HEX-MAX™ MODULAR AND POWER-INDEPENDENT AEROSOL FIRE
SUPPRESSION DEVICE
HEX-MAX™
Hex-Max™ is a modular, non-pressurized, and autonomous fire suppression unit designed for professional fire protection in technical and special risk applications, where high-performance operational characteristics and economic efficiency are desired for small to medium-sized spaces. The suppression unit disperses potassium carbonate and nitrogen-based condensed aerosols to the fire area within seconds of discharge, effectively extinguishing the fire.
Aerosol is a chemical dry suppression technique that does not damage or harm property or structures in the same way as water. The formation of the aerosol is based on a non-toxic and non-reactive solid compound that remains unchanged until it is activated.
Plug and Play
Fastest installation on the market
Connection
Wireless or wired connection
Fast suppression
Eliminate fire under seconds
15-lifetime
Protect your assets for the long term
Protection Volume
HEXMAX Volume 1-8m3
Measures
270x95x100
Areas
Electrical distribution cabinets and specialized technical facilities
Operation Conditions
Endures extreme temperatures. Operating range -50 to +55 degrees Celsius
TRADITIONAL FIRE SYSTEMS VERSUS
MODERN SPIDER FIRE SYSTEMS
TRADITIONAL WAY
Gas and water
- High costs
- Piping
- Long installation time
- Gas cylinders
- Water-Acces and Storage
SPIDERFIRE WAY
Aerosol suppression systems
- Reasonable costs
- No water usage
- Plug & Play
- Fastest Install time on the market
- 15 Years Life Time
PROTECT YOUR INVESTMENTS WITH OUR ADVANCED
FIRE SUPPRESSION SOLUTIONS
Rapid Detection and Suppression
Our systems quickly identify and control fires, minimizing damage and downtime.
Enhanced Safety Compliance
Meet stringent safety regulations and industry standards with our cutting-edge technology.
Reliable & Low Maintenance
Engineered for minimal upkeep, ensuring continuous protection without disruption.
Scalable Solutions
Whether small or large-scale installations, our systems can be customized to meet your specific needs.