直升机在行动

导演：David Douglas 

年代：2002 

地区：美国 

类型：记录 

主演：马丁·辛 

更新时间：2023-11-02 16:46:19

简介：　　Agusta 109K2: Alpine Medivac Rescu　　Straight Up's exploration of vertical flight begins with a high-impact alpine rescue amid an avalanche. The dramatic opening sequence documents the dangerous work of the Rega mountain rescue team and the invaluable role of the Agusta A109K2 helicopter in saving lives and minimizing injuries.　　As the camera pans over beautiful vistas of the snow-covered Swiss Alps, it cuts to a cornice, as a chunk of snow breaks free, triggering an avalanche. The tranquil scene is shattered as the avalanche thunders down the mountain slopes. With terrifying speed, it heads straight for a mother and child trapped in their car, wheels spinning on the icy road.　　The mother calls for help on her cell phone, and a second call from a snowplow prompts radio dispatch. The Rega mountain rescue team already is airborne en route to the scene, the red cross painted on the helicopter's white underbelly signaling that medical help is on the way. The mother escapes, but her son is missing. Within minutes of the helicopter landing, the rescue team dig out the car, extract the trapped boy, apply first aid, and airlift him and his mother to safety.　　A significant mountain hazard, avalanches are responsible for many deaths each year. Time is of the essence in avalanche rescue work. A person has a 90 percent chance of survival if found within the first 15 minutes, but one's chances of survival diminish with each passing minute. Not only do helicopters provide quick access for rescue teams, they also provide a lifeline to medical care. Flying the injured to the nearest hospital as rapidly as possible is not the only type of rescue operation; often helicopters bring the hospital to the injured, who receive treatment at the scene.　　The powerful avalanche was shot in British Columbia's Selkirk Mountains under the supervision of the Canadian Avalanche Association. The CAA controls avalanche risk for the safety of heli-skiers. To capture the avalanche head-on, avalanche expert and filmmaker Steve Krochel and David Douglas developed a quarter-inch-thick steel container for the IMAX camera, which was equipped with a triggering device and a beeper so that the camera could be found once the avalanche had swept it down the mountain.　　The rescue was completed in Switzerland's Bernina Pass near the Italian border. Filming the Rega rescue helicopter air-to-air sequence turned into an international excursion as Douglas chased the sunlight over Italy in one direction and in Austria in another before setting down in Switzerland. In another dramatic shot, Douglas centered the red cross in the crosshairs of the camera lens as the craft descended. To facilitate this shot, Douglas dug a hole in the snow large enough to accommodate himself and the IMAX camera. Inside the hole, 3 feet below the helicopter, he filmed its takeoff.　　According to Douglas, "The helicopter is the instrument of rapid response to natural physical and social disasters around the world, alleviating human suffering on a major scale. For the individual caught beyond the limits of training or equipment, often the last chance for survival is the hope that a helicopter will get to them in time. "　　The Pitcairn PCA 2, "Miss Champion"　　For centuries humans dreamed of flight. The Chinese, in the 12th century, developed a toy helicopter made from a pair of slats mounted on a stick, but serious efforts had to wait until the early 20th century. Then, after the Wright brothers' historic flight at Kitty Hawk, we dreamed of flight unfettered by the limitations of runways and airports. Yet by the early 1930s we were still at the dawn of the practical rotorcraft, which promised to give form to humanity's vision.　　The ten year period between 1925 and 1935 was an exciting time in aviation history, but few aircraft so caught and held the public's attention, as the Autogiro. Nicknamed the "flying windmill," this strange-looking aircraft was first successfully flown in 1923 by the Spanish inventor, Juan de la Cierva, who had been working on the development of such a craft since 1919. The Autogiro fascinated the air-minded public because of its remarkable performance and high degree of safety, attracting such leaders of American aviation as Charles Lindbergh and Amelia Earhart.　　Juan de la Cierva sold the American manufacturing rights to Harold Pitcairn in 1928. Pitcairn's Autogiro boasted a more modern fuselage with better aerodynamic qualities. It also provided prospective buyers with a choice of either a 300- or 420-horsepower engine.　　In the film, Harold Pitcairn's son Stephen flies "Miss Champion," a 1931 model. This Autogiro, used for promotion by the Champion Spark Plug Company, is controlled like an airplane, but is lifted with blades. Although the original rotor blades have seen 1,600 hours of flight time, they are still airworthy. With a 330-horsepower Wright R 975-E engine, the Autogiro has a cruising speed of 98 mph and a top speed of 118 mph. "Miss Champion" led a National Air Tour and made the then-risky 300- mile-long flight from Miami to Havana, Cuba. (Until then, the longest over-water flight by an Autogiro had been 25 miles in length.) Later, "Miss Champion" flew nonstop over a distance of 500 miles to Chichen Itza in the Yucatan rainforest. "Miss Champion" was retired from active service in 1932 after setting a new altitude record for rotary-wing aircraft. Climbing to a height of 21,500 feet in 1932, the Autogiro surpassed the previous record set by Amelia Earhart. Today, the Autogiro is considered to be the evolutionary "missing link" from which the practical helicopter was born.　　Forty years later Stephen Pitcairn began the formidable task of collecting and restoring examples of his father's aircraft. He tracked down "Miss Champion" and in October of 1982 began the painstaking task of restoration, using the original Pitcairn factory drawings. In the spring of 1985 "Miss Champion" flew again.　　The Bell 47G: A Flying Lesson　　Since Pitcairn's Autogiro, improved control systems allow the airframe to rise directly from the ground with a powered rotor. Straight Up! puts you in the pilot's seat of a Bell 47G as the basic elements of helicopter operation are demonstrated. The Bell 47G's single-rotor configuration is by far the most common type used today. Your flying lesson begins.　　As a helicopter pilot, the pilot uses all four limbs to fly, all at the same time! With the left hand holding the collective pitch control lever, he pulls up ever so slightly, and we go straight up into a slow-motion hover. The spinning rotor blades act as small wings, but they spin so fast that they create one continuous disc of lift. When the blades change angle, or pitch collectively, the helicopter rises or falls. The pilot's right hand always holds the cyclic control, effectively tilting the whirling disc above. Point left, tilt left. Point right, tilt right. The camera then closes in on the tail rotor. Once again, the altering of the blades affects direction. The chopper spins in response to the pilot's depressing one of the two foot pedals. If he depresses the second pedal, the helicopter spins in the opposite direction.　　The Piasecki H-21B Tandem Rotor Aircraft, "The Flying Banana"　　The last flying H-21B helicopter in the world takes off, heads for the beach and cruises 100 feet above the Pacific surf off the coast of California. One of the earliest tandem helicopters, the H-21B represents the birth of the heavy lift helicopters and dates back to the early 1950s. Nicknamed "The Flying Banana" for its shape, the H-21B had more power and greater stability than previous helicopters. The tandem-rotor H-21B carries two sets of wooden blades situated nearly 50 feet apart but operated by one set of helicopter flight controls. The pilot must be ever vigilant, as this helicopter could rapidly invert should the pilot let go of the controls.　　The vintage H-21B used for the film was decommissioned from the U.S. Air Force in 1972 and was restored by the California-based Classic Rotors: The Rare and Vintage Rotocraft Museum. This nonprofit museum and restoration facility, dedicated to the preservation of unique, vintage and rare rotorcraft, spent more than 10,000 hours returning the H-21B to airworthiness. Every hour flown requires 100 hours of maintenance. Classic Rotors is the only museum of its kind to maintain eight helicopters in flying condition. When its new facility in San Diego has been completed, the museum will expand its exhibits from 15 to 30 vintage rotorcraft.　　One of the highlights of its collection is a famous relative of the H-21B. This is a V 44 (the commercial version of the H-21)-nicknamed "The Holy One"-and is the only one to land at the Vatican and be blessed by the pope. While on a 1959 demonstration tour in Europe, the helicopter and its crew had provided help to Italian communities following a devastating earthquake.　　Future Helicopter Designs　　One aspect of current research centers around the development of "quiet technology" that will allow helicopters to become better neighbors and to operate more stealthily in police and military operations.　　Quiet technology advances rely on a combination of technologies, which include improved rotor blade design and the user of rotor systems with four or more blades. Replacing the tail rotor with a Coanda-effect NOTAR (NoTailRotor) system goes a long way in reducing noise, as does shrouding the tail rotor in an arrangement know as a "fan-in-fin." Other advances focus on noise-dampening air inlets and improved engine nozzles.　　New helicopter designs are tested in the world's largest wind tunnel at the NASA Ames Flight Research Center located at Moffett Field in California. Ames was founded in 1939 as an aircraft research laboratory of the National Advisory Committee for Aeronautics, which became part of the National Aeronautics and Space Administration (NASA) in 1958. NASA has the leading role in aerospace operations systems, which include air traffic control, flight effects on humans, and rotorcraft technology. NASA Ames scientists and engineers study robotic helicopters, high-speed hybrids, and advances in quiet technology. The center also has major responsibilities for the creation of design and development tools and for wind tunnel testing.　　The NASA-Bell XV-15 Tilt-rotor　　In the film, an XV-15 converts over Dallas-Fort Worth Airport. The XV-15 is an experimental rotorcraft, the parent of a new family of aircraft called "tilt-rotors." The tilt-rotor combines the hovering ability of the helicopter with the speed of a fixed-wing aircraft. The XV-15 can take off and land like a helicopter. The audience will see the engines tilting forward as the tilt-rotor becomes a high-speed plane.　　The Bell-Boeing V-22 Osprey　　A V-22 Osprey unwraps, emerging like a prehistoric flying dinosaur. Built primarily for the U.S. Marines, Air Force, and Navy, the V-22 Osprey has wings that pivot and rotors that fold to facilitate its storage at sea. In less than 90 seconds, you will see the V-22 complete this process. Although still classified as a tilt-rotor, it is faster, with three times the range and more than ten times the payload of its predecessor. It shows the promise of long-distance travel, without airports.　　The Hawk 4 Gyroplane　　Rotorcraft evolution is also in the hands of the entrepreneur, and this independent spirit is most evident in the Hawk 4 Gyroplane. While some designs produce groundbreaking changes, this aircraft brought the economy and safety of the Autogiro into the space age. A rotor is used for slow-speed flight, but at high-speed cruising all the lift is provided by the wing while the rotor has no lift. The Gyroplane shows promise as a high-speed, low-disc-loading rotorcraft.　　The Boeing-Sikorsky RAH-66 Comanche　　The Comanche rips and dips across the screen, set against a sunset. This prototype helicopter has stealth technology. It's smart, agile, fast and invisible to radar. It's the first helicopter to provide real-time digital data to headquarters. Seeing in the dark, sensing the forces at play around us and acting on the evidence in real time, the Comanche is a complex flying machine with a human being at its heart. Everyday, in unexpected ways, it extends our powers and puts us to work with a revolutionary tool.　　The Comanche is the central element of the U.S. Army's future Objective Force. In addition to its complement of missiles and 20-mm cannon, the aircraft carries state-of-the-art sensors and avionics to provide battlefield commanders with so much accurate information about enemy movements. This knowledge will translate into more precise targeting, increasing the effectiveness of friendly forces beyond current capabilities.　　The U.S. Army has defined a requirement of more than 1,200 Comanches for the Objective Force. The RAH Comanche, the army's 21st-century combat helicopter is being developed by the U.S. Army and a team of leading aerospace companies headed by the Boeing Company and Sikorsky Aircraft Corporation, a unit of United Technologies Corporation.　　The Sikorsky UH-60 Black Hawk and AS 350 B2 AStar Enforce the Law　　Events swiftly unfold as the radar plane spots an "unidentified" Cessna dropping bundles of drugs off the coast of Miami at dawn. A signal alerts the Marine and Air Branch of U.S. Customs who speed out to intercept the smugglers. Just as the drugs are transferred from boat to van, The AStar helicopter bursts over the treetops, deploying a tactical team to arrest the driver. While the smuggler's Cigarette boat attempts to escape, a Black Hawk helicopter dips down to create a giant backwash. In a stunning display of impeccable teamwork, this action forces the fleeing boat to swerve to a halt as a Customs boat cuts it off and apprehends the criminals.　　On a typical day, the U.S. Customs Service examines 1.3 million passengers, 2,642 aircraft, 50,889 trucks/containers, 355,004 other vehicles, 588 vessels, 64,923 entries and undertakes the following enforcement actions: 64 arrests, 107 narcotic seizures, 223 other seizures, 9 currency seizures. These amount to 5,059 pounds of narcotics, $443,907 in currency, $228,803 in conveyances, $525,791 in merchandise and more than $15,800 in arms and ammunition.　　Filmed over a period of five days off the coast of Miami, the air, land, and sea drug bust was staged by the U.S. Customs Service, which relies heavily on helicopters during such operations.　　U.S. Customs pilot, Tom Stanton, participated in the shoot with his co-pilot Kimberly Kessel. Kessel is one of seven women U.S. Customs pilots and only one of two qualified to fly Black Hawks. Both pilots volunteered to work with the film crew. Says Kessel, a graduate of Embry-Riddle Aeronautical University, "They were phenomenal, ready to try anything."　　In addition to daytime flights, Stanton flies the riskier night missions. "Flying at night is dangerous as you lose all perception of what's up or down because both the sky and ocean are black, so they just kind of run in together. There's no horizon on those dark nights," says the veteran pilot.　　Typically he flies from 300 to 500 feet above the water at 120 to 150 knots. "Not many people fly that low, even in the daytime," says Stanton. "There's no autopilot, so it's hands on. Plus you're chasing someone. You have to be aware. It can get tense out there."　　Stanton describes an air chase: "Once there's a target, we launch a jet with radar. The jet pilot calls the helicopter out and we link up, flying in formation. We follow the bad guy wherever he goes. If he has extended-range fuel tanks, we leapfrog and send another helicopter out to take up the chase. (The Black Hawk carries five hours of fuel.) When he gets into his landing configuration, we call the local police or sheriff to help us out." The Black Hawk, which can carry up to 14 people, typically carries 4 or 5 armed personnel, "so we instantly have a force of police officers there to get the bad guys."　　"If it's a boat, we have Cigarette boats like the smugglers. We'll call our boat and have it intercept." Stanton flies the Black Hawk next to the boat, making it hard for the smugglers to navigate. "It intimidates them into giving up. Sometimes they do [but] sometimes we chase them for hours. Or we'll follow them into a marina and block them until our boats come. If they hit the beach, we'll call the state police or sheriff, and they set up a perimeter so the guy can't get out."　　Stanton, who flies missions as often as once or twice a week, has been flying for 26 years, 13 of those as an army helicopter pilot before he joined U.S. Customs in Miami where he is the "standardization instructor pilot." He makes sure that everybody flies the same way, so that when they team up, the pilots easily work in tandem. Pilots fly 8-hour shifts and the operation goes on 24 hours a day, 7 days a week in areas covering both the Canadian and Mexican land borders, the Atlantic and Pacific coastlines, and the Gulf of Mexico.　　The MD 500E Helicopter　　A MD 500 helicopter hovers directly above 500,000-volt power lines. As it inches closer, a lightning bolt suddenly zaps out from the hot line, arcing toward the wand extended by a lineman perched on an aluminum platform that juts out from the helicopter. The "hot-line-qualified" lineman clamps onto the power lines, and helicopter backs off, leaving him to "wire walk," crawling along parallel lines to inspect the PPL power line grid, 100 feet off the ground. To reboard the helicopter, the lineman must "bond off," reversing the procedure.　　"I don't give two hoots and a holler about flying inside a helicopter. Put me outside, that's where I want to be," says Daniel "Spider" Lockhart, AgRotors lineman. There's only three things I've been afraid of most of my life: One was electricity, one was heights and the other was women. And, I'm married too," he grins. "The safest lineman is one that is afraid of electricity. When we bond to the power lines energized at half-a-million volts, we have to bring ourselves to the same potential. That is why you see that arc jumping out to our wand as we make both the helicopter and the power line at the same potential, so that we can eliminate the flow of current," explains the veteran lineman.　　Spider wears a protective hot suit, 75 percent Nomex for fire retardation and 25 percent stainless steel thread. "The metal thread basically means I have a cage around me that can be energized at very high voltage levels. A half-million volts pass over my body, but I can work without interference from the electricity."　　He continues, "Watching that electricity jump out while you're energizing the helicopter is a thrill. Getting on the wire, walking the wire to do repairs is a thrill. The biggest thrill I get is from doing what I do is being able to do both together-the electrical part and the helicopter part of it, the speed at which we can do it and still be safe. There are so many things that the helicopter enables us to do as linemen, which is very rewarding."　　The teamwork of the skilled helicopter pilots and highly trained linemen ensure that the PPL Corp. provides a constant source of electricity to its 1.3 million customers in Pennsylvania (in addition to 4.4 million in Latin America and Europe). To maintain the integrity of the transmission system to residential and commercial establishments, and to ensure the safety of the operation, the team plans and rehearses