The wire strike protection system (WSPS) is a mechanical wire cutter designed to mitigate the risk of wire strikes whilst flying helicopters at low-level.
During the six-year period covering calendar years 1974 through 1979, wire strike accidents accounted for a significant share of United States Army Aviation peacetime mishaps, accounting for 8% of aircraft damage, 6% of aircraft-related injuries, and 16% of aircraft-related fatalities. Over a similar period covering the ten years between 1970 and 1979, 208 civil helicopters were involved in wire strike accidents. Of these, 88 were destroyed (42%) and 37 (11%) of the 331 people involved were killed.[1] The most common cause of civil helicopter aerial accidents between 1975 and 1977 was striking wires and poles.[1]
Bristol Aerospace developed a WSPS qualified for the Bell OH-58 Kiowa under contract to the Canadian Armed Forces in May 1979.[2] Nelson Chan is credited with inventing WSPS, according to the patents granted in 1980.[3] [4] Bristol staged a series of 52 tests of the WSPS by mounting it on the fuselage of a wrecked Kiowa; the fuselage was loaded onto a flatbed truck and driven into wires at speeds ranging from 15to, yaw angles ranging from 0 to 45°, and a variety of cables that were typically used in overhead power and telecommunication transmission lines, including a NaNinches 7-strand steel cable with a tensile strength exceeding 10000lb.[2]
Because the Bristol testing did not determine the effectiveness of the lower fuselage-mounted cutter, and was a ground-based test that did not evaluate how a wire strike with the cutter would affect aircraft attitude during flight, the United States Army Research Laboratory conducted supplemental pendulum swing tests at the Impact Dynamics Research Facility located at Langley Research Center with a Kiowa in October 1979.[2] An additional deflector to protect the skids, landing gear, and tail boom (including the rotor and vertical stabilizer) was also tested, but was found to be ineffective.[2]
During the Langley tests, an OH-58 was attached to the end of a 196feet long cable, pulled back, and released to swing through wires mounted horizontally at a height of approximately .[2] Similar pendulum tests were subsequently performed at Langley for Bell UH-1H[5] and AH-1S helicopters in 1981 and 1982.
All small to medium United States Army helicopters were fitted with WSPS in a retrofit programme that was completed in 1992.[6] Between 1996 and 2002 the US Army had no fatal wire strike accidents. In civil helicopter operations, wire cutters were thought to be most effective for agricultural flights.[1] Of the 208 wire strike accidents in the 1970s, almost half could have been avoided with wire cutters and other recommended mechanical upgrades.[1]
The system is typically mounted around the front of American military helicopters,[7] rescue helicopters and of civilian helicopters involved in agricultural work. It is effective when the helicopter strikes the wires at angle of less than 90 degrees and at speeds more than 30knot. The system is designed to cut a NaNinches steel cable with a breaking strength of 12000lb.
The WSPS developed by Bristol, which is typical of most cable cutters today, consists of a roof-mounted cutter, a lower cutter fitted to the fuselage, and a deflector fitted to the middle of the windshield to guide the cable into the cutters.[2] Sometimes a windshield wiper protector frame is used to stop the cables from catching on wiper motor shafts.[8] As installed, the OH-58 WSPS developed by Bristol weighs 16.3lb and requires 40 man-hours to install.[2]
Wire Strike Protection System is a registered trademark of Magellan Aerospace, the parent company of Bristol via acquisition.[9] Dart Aerospace markets an equivalent apparatus under the name Cable Cutter System.[10] Cable cutting systems to protect helicopters have been developed by other manufacturers, including MD Helicopters (1981),[11] Custom Air (1987),[12] Airbus Helicopters (2008[13] and 2011),[14] and Bell Helicopter (2014).[15] Another invention aims to protect the rotor by equipping the control rods with cutting edges.[16]