. CE сompliance
The machine has been developed for use in industry and meets the requirements of
the following Directives:
·
EU directive 2014/30/EU. Electromagnetic compatibility (EMC).
·
EU directive 2011/65/EU, 'RoHS' category 9.
3. Laser safety
The machine contains an optical micrometer, which makes use of a LED. The
micrometer belongs to the 1 laser safety class. The following warning label is placed on the
housing:
The following safety measures should be taken while operating the micrometer:
·
Avoid staring into the emitter during a prolonged time period.
·
Do not disassemble the micrometer.
4. General information
The machine is designed to control the geometrical parameters of the 'shaft' type
parts.
Field of application: large-scale production. Place of installation: production line, or
laboratory.
Technical characteristics of the machine can be changed for a specific task.
5. Structure and operating principle
5.1. Optical micrometer
To measure the geometrical parameters of the 'shaft' type parts, a two-axis optical
micrometer is used.
The operating principle of the micrometer (for one axis) is illustrated in Figure 1.
The micrometer consists of two blocks: transmitter and receiver. Radiation of LED
1 is collimated by a lens 2. With an object placed in the collimated beam region, a shadow
image is formed by the telecentric system 3 on the CCD photodetector array 4. A
processor 5 calculates the diameter of the object from the position of shadow borders.
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Figure 1
A two-axis optical micrometer contains two identical micrometers (in accordance
with the scheme in Fig. 1) in one housing, placed at an angle of 90 degrees to each other,
which makes it possible to control the diameter of the object in two mutually perpendicular
directions, Fig. 2.
Figure 2
5.1.1. Micrometer specifications
Optical micrometer, RF656XY-35 model
Measurement range, mm
±6х35
Minimum size of the object, mm
0.25
Maximum size of the object, mm
35
Accuracy, m
±1
Repeatability, m
0.5
Maximum scanning frequency, Hz
10000
Maximum update frequency, Hz
2000
Light source
LED
Lase safety class
1 (IEC60825-1)
Output interface
RS485
Synchronization input
2.4 – 5 V (CMOS, TTL)
Power supply, V
24 (9...36)
Power consumption, W
from 1.5 to 2
Environmental
resistance
Enclosure rating
IP67
Vibration
20 g / 10…1000 Hz, 6 hours for each of XYZ axes
Shock
30 g / 6 ms
Operating
ambient
temperature, °C
-10…+60
Relative humidity
5-95%
Housing material
aluminum
Weight (without cable), gram
1600
Dimensions
see the figure
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5.2. Structure
The structure of the machine (without protective doors) is illustrated in Figure 3.
The machine contains a frame (1) on which a linear guide (2) of the linear translation
system is installed. The linear guide has a carriage (3) driven by a stepper motor (4).
An optical micrometer (5) is installed on the carriage (3). The end sensors (not
shown) are used to monitor the end positions of the micrometer. A table with two Morse
tapers (6 and 7) is used to install the controlled shaft. The Morse tapers are mounted on a
bar (8) located along the the linear guide. One of the end sensors is mounted on the upper
taper, the latter can be reinstalled along the bar (8) in order to control the shafts of different
lengths.
In addition, the machine has a caliber, which is a part of the upper Morse taper. The
caliber is designed for an automatic re-calibration of the micrometer to eliminate the
measurement error caused by a change in the temperature of the machine.
The machine contains a mini-computer (9) with a graphic touch screen. The minicomputer has the special software designed to control the machine and to display results.
The mini-computer can be built into the machine (as shown in Figure 3), or it can be
installed on the special stand (see Figure 4).
The back side of the machine has a power supply 220/24V (10) with a circuit
breaker (11), connector for the foot switch (12), USB connector (13) for the USB drive (for
example, for data transfer), and the Ethernet connector (14), for example, to connect to the
PC.
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Figure 3
Figure 4
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5.3. Operating principle
After the measurement algorithm has been programmed (position and number of
controlled zones along the shaft, tolerances, etc. - see the software description), the
operator installs a shaft into the machine. After a command from the operator (by the foot
switch, or by the softkey on the touch screen), the linear translation system moves the
micrometer along the shaft. The data from the micrometer (shaft diameters in two mutually
perpendicular cross sections) synchronized with the linear position of the micrometer
comes to the computer where the required parameters are calculated (shaft diameter and
shaft shape error).
6. Basic technical data
Parameter
Value
Shaft length, mm
160...750
Shaft diameter, mm
5...30
Accuracy, m
±1
Time of measuring the shaft of the
maximum length, s, no more than
20
Number of controlled shaft zones and their
position
Programmable value
Maximum shaft weight, kg
2
Measured parameters
Diameter, ovality, taper
Sorting "OK"-"NOK"
Yes
Ability to sort by groups
Yes
Power supply
Three-phase alternating current network with frequency of (50 ±
1) Hz, nominal voltage 220 / 380V with a permissible voltage
deviation of ±10%.
Power consumption, W
100
Environmental resistance
Operating ambient temperature: +1...+35°С
Relative humidity for 25°С: 65%
Operation mode
3 shifts, 6 days a week
Dimensions, mm
380х428х1079
Note: Machine parameters can be changed for a specific task
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7. Software
7.1. Main window
After the machine is powered on, the software is loaded and the main window
appears.
Button
Assignment
Settings
Set the measurement parameters.
Calibration
Perform the calibration procedure.
Measurement
Control the measurement process.
Database
View the database.
7.2. Settings
Only qualified users are allowed to change settings, so when you tap the Settings
button, you will need to enter a password (by default: 1111).
Enter the password and tap Ok. The Settings window appears:
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The parameters menu is located in the left part of the window. The arrow in the
upper left corner is used to go back to the previous window.
7.2.1. Language
To select the language, tap Language. The following window appears:
Select the language and tap Save.
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7.2.2. Password
To change the password, tap Password. The following window appears:
Enter a new password and confirm it (the toggles in the fields are used to show/hide
the entered characters). Tap Save.
7.2.3. Parameters
To change parameters, tap Parameters. The following window appears:
Parameter
Default
value
Note
COM port
3
The COM port number of the internal RS485 network.
This parameter can be changed only by the manufacturer.
Baud rate, bit/s
115200
The baud rate of the COM port.
This parameter can be changed only by the manufacturer.
Number of decimals
3
The displayed number of decimals.
Part type
Shaft
This parameter is selected in accordance with the device type: Shafts
control - 'Shaft', Holes control - 'Hole'.
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Parameter
Default
value
Note
Calibration diameter D
20 mm
The diameter of the caliber installed in the Morse taper (see p. 5.2.).
Tolerance for
calibration
0.002 mm
This tolerance is used when testing the calibration accuracy (see p.
7.3.).
Motor step
453
Linear displacement of the micrometer, which corresponds to one step
of the motor.
This parameter can be changed only by the manufacturer.
To save changes, tap Save.
7.2.4. Operator
Tap Operator. The following window appears:
In this window, you can select, edit, delete, or add the new operator.
7.2.5. Part
In the program, the measured parts are shown as templates described by the
following parameters: the position of the controlled zone on the shaft, its size and diameter,
and the tolerances for sorting. The number of zones is up to 8. To set the template
parameters, tap Part. The following window appears:
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In this window, you can see a list of controlled shafts with their unique numbers and
names. Parameters of the selected shaft are shown in the table (the selected shaft is
highlighted in blue in the list to the left).
The description of parameters:
Name
Description
A
The position of the controlled zone on the shaft.
L
The length of the controlled zone.
Gr0...Gr4
Sorting groups (diameter value ± tolerance).
QC
Quality control sign.
7.2.5.1. Adding / editing the part template
To add the part template to the list, tap Add. To edit the part template, tap Edit. The
following window appears:
Enter a decimal number of the part, its description and length into the respective
fields. To form the controlled zones, tap . "Diameter 1" appears in the List:
Select the diameter (D1...D8) from the Name drop-down list.
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Enter the diameter value and the tolerance value into the Diameter field and the
Tolerance field respectively. Enter the parameters of the controlled zone, namely, the
position of the zone on the shaft (Size A) and the zone length (Size L). In addition, it is
necessary to enter the number of controlled sections (Sections d): 2 or 3. When "2" is
selected, the measurements are performed in two sections spaced from the edges of the
zone for 3 mm. When "3" is selected, an additional measurement is made in the center of
the zone. The diameter of the zone is calculated as the average diameter measured in the
selected sections. The cylindricity value of the zone is calculated as the difference in
diameters measured at the edges of the zone.
If it is necessary to divide the measured parts into groups, tap on the Group toggles
and enter the diameter value and the tolerance value for each group.
These tolerances are also used to control the ovality and taper of the zone.
Enter the required number of zones and their parameters in accordance with the
algorithm described above.
If the diameter is controlled only by the quality control department, tap on the QC
toggle to enable it. The groups will be hidden.
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7.2.5.2. Part template control
To control the part template, tap .
This window displays the part template with the controlled zones. The proportions of
the zones correspond to their size. To go back to the template creation window, tap .
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7.2.5.3. Saving the part template
To save the part template, tap Save. The program returns to the list of controlled
parts and displays the parameters of the saved template.
7.2.6. Workplace
The machine can be installed on workplaces of various types (production line,
quality control department). On production lines, only one selected zone is measured at
each workplace. During the quality control, the whole shaft is measured without sorting into
groups) To set the workplace type and its description, tap Workplace.
The list of workplace numbers is shown in the left side of the window.
The workplace number of the machine is marked with .
Description of the workplace (in the right side of the window) is given for the
workplace number highlighted in blue in the list to the left.
If the QC toggle is enabled, this workplace relates to the quality control department,
and the measurements are performed in full (without sorting into groups).
To describe the workplace (not QC), disable the QC toggle and follow the steps
below:
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·
Select (Select button), or add (Add button), and then select the workplace
number.
·
Select the controlled diameter from the Diameter drop-down list.
·
Describe the workplace in the Description text box.
7.3. Calibration
To perform the calibration of the machine, go to the main menu and tap
Calibration.
Select the shaft that will be used as the caliber. Tap Accept. The program displays
the description of the selected shaft.
Install the shaft into the machine, and tap Calibration. The shaft will be scanned. If
necessary, parameters of the optical micrometers will be corrected automatically, and then
the shaft will be scanned again in order to test the machine. If successful, the following
window appears:
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The Deviation column shows the difference between the actual value and the
measurement result. The calibration is successful if the deviation value doesn't exceed the
tolerance (Tolerance for calibration, see par. 7.2.3.).
If the calibration is not successful, the following window appears:
Zones, in which the measurement result exceeds the tolerance, are shown in red.
Repeat the calibration procedure until you see the message informing about
success.
8. Intended use
8.1. Preparation for use
Preparation of the machine includes:
·
visual inspection,
·
installation,
·
switching on the machine,
·
setting parameters and forming the database of templates,
·
calibration of the machine,
·
metrological verification of the machine.
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8.1.1. Visual inspection
Before operating, it is needed to ensure of the serviceability of the machine:
·
check the cables and ground wires,
·
check the condition of output windows of the micrometer, and, if necessary, wipe
them with a soft lint-free cloth.
8.1.2. Installation
Install the machine on the equipment. Connect the power cable (220V).
8.1.3. Switching on the machine
Feed power to the machine by switching on the circuit breaker, see Figure 3.
8.1.4. Setting parameters and forming the database of templates
Set parameters in accordance with p. 7.2. Form the database of templates in
accordance with p. 7.2.5.
8.1.5. Calibration
Calibrate the machine in accordance with p. 7.3. The calibration procedure must be
performed:
·
daily before the work shifts,
·
in case of changing the shaft type,
·
if the position of the machine was changed.
8.1.6. Metrological verification
Metrological verification of the machine must be performed:
·
before commissioning,
·
after repair,
·
periodically during operation.
8.2. Working with the machine
The measurement of geometrical parameters is fully automated and the work with
the machine is reduced to the mechanical adjustment, and then to the work with the
software. Follow the steps below:
·
Configure the machine to operate with the shaft of the appropriate diameter, see
par. 8.2.1.
·
Configure the machine to operate with the shaft of the required length, see par.
8.2.2.
·
Start the software, see par. 7.
·
Install the controlled shaft into the machine.
ATTENTION: It is necessary to clean the shaft from cutting fluid and oil before
installing into the machine!
·
Tap the Measurement button.
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8.2.1. Shafts of different diameters
The machine is equipped with the Morse tapers of two types: a small taper and a
big taper (see Figure 5 and Table 5 in Catalog RF800.00.000, items 7 and 8). To replace
the tapers, it is necessary to: unscrew the calibers, get the tapers, tighten the calibers,
install the new tapers.
8.2.2. Shafts of different lengths
To measure the shafts of different lengths, the machine is adjusted by moving the
upper rack of the Morse taper with the end sensor fixed to it along the table (see Figure 5 in
Catalog RF800.00.000).
8.2.3. Setting the origin of the linear coordinate
After you replace the support taper, it is necessary to set the origin of the linear
coordinate.
The upper end sensor, installed on the movable Morse taper, specifies the origin of
the linear coordinate of the linear translation system (the coordinate of the starting position
of the micrometer). In the starting position, the micrometer must be positioned so that the
caliber (the part of the Morse taper) is placed within the measurement zone of the
micrometer.
Follow the steps below:
1. Start RF701_Controller.exe, which is in the Riftek install \RF701_Controller
directory on the desktop of the mini-PC.
2. In the Settings menu, select a port: COM4.
3. Select Connection > Connect in order to connect to the system.
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4. Tap the GoToEnd button in order to move the micrometer to the lowest position.
5. Install the rack 3 (see Figure 4 in Catalog RF800.00.000) at the highest position.
6. Install the shaft into the machine. ATTENTION: the shaft must be installed!
7. Tap the GoToZero button in order to move the micrometer to a zero position.
The caliber must be on the beam axis of the micrometer.
The figure below illustrates the incorrect position of the micrometer:
The figure below illustrates the correct position of the micrometer:
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8. If the setting is incorrect, tap the GoToEnd button in order to move the
micrometer to the lowest position.
9. Screw the rack 1-2 turns.
10. Repeat steps 6-9 until the beam axis of the micrometer is on the axis of the
caliber.
11. Secure the rack by using the counter bush.
8.2.4. Template selection
Select the template from the list. The template that was used for calibration is
highlighted in blue.
After you select the template, tap the Accept button. The program will display the
parameters of the selected template:
In this window, you can see the following: the number of the shaft is РФ800.20.035,
the workplace is the D3 diameter control (highlighted in blue in the table and in the figure),
not QC (QC toggle is disabled). If the selected template is what you need, tap Accept,
otherwise go back to the previous window (tap on the blue arrow), and select another
template.
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8.2.5. Measurement
After you select the template, the program prompts to start the measurement
process:
If you need to save the result to the database, select the Save data option.
Tap the Measurement button, or press the foot switch.
If the result is acceptable, the program will display the following:
For more information, tap D3:
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The shaft is considered suitable if the diameters in all three controlled sections of
the zone are in the same sorting group, and if the ovality and taper do not exceed the
tolerance set for this sorting group.
To measure the shaft again or to measure the new shaft, install the shaft into the
machine and repeat the measurement procedure described in this paragraph.
If the result is not acceptable, the program will display the following (Diameter D2
Control):
For more information, tap D2:
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An example of measuring the shaft during the Quality Control (diameter D1):
The selected template:
During the measurement process, the program displays the following.
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The measurement result (acceptable):
The measurement result (defective):
For more information, tap the D1...D4 buttons.
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8.3. Working with the database
The results will be saved to the database, if the Save data option is enabled (see
par. 8.2.5.). To go to the database, tap the Database button in the main window. The
program will display the database:
In the right part of the window there is a list of measured shafts and their
parameters. In the left part of the window there are the data filter controls. You can use any
combination of filters. An example of filtering is shown below (by date, diameter, state). The
number of measured shafts is shown in the Number of measurements field.
To view all parameters, select the shaft from the list by tapping on the string, and
then tap the Information button.
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To export data to a file, tap the Export button, select the file type and path:
If successful, you will see the following message:
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9. Maintenance
9.1. General instructions
Maintenance of the machine is carried out to ensure a constant-ready status, and to
prevent premature failure. Maintenance includes preventive measures aimed at identifying
and eliminating the defects, and at ensuring the normal operation of the machine. It is
recommended to perform the daily and annual maintenance work.
9.2. Safety precautions
Observe the safety precautions outlined in Paragraph 1 of this User's Manual.
9.3. Maintenance procedure
9.3.1. Daily maintenance work
Daily maintenance work includes:
·
visual inspection of the machine,
·
checking the completeness of the machine,
·
checking for any damage to structural elements, power and instrument cables,
display and connectors,
·
checking for the presence of contamination on the linear guide, and, if necessary,
wiping with a clean lint-free cloth,
·
checking the loosening of screw connections,
·
optical signal quality control.
9.3.1.1. Checking the loosening of screw connections
Check the screw connections of the linear translation system, micrometer, and
table. Tightening force should provide the backlash-free connection and not lead to
destruction of the threaded connection.
Tight the fixing screws of the racks until there are no gaps, but apply a force no
more than 1.3 N•m.
9.3.1.2. Optical signal quality control
To ensure the required measurement accuracy, the optical windows of the
micrometer should not have any contamination or damage. Controlling the quality of the
optical signal allows to assess the degree of contamination.
Please follow the steps below:
1. Run the executable file RF65x_View_Cortex.exe, which you can find in the
Riftek install\RF65x_View_C ortex directory on the desktop of the mini-PC.
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2. In the Settings menu, select COM > COM4.
3. In the Settings menu, select Net Address > 1 in order to connect to the X
channel of the micrometer.
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4. Tap Connect to establish connection with the micrometer.
5. Tap View S ta rt to run the Optical signal view mode.
Windows are considered clean if the amplitude of signal irregularity does not
exceed 150 units (vertical scale).
An example of the signal when the windows of the micrometer are clean:
An example of the signal when the windows of the micrometer have contamination:
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6. If necessary, clean the windows. ATTENTION: Cleaning is best done with a soft
dry lint-free cloth. In order to remove fingerprints or grease, use the alcohol or
alcohol-ether mixture. Do not use scratching cleaners or other aggressive media.
7. In the Settings menu, select Net Address > 2 in order to connect to the Y
channel of the micrometer (see step 3).
8. Repeat steps 3-5 for the Y channel of the micrometer.
9.3.2. Annual maintenance work
Annual maintenance work includes:
·
lubrication of the Morse tapers,
·
metrological verification of the machine.
10. Warranty policy
Warranty assurance for Shafts Geometry Measurement Machine RF800 Series - 12
months from the date of putting in operation; warranty shelf-life - 12 months.
11. Revisions
Date
Revision
Description
01.08.2018
1.0.0
Starting document.
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12. Distributors
AUSTRIA
MBM Industry & Rail Tech
GmbH
RAILWAY INSTRUMENTS ONLY
Tullnerbachs traЯe 36 ,
A-3002 Purkersdorf, Austria
Tel: +43 2231 66000
Fax: +43 2231 66000 12
office@mbm-industrietechnik.at
www.mbm-tech.at
AUSTRALIA
Applied Measurement
Australia Pty Ltd
RAILWAY INSTRUMENTS ONLY
Thornton Plaza, Unit 5,
27 Thornton Crescent, Mitcham
VIC 3132, Australia
Tel: +61 39874 5777
Fax: +61 39874 5888
sales@appliedmeasurement.com
.au
www.appliedmeasurement.com.a
u
BENELUX
Altheris B.V.
Vlietweg 17a
2266KA Leidschendam
The Netherlands
Tel: +31 70 3924421
Fax: +31 70 3644249
sales@altheris.nl
www.altheris.com
BULGARIA, HUNGARY
RMT Ltd.
R Zahradni 224
739 21 Paskov, Czech Republic
Tel: +420 558640211
Fax: +420 558640218
rmt@rmt.cz
www.rmt.cz
BRAZIL
CAPI Controle
e Automacao Ltda
Rua Itororo, 121, CEP 13466-240
Americana-SP, Brazil
Tel: +55 19 36047068
Fax: +55 19 34681791
capi@capicontrole.com.br
www.capicontrole.com.br
CHILE
Verne SpA
Apoquindo 2818, oficina 31,
Las Condes, Santiago, Chile
Tel: +56 2 228858633
info@verne.cl
jsaavedra@verne.cl
www.verne.cl
CHINA
Zhenshangyou Technologies
Co.,Ltd.
Rm 2205-2210, Zhongyou Hotel
1110 Nanshan Road, Nanshan
District 518054 Shenzhen, China
Tel: +86 755-26528100/8011/8012
Fax: +86 755-26528210/26435640
info@51sensors.com
www.51sensors.com
CHINA
Shanghai micron-metrology
com., Ltd.
Room 602 unit 4, lane 399,
Mudan road, Pudong New district
Shanghai, China
Tel: +86-21-68416510
sales@micron-metrology.cn
www.micron-metrology.cn
CHINA
JRKtech Co., Ltd.
1F, Building 9, 100 Xianlie Rd.,
Guangzhou, China
Tel: +86755 85267190/
+86 15989362481
Fax: + 86755 85267190
shengz_k@163.com
www.jrktech.com
CZECH REPUBLIC
RMT Ltd.
Zahradni 224
739 21 Paskov, Czech Republic
Tel: +420 558640211
Fax: +420 558640218
rmt@rmt.cz
www.rmt.cz
FINLAND
TERASPYORA-STEELWHEEL
OY
RAILWAY INSTRUMENTS ONLY
Juvan teollisuuskatu 28
FI-02920 ESPOO, Finland
Tel: +358 400 422 900
Fax: +358 9 2511 5510
steelwheel@steelwheel.fi
www.teraspyora.fi
FRANCE
DB Innovation (ALTHERIS
France)
26, avenue de la Mediterranee
34110 Frontignan France
Tel: +33-467786166
Fax: +33-467740134
dbi@altheris.fr
www.altheris.fr
RF800 [Revision 1.0.0] 01.08.2018
Shafts Geometry Measurement Machine. RF800 Series
33
GERMANY
Disynet GmbH
Breyeller Str. 2
41379, Brueggen
Tel: +49 2157 8799-0
Fax: +49 2157 8799-22
disynet@sensoren.de
www.sensoren.de
GERMANY
BIP-Industrietechnik GmbH
RAILWAY INSTRUMENTS ONLY
Am Elisabethhof 22,
D-14772 Brandenburg
D-41379 Brueggen, Germany
Tel: +49 (0) 33 81 75 90 0
Fax: +49 (0) 33 81 75 90 11
info@bip-industrie.de
www.bip-industrietechnik.de
GERMANY
Finger GmbH & Co. KG
OPTICAL MICROMETERS ONLY
Sapelloh 172,
31606 Warmsen, Germany
Tel: +49 5767 96020
Fax: +49 5767 93004
finger@finger-kg.de
www.finger-kg.de
GERMANY
Hylewicz CNC-Technik
SHTRIKH-2 ONLY
Siemensstrasse 13-15,
47608 Geldern, Germany
Tel: +49 2831 91021-20
Fax: +49 2831 91021-99
info@cnc-step.de
www.cnc-step.de
INDIA
Pragathi Solutions
#698, 5th Main, 8th Cross,
HAL 3rd Stage,
New Tippasandra Road,
Bangalore, 560075, India
Tel: +91 80 32973388
Tel/fax: +91 80 25293985
Mobile: +91 9448030426/
+919448492380
sales@pragathisolutions.in
arghya@pragathisolutions.in
www.pragathisolutions.in
INDIA
Paragon Instrumentation
Engineers Pvt. Ltd.
RAILWAY INSTRUMENTS ONLY
200, Station Road,
Roorkee, 247 667, India
Tel: +91-1332-272394
tanuj@paragoninstruments.com
www.paragoninstruments.com
INDONESIA
PT. DHAYA BASWARA
SANIYASA
Botanic Junction Blok H-9 NO. 7
Mega Kebon Jeruk, Joglo
Jakarta 11640, Indonesia
Tel: + 62 21 29325859
management@ptdbs.co.id
IRAN
Novin Industrial
Development Grp.
Tel: +98 21 44022093-6
Fax: +98 21 43858794
Mobile: +98 9123207518
info@novinid.com
www.novinid.com
ISRAEL
Nisso Dekalo Import
Export LTD
1 David Hamelech Street
Herzlia 46661 Israel
Tel: +972-99577888
Fax: +972-99568860
eli@fly-supply.net
www.fly-supply.net
www.aircraft-partsupply.com
ITALY
FAE s.r.l.
Via Tertulliano, 41
20137 Milano, Italy
Tel: +39-02-55187133
Fax: +39-02-55187399
fae@fae.it
www.fae.it
LATVIA, ESTONIA
SIA "SOLARTEX"
RAILWAY INSTRUMENTS ONLY
Duntes 15a, 5th floor, office B7
Riga, Latvia
Tel.: +371 67 130 787
solartex@inbox.lv
MALAYSIA
OptoCom InstruVentures
H-49-2, Jalan 5, Cosmoplex
Indus trial Park, Bandar Baru
Salak Tinggi, Sepang, Malaysia
Tel: 603 8706 6806
Fax: 603 8706 6809
optocom@tm.net.my
www.optocom.com.my
NORWAY
Salitec AS
PB 468,
N-1327 Lysaker
Tel.: +47 23 891015
Fax: +47 92101005
mail@salitec.no
www.salitec.no
PERU
Verne Peru S.A.C.
Las Codornices 104,
Surquillo, Lima, Peru
Tel/fax: +51 992436734
info@verne.cl
www.verne.cl
POLAND
MTL ASCO Sp. z o.o.
RAILWAY INSTRUMENTS ONLY
ul. Wielowiejska 53 44-120
PYSKOWICE (k/ GLIWIC),
Poland
Tel: + 48 32 230 45 70
Fax: + 48 32 332 70 14
rail@ascorail.eu
www.ascorail.eu
34
Shafts Geometry Measurement Machine. RF800 Series
RF800 [Revision 1.0.0] 01.08.2018
PORTUGAL
UltraSens
Qt. da Portela, Lt. 22.1, Ap. 152
3030 - 502 Coimbra, Portugal
Phone +351 239 796 277
Fax: +351 239 918267
info@ultrasens.com
www.ultrasens.com
RUSSIA
Sensorika-M LLC
Dmitrovskoye shosse 64-4
127474, Moscow, Russia
Tel: +7499487 0363
Fax: +7499487 7460
info@sensorika.com
www.sensorika.com
RUSSIA
Diesel-test-Komplekt LLC
620030, Karjernaya St, 16
Ekaterinburg, Russia
Tel/fax: +7 343 2227565
Tel/fax: +7 343 2227370
mail@d-test.ru
www.d-test.ru
SERBIA, SLOVAKIA
RMT Ltd.
Zahradni 224
739 21 Paskov, Czech Republic
Tel: +420 558640211
Fax: +420 558640218
rmt@rmt.cz
www.rmt.cz
SOUTH AFRICA
Ratcom Enterprise Pty Ltd
CSIR BUILDING 35, Office 78
Meiring Naude Road, Brummeria
Pretoria, 0084 South Africa
Tel: + 27 12 841 2032
Fax: + 27 86 225 0650
info@ratcom.co.za
www.ratcom.co.za
SOUTH KOREA
PROSEN. CO., LTD
M-1001, Songdo techno park IT
center, 32, Songdogwahak-ro,
Yeonsu-gu, Incheon, 21984,
Republic of Korea
Tel: +82-32-811-3457
Fax: +82-32-232-7458
trade@prosen.co.kr
www.prosen.co.kr
SPAIN
Iberfluid Instruments S.A.
C/ Botanica, 122
08908 L'Hospitalet de Llobregat,
Barcelona
Tel: +34 93 447 10 65
Fax: +34 93 334 05 24
myct@iberfluid.com
www.iberfluid.com
SWITZERLAND
ID&T GmbH
Gewerbestrasse 12/a
8132 Egg (Zurich), Switzerland
Tel: + 41 44 994 92 32
Fax: + 41 44 994 92 34
info@idtlaser.com
www.idtlaser.com
SWEDEN, DENMARK
BLConsult
Ryssbalt 294,
95 291 KALIX, Sweden
Mobile: +46 70 663 19 25
info@blconsult.se
www.blconsult.se
SWEDEN, DENMARK
Latronix AB
Propellervagen 10,
183 62 Taby, Sweden
Tel.: +46 08-446 48 30
Fax: +46 08-446 48 39
sales@latronix.se
www.latronix.se
THAILAND
Advantech Solution Co.,Ltd.
20/170 Motorway Rd.,
Kwang Pravet, Khet Pravet,
Bangkok, Thailand 10250
Tel: +662-1848705
Fax: +662-1848708
sales@advantechsolution.com
www.advantechsolution.com
TURKEY
TEKMA Muhendislik A.S.
Cevizli Mh. M. Kemal Cd.,
Hukukcular Towers ,
A-Blok, No: 66-A/39
Kartal – Istanbul
Tel: +90 216 970 1318
Tel: +90 850 840 2334
info@tekma.eu
www.tekma.eu
UKRAINE
KODA
Frunze st 22
61002, Harkov, Ukraine
Tel/fax: +38 057 714 26 54
mail@koda.com.ua
www.koda.com.ua
UNITED KINGDOM,
IRELAND
Ixthus Instrumentation Ltd
The Stables, Williams' Barns
Tiffield road, Towcester, Northents
Tel: +44 1327 353437
Fax: +44 1327 353564
info@ixthus.co.uk
www.ixthus.co.uk
USA, CANADA, MEXICO
International Electronic
Machines Corporation
RAILWAY INSTRUMENTS ONLY
850 River Street, Troy,
New York, USA
Tel: +1 518 268-1636
Fax: +1 518 268-1639
marketing@iem.net
www.iem.net
RF800 [Revision 1.0.0] 01.08.2018
Shafts Geometry Measurement Machine. RF800 Series
35
USA, CANADA, MEXICO
Acuity Products of Schmitt
Industries, Inc.
2765 NW Nicolai Street
Portland, OR, 97210, USA
Tel: +1 503 227 7908
Fax: +1 503 223 1258
sales@acuitylaser.com
www.acuitylaser.com
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