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Technical Data
Base material (substrate)
Iron or steel Fe-probe
Additional base materials with
QNix® 4500 include:
Non-magnetic metals e.g.
aluminum, zinc, copper, brass NFe-probe
Measuring range Fe 0 – 3000 µm or 0 – 5000 µm
NFe 0 – 3000 µm (only QNix® 4500)
Resolution Range 0 – 999 µm: 1 µm
Range ≥ 1 mm: 0,01 mm
Accuracy referred to QN4200 QN4200 QN4500 QN4500
Automation 3 mm 5 mm 3/3 mm 5/3 mm
reference Fe < 2 mm 1
standard Fe > 2 mm 1
NFe < 2 mm
NFe > 2 mm
1
2
Minimum measuring Fe 10 x 10 mm² (0.40“ x 0.40“)
surface NFe 6 x 6 mm² (0.24“ x 0.24“)
Minimum curvature convex 5 mm (0.2“)
concave 25 mm (1“)
Minimum thickness Fe 0,2 mm (8 mil)
of the base material NFe 0,05 mm (2 mil)
Temperature range storage -10° C – 60° C (14°F to 140°F)
operation 0° C – 50° C (32°F to 132°F)
Probe type integrated or - optional Cable Probe with 1 m cable
Cableprobe 1m lenght
Power supply 2 x batteries1.5V (AA alkaline)
Dimensions ca. 100 x 60 x 27 mm
(3.9“ x 2.4“ x 1.1“)
Weight incl. batteries with integrated probe: 105 g
with cableprobe: 147 g
1
1
= +/- (3% + 2 µm)
= +/- (5% + 2µm)
1
2
1
1
1
2
1
2
Instruction Manual
QNix® 4200/4500, Version 3.6/2.7
System Description
The QNix® 4200 coating thickness gauge measures all non-magnetic
coatings such as lacquer, enamel, chromium, copper, zinc etc. on steel or
iron.
The QNix® 4500 coating thickness gauge additionally measures all
insulating coatings such as lacquer, plastic, enamel, etc. on non-magnetic,
metal substrates, e.g. on aluminum, copper or brass.
Both gauges conform to national and international standards:
ISO 2178, 2360, 2808
ASTM B 499, D7091
General
This measuring gauge has been designed for various applications.
Despite its rugged design, it should be handled correctly to insure
correct measurements at all time.
Do not drop it. Protect it from dirt, dust, humidity, chemicals and
aggressive vapors.
Please store the gauge in the protective case after using it.
As with all precision instruments, large temperature variations can
inuence the measuring result. Please avoid direct solar irradiation and
temperature shocks.
Due to the physical measuring principles the measurements can be
inuenced by strong electromagnetic elds. Please stay away from
transformers, high voltage lines or discharge sources for example.
Do not take measurements on magnetized parts. Magnetic elds can affect
the Fe-measurements. Strong electromagnetic radiation can affect the
NFe-measurements.
The housing is resistant against most solvents. Use a soft damp cloth to
clean the housing.
Proper results can only be achieved with clean probes. Please check the
probe tip regularly and remove any dirt and paint from the ruby.
Cable Probe version
When using QNix® 4200 and QNix® 4500 with Cable Probe or transporting it, take care not to bend the cable. In case the cable breaks due
to difcult measuring conditions or high strain on the cable you can reorder it and easily replace it yourself.
Automation Dr. Nix GmbH & Co. KG
Robert-Perthel-Strasse 2 · 50739 Köln · Germany
Phone +49 221 9174550
www.automation.de
E-Mail: info@automation.de
Ver. 06/2012
If you use several QNix® 4200 and QNix® 4500 gauges with cable probe,
you can switch the probes between the gauges to guarantee highest exibility during your daily measuring tasks.
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t
If the gauge is not used for a long period, please remove the batteries
from the gauge in order to prevent leakage that could damage the unit.
In case of a malfunction of the instrument please do not try to repair it on
your own. Our customer service will be happy to assist you.
Starting up and changing batteries
The gauge is powered by two AA batteries alkaline. Instead, two
rechargeable AA batteries with 1.2V each can be used. Please note that
rechargeable batteries have a signicantly lower capacity.
Low battery power is indicated in three steps:
Step 1:
Step 2:
Step 3:
Note! Empty batteries should be disposed of properly. If possible, please
use the appropriate method.
Zero-Adjustment
A zero-adjustment is required when using the gauge for the rst time or
after inserting new batteries, when working with different materials or from,
time to time. (e.g. when the ambient temperature changes). We strictly
recommend carrying out the reference check on the uncoated original
substrate in order to adjust for possible geometric or surface specic characteristics (ref. Technical Data). If this is not possible, please use the zeroreference plates supplied with the case. Place the gauge on one of the
zero plates in the case. For the Fe-probe please use the steel plate; for the
NFe-probe use the aluminum plate, if you want to measure on aluminum;
or use a suitable uncoated Fe- or NFe-substrate.
Please make sure the probe is switched to the correct measuring mode
during zero-adjustment. Otherwise false measurements might occur.
Please make sure the probe tip is placed perpendicularly and evenly on
the surface . If measuring on a cylindrical body, you can use the v-groove
to ensure the position. If the value indicated is not within the range of the
accuracy, adjust the gauge as follows: Place the gauge on the zero plate
(substrate). Then press the button once. A control number appears on the
display and an acoustic signal sounds. Now lift off the gauge at least
10 cm (4 inches) from the zero plate (substrate). The acoustic signal
sounds again and another control number appears. The zero-adjustment
is completed.
When repeating measurements on the same spot, the reading may not
always be 0 µm or 0.00 mil, since surface roughness, dirt, scratches etc.
might cause variances.
Handling
Place the gauge evenly on the spot to be tested. Take care that the ringlike bearing area connects completely with the measuring area around the
measuring probe. Use the grips near the measurement head to ensure proper placement. The display immediately shows the reading accompanied
by an acoustic signal.
Together with the measuring result you will also receive information on
what probe, Fe or NFe, the gauge used. This is particularly important when
using the Dual-Probe.
Change of batteries is advised. However, several
measurements can still be taken until the gauge
shuts off. Backlight is on.
(small symbol) Measurements are still possible.
Backlight is off.
(large symbol in the middle of the display)
Measurements are no longer possible.
When being zeroed on a non-metallic substrate or when operated in the
wrong way a “Zero Reference Error” appears. Readings exceeding the
measuring range are indicated with „INFI“ (innite) if the substrate has
been selected as xed. If substrate selection is enabled, the gauge will
switch the substrate. The gauge switches on automatically when placed
on a surface and turns off when not in use for about 30 seconds.
The v-groove on the measuring tip helps measuring on rods or tubes etc.
Setting the measuring mode or unit (μm or mil)
Using the operating key while the gauge is switched on and not placed
on a surface will display the possible measuring modes and “Unit“.
The current measuring mode is then marked on the display. When the
operating key is used, the gauge switches to the next measuring mode
which activates if the button is not used again for 2 seconds. If “Unit“
is marked and nothing else happens, a menu opens with the entries ‘µm’
and ‘mil’ and the current unit marked. Using the operating key you can
choose the unit you want.
Measuring with the Dual-Probe (QNix® 4500)
The gauge offers several ways to select the measuring mode. One way to
do this while the gauge is switched on is the operating key as described
above.
Fe- or NFe-mode:
For applications with clearly indicated substrate, the Fe or NFe mode can
be set as a x mode. The current measuring mode is then indicated at the
left hand side.
Fe/NFe mode:
When constantly changing between steel and non-iron substrate, activate
the Fe/NFe mode. In this mode, indicated as two round arrows on the
display, the gauge switches to semi-automatic operation. A change of
substrate is then indicated by a message prompting to take another
reading by lifting and re-placing the probe.
Please note that the NFe measuring method allows measurements on
ferro-magnetic substrate (e.g. iron, steel). However, due to the substrate’s
magnetic characteristics, the gauge does not display a correct result.
Therefore check whether the substrate is ferro-magnetic when using the
NFe measuring principle, e.g. by means of an additional check
measurement using the Fe measuring principle.
When using the NFe measuring principle, measurements on the supplied
zeroing plate might result in an INFI message or a number indicated on the
display. This can not be changed and is not a quality defect.
If you nd the measuring results to be inadequate despite zero-adjustment
(e.g. if no zero results are produced when zeroing on the plates supplied),
deactivate the automatic mode selection and zero the gauge in both
modes using the plates supplied.
Possible messages on the display
Fe = measurement on iron or steel substrate
NFe = measurement on non-iron metal
Zero Reference Error = zeroing error or handling error
INFI = wrong substrate, reading beyond
measuring range
= Low battery, have new ones ready
= low or empty battery
= automatic substrate selection activated
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