The benefits are obvious: photoelectric sensors for use in heavy-duty applications

benefits are obvious: photoelectric sensors for use in heavy-duty applications

During peak
production periods, well over one million glass bottles per day are made on the container glass production line
that uses machines manufactured by Heye International. Detecting and counting
the bottles in the high-speed flow is not the only challenge, faced by the SICK
WL12G-3 photoelectric sensors that are in use in the plant, they also have to
withstand the extreme operating conditions. As a result of the bottle
temperature of over 600 ¡C and the radiant heat, the sensors and
reflectors alongside the conveyor become very hot.

ClearSens WL12G-3 photoelectric sensor
for transparent products and the high-temperature
SW50 reflector come from SICK’s range of heavy-duty sensors. These both form part of the heat-resistant and
highly available “best-in-glass” system
solution at Heye International. They meet high standards and fulfil users’
requirements for reliable operation under the toughest conditions. However,
when different types of critical operating conditions are combined, the
challenge becomes serious. In Heye International’s container glass production
machines, the sensors have to withstand high ambient temperatures, significant
mechanical stresses, soot particles, glass dust, and tiny particles of oil and
water vapour in the air and the effects of chemicals such as hydrochloric acid.

Heye International: “We are Glass People”

its slogan “We are Glass People”, Heye International GmbH from Obernkirchen in
Germany underlines its leading global position in the field of services and
systems for the container glass industry. The company, which has been part of
the international Ardagh Group since 2003, manufactures machines and equipment
for the efficient production of container glass under its HiPERFORM brand. Its HiSHIELD testing and inspection systems can be
used with a wide variety of hollow glass containers, while its specialist
HiTRUST services include project management and planning, designing and
constructing new production facilities and improving the efficiency of existing
processes. As a supplier of high-performance machinery and production optimisation and project management services,
the company’s objective is to make glass the most successful packaging material
in the world.

Highest stresses at the “hot end”

HiPERFORM machines are used at
what is called, the “hot end” of
container glass production. During peak periods, the machines can make more
than one million bottles a day over three shifts at the fluid glass melt, which
has a temperature of more than 1,000 ¡C. When the bottles are transported in a continuous flow to the
next stage of production, they are still at temperatures of up to 650 ¡C. This heats the air in the production area to
over 120 ¡C. The operating conditions of the sensors that count the
bottles and monitor the flow are made even more difficult by contaminants and
moisture in the air and the heavy vibration of the machines.

“Best-in-glass” – the ClearSens WL12G-3 photoelectric sensor for
transparent materials

With these challenges in mind,
the employees of the product development and production maintenance departments
at Heye International evaluated several different sensor alternatives.
Non-optical systems proved to be unsuitable because of their inadequate
operating distance, inappropriate size, poor detection results and slow response
times. There were also problems with optical sensors. Through-beam
photoelectric sensors were rejected
because they involve twice the amount of assembly and installation work for the
senders and receivers. Photoelectric proximity sensors failed primarily as a
result of their operating distance and the critical hot surface of the glass

The “best-in-glass” solution proved to be the ClearSens WL12G-3
photoelectric sensor for transparent materials from SICK, combined with the
SW50 high-temperature reflector. The sensor’s metal housing, which has an
enclosure rating up to IP 67, makes it highly mechanically rugged and resistant
to a range of aggressive chemicals. It has a maximum safe operating ambient
temperature of +60 ¡C. However, in long-term use at Heye International,
installed behind a heat shield, it can withstand more than +80 ¡C. With a
sensing range in this application of two meters,
this auto-collimation sensor guarantees to provide an impressively reliable
detection function and, at the same time, has high operating reserves, for example, if a coating builds up on the sensor
lens. Thisis made from scratch-proof PMMA
(acrylic glass), which is resistant to chemicals and ageing. The switching frequency of the photoelectric
retro-reflective sensor is 1,500 hertz, which ensures that the individual
bottles in the transport flow are detected and counted reliably. This is where the reflector comes in. It is installed on the other side of the flow of
bottles from the sensor, where the temperatures are also high. Standard plastic
reflectors would melt and become deformed after only a short time because of
the intense heat. This does not present a
problem for the SW50 high-temperature reflectors from SICK. They have a pane of
borosilicate glass mounted in an anodisedaluminium
frame which allows them to withstand temperatures up to 300 ¡C over long
periods. As a result of their past
experiences, the team at Heye International also put a great deal of importance
on the ease of use of the sensor. The bottle and container glass machines are
in operation around the clock. For this reason, it is essential that the sensors
can be operated during the third shift when there is no maintenance engineer

The portfolio of heavy-duty sensors – the “survivors”

system solution consisting of the WL12G-3 photoelectric retro-reflective sensor
and the SW50 high-temperature reflector that is in use at Heye International is
only one of a whole range of options for reliably automating processes using
sensors under the toughest conditions. When moisture is a problem, the
photoelectric sensors from the W4 Inox product family are the ideal solution,
for example in wet or damp areas in the food processing industry or filling and
packaging machines. The W12-3 product family produces impressive results in
applications where sensors come into contact with greases, oils, coolants and
lubricants. For example, when processing and packaging animal and vegetable
fats, using machine tools or manufacturing sheet metal in a steel mill where
the air has a high oil content. In areas where sensors need to be highly
mechanically rugged, the first choice is the W24-2 product family from SICK.
These sensors have zinc die-cast housings
that make them a tough, long-lasting and reliable detection solution, even in
challenging environments where heavy items such as steel coils and railway
rails are being handled. In cases where
optoelectronic sensors are not the best answer, SICK’s portfolio of heavy-duty
products also offers other highly effective alternatives, such as the IMB product family of inductive sensors. They
are shock and vibration-resistant, have a corrosion-resistant stainless-steel
housing and can withstand constant spraying with or immersion in water,
permanent contact with aggressive cutting oils and cooling lubricants and
temperatures ranging from -40 ¡C to 100 ¡C.

sensors from SICK function reliably under the toughest conditions and not only
in the bottle and container glass production plants manufactured by Heye International.
They ensure the highest possible levels of availability for machinery and

Written by: Roland
Hackenjos, Product Manager for Industrial Sensors, SICK AG, Waldkirch

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