Year
1991
Abstract
The protection of openings that are exposed to the environment presents an almost overwhelming engineering challenge. ntakes and outflows must permit the passage of large volumes of air or water without impeding their flow, and they are often exposed to corrosive salt and chemicals. An intrusion detection sensor that is intended to protect these openings must be capable of operating reliably under environmentally harsh conditions, and at the same time either provide a physical delay barrier or attach to an existing barrier. A new fiber optic sensor technology has now been developed specifically for protecting environmentally exposed openings. This sensor uses a fiber optic cable embedded in a neoprene rubber frame which is reinforced with Kevlar threads or braided steel cable. The sensor is configured in a mesh pattern with openings sufficiently large to permit air or water to flow unimpeded, but small enough to prevent entry. A bigger optic light source couples a supervisory light to the cable, and any break of the cable results in an alarm. Excellent results have been obtained with both small and large openings, including applications in which the sensor is totally submerged. The reinforcing cable provides an excellent delay barrier.