Optris Compact Line with water cooled housing, air purge unit and shutter
The infrared cameras from the Optris Compact Line, the Xi 80 and Xi 400, have been supplemented with new industrial accessories for use in rough conditions.
The system has a modular design and as a result, the water cooled housing, the air purge unit and the shutter can be used both individually and combined.
Shutter mechanism protects the high-quality IR camera optics
This stainless-steel shutter is generally used to protect the optics from contamination and foreign objects. This is particularly important when the infrared camera measures upwards and the measurement objects are above it, such as in the glass industry.
With a response time of just 100 ms, the IR camera is optimally protected from falling broken glass. Furthermore, the shutter can be used in intermittent processes so that the optics are exposed to environmental conditions only during the measurement process.
Temperature measurement in rough conditions
A stainless-steel, water-cooled housing and an air purge collar made of anodized aluminum are available so that the compact infrared camera can be used in rough conditions in the industry.
Cooling allows for use in hot environments up to 250°C. The air purge unit protects against air particles and prevents condensation on the optics. It can be screwed on in 4 positions, allowing the air flow to be customized for the application.
Integrated into the air purge unit is a silicone window that can be replaced without complex assembly steps if it suffers mechanical damage.
About Optris GmbH
Optris GmbH was founded in 2003 and has established itself as one of the leading manufacturers of non-contact temperature measurement devices. Its product portfolio consists of both wearable and stationary infrared thermometers and online infrared cameras for thermographic real-time analyses. Optris develops and produces in Germany to ensure the highest standard in quality as a key component of its company policy.
Images and text online available: optris.global/details/compact-ir-cameras-with-industrial-accessories
Tel.: +49 30-500 197- 45
Fax: +49 30-500 197- 10
Norman Rönz, M.A. | Optris GmbH
New explanation for sudden heat collapses in plasmas can help create fusion energy
31.03.2020 | DOE/Princeton Plasma Physics Laboratory
Double-walled nanotubes have electro-optical advantages
30.03.2020 | Rice University
An international team with the participation of Prof. Dr. Michael Kues from the Cluster of Excellence PhoenixD at Leibniz University Hannover has developed a new method for generating quantum-entangled photons in a spectral range of light that was previously inaccessible. The discovery can make the encryption of satellite-based communications much more secure in the future.
A 15-member research team from the UK, Germany and Japan has developed a new method for generating and detecting quantum-entangled photons at a wavelength of...
Together with their colleagues from the University of Würzburg, physicists from the group of Professor Alexander Szameit at the University of Rostock have devised a “funnel” for photons. Their discovery was recently published in the renowned journal Science and holds great promise for novel ultra-sensitive detectors as well as innovative applications in telecommunications and information processing.
The quantum-optical properties of light and its interaction with matter has fascinated the Rostock professor Alexander Szameit since College.
Researchers at the University of Zurich show that different stem cell populations are innervated in distinct ways. Innervation may therefore be crucial for proper tissue regeneration. They also demonstrate that cancer stem cells likewise establish contacts with nerves. Targeting tumour innervation could thus lead to new cancer therapies.
Stem cells can generate a variety of specific tissues and are increasingly used for clinical applications such as the replacement of bone or cartilage....
An international research team led by Kiel University develops an extremely porous material made of "white graphene" for new laser light applications
With a porosity of 99.99 %, it consists practically only of air, making it one of the lightest materials in the world: Aerobornitride is the name of the...
Researchers at Graz University of Technology have developed a framework by which wireless devices with different radio technologies will be able to communicate directly with each other.
Whether networked vehicles that warn of traffic jams in real time, household appliances that can be operated remotely, "wearables" that monitor physical...
26.03.2020 | Event News
23.03.2020 | Event News
03.03.2020 | Event News
31.03.2020 | Life Sciences
31.03.2020 | Life Sciences
31.03.2020 | Medical Engineering