Description
This versatile device features both an oxygen (O₂) sensor and a combustible gas Ex sensor, making it adaptable across multiple applications.
Worn by individuals to detect hazardous gases in their immediate surroundings, the X-am 5000 is an invaluable tool across industries such as manufacturing, construction, and healthcare. Its advanced technology allows it to measure up to five different gases simultaneously using Dräger’s state-of-the-art XXS sensors. These gases include combustible gases and vapours, oxygen, toxic gases, organic vapours, odorants, and amines.
The X-am 5000 stands out due to a range of integrated features designed for ease of use and reliability. It includes a large, backlit display that clearly shows gas readings, battery level, and alarm status—even in low-light conditions. A variety of alarms, including audible, visual, and vibration alerts, ensure users are immediately notified of any hazardous conditions. These alarms can be customised to suit specific workplace requirements.
Its robust battery can last up to 24 hours on a single charge, with an automatic switch to a backup battery if the primary power fails. The device’s rugged construction is water-resistant, dust-proof, and able to withstand temperatures ranging from -20 to 50 degrees Celsius, making it suitable for even the harshest work environments.
Designed to improve on-site safety, the Dräger X-am 5000 not only reduces the risk of accidents and injuries by detecting hazardous gases early, but also contributes to increased worker productivity by minimising disruption and improving overall confidence in safety. This, in turn, helps boost morale by ensuring employees feel protected throughout their shift.
Whether you’re responsible for worker safety in confined spaces, open industrial sites, or mobile operations, the Dräger X-am 5000 is a reliable and user-friendly gas detector that offers superior protection. It’s an excellent choice for any workplace looking to improve its safety standards and ensure compliance with gas monitoring regulations.