![Show Menu](styles/mobile-menu.png)
![Page Background](./../common/page-substrates/page0080.jpg)
wire
2012
íí
Photo courtesy Rene Tillmann
©
• Plants for trough-heating of steel,
copper or aluminium for subsequent
hot working
• Induction systems for welding
• Induction systems for hot assembling
ATE Applicazioni TermoElettroniche Srl
– Italy
Fax
:
+39 044 440 6434:
sales@ate.itWebsite
:
www.ate.itAumann GmbH
Stand: 10H38
Aumann will present its complete line of
horizontal wire enamelling systems for the
range 0.015 to 1.2mm Ø wires.
The complete Aumann systems comprise
the inline drawing unit, annealer, enamel
applicator, baking oven with cooling
system, inline control devices, double
spooler for bi-tapered coils and controls
with modern visualisations.
Aumann machines feature German
technology, high enamelling quality at high
output and efficiency, simple operation, low
energy requirement and short commis-
sioning times, as a result of full function
tests with customer materials during pre-
acceptance at the Aumann factory prior
to shipment.
Aumann offers are all-inclusive, including
commissi
oning, and without any hidden
extra cost. Other core businesses are
winding machines for coils and motors,
assembly automation systems and
complex production lines.
Aumann GmbH – Germany
Fax
:
+49 5772 566 55208:
marion.zimmermann@aumann.comWebsite
:
www.aumann.comBeta LaserMike
Stand: 11A78
Beta LaserMike, a global provider of
precision
measurement andcontrol
solutions, will debut its new LayScan
measurement system and three-axis LN
Detector (Lump and Neckdown) to the
international wire and cable community at
wire 2012.
Beta
LaserMike’s
new
LayScan
measurement system (patent pending)
accurately and consistently measures the
lay length of twisted pairs used in
telecommunication cables. The system
uses optical, non-contact measurement
technology to perform on-line, high-speed
lay length measurements with accuracies
to 0.0254mm (0.001").
LayScan
provides
high-data
rate
capabilities to precisely determine the
variations in lay length within each lay.
Systematic lay variations that are typically
caused by twinning and cabling operations
can be readily observed and measured.
A data acquisition system effectively
collects and processes the lay length data
and reports the measurement results.
❍
Aumann DLH 2