Single Gas Detectiors
Dräger has specifically designed the Pac 5500 gas detector to meet tough industrial requirements such as those of IP 65. The shock-proof rubber casing offers reliable protection against external influences and corrosive chemicals. The Dräger Pac 5500 is equipped with the latest Dräger XXS sensor technology that offers an innovative and extremely high performance with reaction times of just ten seconds. The life cycle of five to eight years is also well above average and provides lower operating costs for users.
The protective rubber on the Dräger Pac 7000 ensures that its casing is shock-proof and meets the strict dust and water protection requirements specified in IP 65. Also, the electromagnetic resistance has been optimized and Dräger designed the device for unlimited lifetime usage. The gas sensor reliably warns against hazardous concentrations of the following: carbon monoxide, hydrogen sulphide, oxygen, carbon dioxide, sulphur dioxide, chlorine, hydrogen cyanide, ammonia, nitrogen dioxide, nitrogen monoxide, phosphine and organic vapors.
Multigas Detectors
The light-weight and compact design of the X-am 2000 ensure a high level of wearing comfort for the user. The device can be operated intuitively using the 2-button keypad and the user-friendly menus. It uses a Catalytic Ex sensor adjusted to methane is very sensitive to explosive gases and offers a very high degree of sensitivity to combustible organic vapors. This ensures a far greater and more reliable protection against explosion hazards. The Dräger X-am 2000 can be operate either with a rechargeable NiMH Battery or replaceable alkaline batteries. AC operated cradle or DC vehicle charging options are available. Click HERE for more information on the XAM 2000.
The low weight and the compact design of the X-am 5000 ensures a high level of wearing comfort for the user. The device can be operated intuitively due to the 2-button control panel and the user-friendly menus. As required, different sensors can individually be used with the Dräger X-am 5000, making it an even more flexible companion. Sensors can be easily replaced, gases changed and a new settings applied. The catalytic Ex sensor detects combustible gases and vapors in the range of the lower explosive limit and methane in the full range of up to 100% by volume. Click to HERE to download the datasheet on the
XAM 5.000
State-of-the-art area monitoring – the Dräger X-zone 5000, in combination with the Dräger X-am 5000 , can be used for the measurement of up to six gases. This easily transportable, robust and water-proof unit extends mobile gas detection technology to a unique system with many applications. The Dräger X-zone 5000 transforms the Dräger personal gas detection instruments (X-am 5000 and X-am 5600) into innovative area monitoring devices for a wide range of applications. A patented combination for increased safety – in addition to the personal air monitors carried on the body, these area monitors are positioned where gas hazards are expected. Click HERE for printable information.
The Dräger X-am 7000 is protected against dust and dirt penetration as well as water immersion, an IP 67 rating. A rubber boot is standard to safeguard the device against damage, even a fall from a height of 1.5m. Shock-resistant sensors provide accurate and precise measurement results and long-lived operation. A combination of 25 sensors provides for a flexible adjustment to individual measuring tasks and detection work. The Dräger X-am 7000 can be equipped with three electrochemical and two infrared, catalytic sensors or photoionization detectors.
The Dräger Multi-PID 2 has a measurement range of 0 to 2,000 ppm. An optional gas dilution probe extends the measurement range to up to 20,000 ppm. Thanks to its ergonomic shape, the device can be easily operated while wearing heavy work gloves. The innovative PID technology is both extremely sensitive and robust. The rapid response time is great for leak checking. It also allows the atmosphere above contaminated ground or liquids to be screened, as well as exhaust measurements from enclosed spaces.