超级军网谁有兴趣?美军的富尔顿回收系统
来源:百度文库 编辑:超级军网 时间:2024/04/28 06:45:45
记得前一段有人问起这个,无意中看到一些,贴出来共享!
The Fulton surface-to-air recovery system (STARS) is a system used by the United States Air Force and United States Navy for retrieving persons on the ground from a MC-130E Combat Talon I aircraft. It involves using an overall-type harness and a self-inflating balloon which carries an attached lift line. An MC-130E engages the line with its V-shaped yoke and the individual is reeled on board. Red flags on the lift line guide the pilot during daylight recoveries; lights on the lift line are used for night recoveries. Recovery kits were designed for one and two-man recoveries.
This system was developed by inventor Robert Edison Fulton, Jr. for the Central Intelligence Agency in the early 1950s. It was an evolution from a similar system that was used during World War II by American and British forces. The earlier system did not use a balloon, but had a pair of poles that were set in the ground on either side of the person to be retrieved, with a line running from the top of one pole to the other. An aircraft, usually a C-47 Skytrain, would trail a grappling hook and engage the line, which was attached to the person to be retrieved.
The Skyhook system
Experiments began in 1950. Using a weather balloon, nylon line, and 10- to 15-pound weights, Fulton made numerous pickup attempts as he sought to develop a reliable procedure. Successful at last, he had his son photograph the operation. Fulton then took the film to Admiral Luis de Florez, who had become the first director of technical research at the CIA. Believing that the program could best be handled by the military, de Florez put Fulton in touch with the Office of Naval Research (ONR). Thanks to de Florez's interest, Fulton received a development contract from ONR's Air Programs Division.
Over the next few years, Fulton refined the air and ground equipment for the pickup system. Based at El Centro, California, he conducted numerous flights over the desert, using a Navy P2V for the pickups. He gradually increased the weight of the pickup until the line began to break. A braided nylon line with a test strength of 4,000 pounds solved the problem. More vexing were the difficulties that were experienced with the locking device, or sky anchor, that secured the line to the aircraft. Fulton eventually resolved this problem, which he considered the most demanding part of the entire developmental process.
By 1958, the Fulton aerial retrieval system, or Skyhook, had taken its final shape. A package that easily could be dropped from an aircraft contained the necessary ground equipment for a pickup. It featured a harness, for cargo or person, that was attached to a 500-foot (150 m), high-strength, braided nylon line. A portable helium bottle inflated a dirigible-shaped balloon, raising the line to its full height.
The pickup aircraft sported two tubular steel "horns" protruding from its nose, 30 feet long and spread at a 70° angle. The aircraft would fly into the line, aiming at a bright mylar marker placed at the 425-foot (130 m) level. As the line was caught between the forks on the nose of the aircraft, the balloon was released at the same time the spring-loaded trigger mechanism (sky anchor) secured the line to the aircraft. As the line streamlined under the fuselage, it was snared by the pickup crew, using a J-hook. It was then attached to a powered winch and pulled on board. The aircraft also had cables strung from the nose to the wingtips to keep the balloon line away from the propellers, in case the catch was unsuccessful.
Fulton first used instrumented dummies as he prepared for a live pickup. He next used a pig, as pigs have nervous systems close to humans. Lifted off the ground, the pig began to spin as it flew through the air at 125 mph (200 km/h). It arrived on board undamaged but in a disoriented state. Once it recovered, it attacked the crew.[1]
First human pickups
The CIA had secretly trained paramilitary officers to use the system for human pickups as early as 1952. The first human recovery mission authorized for operational use of the system took place in Manchuria on 29 November 1952. CIA C-47 pilots Norman Schwartz and Robert Snoddy were trained in the aerial pickup technique during the fall of 1952. CIA paramilitary officers John T. Downey and Richard G. Fecteau, themselves hurriedly trained in the procedure during the week of 24 November, were to recover a courier who was in contact with anti-communist sympathizers in the area. The mission failed when Chinese forces downed the aircraft with small arms fire, capturing survivors Downey and Fecteau.[1]
The first human pickup took place on 12 August 1958, when Staff Sergeant Levi W. Woods, USMC, was winched on board the P2V. Because of the geometry involved, the person being picked up experienced less of a shock than during a parachute opening. After the initial contact, which was described by one individual as similar to "a kick in the pants," the person rose vertically at a slow rate to about 100 feet, then began to streamline behind the aircraft. Extension of arms and legs prevented spinning, as the individual was winched on board. The process took about six minutes.
In August 1960, Capt. Edward A. Rodgers, commander of the Naval Air Development Unit, flew a Skyhook-equipped P2V to Point Barrow, Alaska, to conduct pickup tests under the direction of Dr. Max Brewer, head of the Navy's Arctic Research Laboratory. With Fulton on board to monitor the equipment, the P2V picked up mail from Floating Ice Island T-3, retrieved artifacts, including mastodon tusks, from an archeological party on the tundra, and secured geological samples from Peters Lake Camp. The high point of the trials came when the P2V dropped a rescue package near the icebreaker USS Burton IslandTemplate:WP Ships USS instances. Retrieved by a ship's boat, the package was brought on deck, the balloon inflated, and the pickup accomplished.
[edit] Operation Coldfeet
The stage was now set for the first operational use of Skyhook. What became known as Operation Coldfeet began in May 1961, when a naval aircraft flying an aeromagnetic survey over the Arctic Ocean reported sighting an abandoned Soviet drift station. A few days later, the Soviets announced that they had been forced to leave Station NP 9 (a different station, NP-8 ended up being the target) when the ice runway used to supply it had cracked.
The prospect of examining an abandoned Soviet ice station attracted ONR's interest. The previous year, ONR had set an acoustical surveillance network on a US drift station used to monitor Soviet submarines. ONR assumed that the Soviets would have a similar system to keep track of American submarines as they transited the polar ice pack, but there was no direct evidence to support this. Also, ONR wanted to compare Soviet efforts on drift stations with US operations.
The problem was how to get to NP 9. It was far too deep into the ice pack to be reached by an icebreaker, and it was out of helicopter range. Fulton's Skyhook seemed to provide the answer. To Capt. John Cadwalader, who would command Operation Coldfeet, it looked like "a wonderful opportunity" to make use of the pickup system.
Following a recommendation by Dr. Max Britton, head of the Arctic program in the Geography Branch of ONR, RAdm. L. D. Coates, Chief of Naval Research, authorized preliminary planning for the mission while he sought final approval from the Chief of Naval Operations. The mission was scheduled for September, a time of good weather and ample daylight. NP 9 would be within 600 miles of the US Air Force base at Thule, Greenland, the planned launching point for the operation.
ONR selected two highly qualified investigators for the ground assignment. Maj. James Smith, USAF, was an experienced paratrooper and Russian linguist who had served on US Drift Stations Alpha and Charlie. Lt. Leonard A. LeSchack, USNR, a former Antarctic geophysicist, had set up the surveillance system on T-3 in 1960. Although not jump qualified, he quickly went through the course at Lakehurst Naval Air Station. During the summer, the two men trained on the Fulton retrieval system, working in Maryland with an experienced P2V crew at the Naval Air Test Center.
The following year, 1962, a converted CIA B-17 Flying Fortress dropped both men on NP-8. After 72-hours on site, a pick-up was made of the Soviet equipment that had been gathered and of both men. This mission required the use of three separate extractions—first for the Soviet equipment, then of LeSchack and finally of Smith.[1]
[edit] Later uses
The Fulton system was used from 1965 to 1996 on several variants of the C-130 Hercules including the MC-130s and HC-130s. Despite the apparent high-risk related to the use of the system, only one fatal accident occurred in 17 years of use (in 1982). The increased availability of long-range helicopters such as MH-53 Pave Low, HH-60 Pave Hawk and MH-47 Chinook, all with aerial refueling capability, caused this system to be used less often. In September 1996, the Air Force Special Operations Command ceased maintaining the capability to deploy this system. This was until 2001 when this system was again used when a British special forces soldier was injured in Afghanistan and was successfully recovered onto a C-130 Hercules.[citation needed] The C-130 used was probably not USAF as those aircraft had the systems removed from them prior to operations in Afghanistan.记得前一段有人问起这个,无意中看到一些,贴出来共享!
The Fulton surface-to-air recovery system (STARS) is a system used by the United States Air Force and United States Navy for retrieving persons on the ground from a MC-130E Combat Talon I aircraft. It involves using an overall-type harness and a self-inflating balloon which carries an attached lift line. An MC-130E engages the line with its V-shaped yoke and the individual is reeled on board. Red flags on the lift line guide the pilot during daylight recoveries; lights on the lift line are used for night recoveries. Recovery kits were designed for one and two-man recoveries.
This system was developed by inventor Robert Edison Fulton, Jr. for the Central Intelligence Agency in the early 1950s. It was an evolution from a similar system that was used during World War II by American and British forces. The earlier system did not use a balloon, but had a pair of poles that were set in the ground on either side of the person to be retrieved, with a line running from the top of one pole to the other. An aircraft, usually a C-47 Skytrain, would trail a grappling hook and engage the line, which was attached to the person to be retrieved.
The Skyhook system
Experiments began in 1950. Using a weather balloon, nylon line, and 10- to 15-pound weights, Fulton made numerous pickup attempts as he sought to develop a reliable procedure. Successful at last, he had his son photograph the operation. Fulton then took the film to Admiral Luis de Florez, who had become the first director of technical research at the CIA. Believing that the program could best be handled by the military, de Florez put Fulton in touch with the Office of Naval Research (ONR). Thanks to de Florez's interest, Fulton received a development contract from ONR's Air Programs Division.
Over the next few years, Fulton refined the air and ground equipment for the pickup system. Based at El Centro, California, he conducted numerous flights over the desert, using a Navy P2V for the pickups. He gradually increased the weight of the pickup until the line began to break. A braided nylon line with a test strength of 4,000 pounds solved the problem. More vexing were the difficulties that were experienced with the locking device, or sky anchor, that secured the line to the aircraft. Fulton eventually resolved this problem, which he considered the most demanding part of the entire developmental process.
By 1958, the Fulton aerial retrieval system, or Skyhook, had taken its final shape. A package that easily could be dropped from an aircraft contained the necessary ground equipment for a pickup. It featured a harness, for cargo or person, that was attached to a 500-foot (150 m), high-strength, braided nylon line. A portable helium bottle inflated a dirigible-shaped balloon, raising the line to its full height.
The pickup aircraft sported two tubular steel "horns" protruding from its nose, 30 feet long and spread at a 70° angle. The aircraft would fly into the line, aiming at a bright mylar marker placed at the 425-foot (130 m) level. As the line was caught between the forks on the nose of the aircraft, the balloon was released at the same time the spring-loaded trigger mechanism (sky anchor) secured the line to the aircraft. As the line streamlined under the fuselage, it was snared by the pickup crew, using a J-hook. It was then attached to a powered winch and pulled on board. The aircraft also had cables strung from the nose to the wingtips to keep the balloon line away from the propellers, in case the catch was unsuccessful.
Fulton first used instrumented dummies as he prepared for a live pickup. He next used a pig, as pigs have nervous systems close to humans. Lifted off the ground, the pig began to spin as it flew through the air at 125 mph (200 km/h). It arrived on board undamaged but in a disoriented state. Once it recovered, it attacked the crew.[1]
First human pickups
The CIA had secretly trained paramilitary officers to use the system for human pickups as early as 1952. The first human recovery mission authorized for operational use of the system took place in Manchuria on 29 November 1952. CIA C-47 pilots Norman Schwartz and Robert Snoddy were trained in the aerial pickup technique during the fall of 1952. CIA paramilitary officers John T. Downey and Richard G. Fecteau, themselves hurriedly trained in the procedure during the week of 24 November, were to recover a courier who was in contact with anti-communist sympathizers in the area. The mission failed when Chinese forces downed the aircraft with small arms fire, capturing survivors Downey and Fecteau.[1]
The first human pickup took place on 12 August 1958, when Staff Sergeant Levi W. Woods, USMC, was winched on board the P2V. Because of the geometry involved, the person being picked up experienced less of a shock than during a parachute opening. After the initial contact, which was described by one individual as similar to "a kick in the pants," the person rose vertically at a slow rate to about 100 feet, then began to streamline behind the aircraft. Extension of arms and legs prevented spinning, as the individual was winched on board. The process took about six minutes.
In August 1960, Capt. Edward A. Rodgers, commander of the Naval Air Development Unit, flew a Skyhook-equipped P2V to Point Barrow, Alaska, to conduct pickup tests under the direction of Dr. Max Brewer, head of the Navy's Arctic Research Laboratory. With Fulton on board to monitor the equipment, the P2V picked up mail from Floating Ice Island T-3, retrieved artifacts, including mastodon tusks, from an archeological party on the tundra, and secured geological samples from Peters Lake Camp. The high point of the trials came when the P2V dropped a rescue package near the icebreaker USS Burton IslandTemplate:WP Ships USS instances. Retrieved by a ship's boat, the package was brought on deck, the balloon inflated, and the pickup accomplished.
[edit] Operation Coldfeet
The stage was now set for the first operational use of Skyhook. What became known as Operation Coldfeet began in May 1961, when a naval aircraft flying an aeromagnetic survey over the Arctic Ocean reported sighting an abandoned Soviet drift station. A few days later, the Soviets announced that they had been forced to leave Station NP 9 (a different station, NP-8 ended up being the target) when the ice runway used to supply it had cracked.
The prospect of examining an abandoned Soviet ice station attracted ONR's interest. The previous year, ONR had set an acoustical surveillance network on a US drift station used to monitor Soviet submarines. ONR assumed that the Soviets would have a similar system to keep track of American submarines as they transited the polar ice pack, but there was no direct evidence to support this. Also, ONR wanted to compare Soviet efforts on drift stations with US operations.
The problem was how to get to NP 9. It was far too deep into the ice pack to be reached by an icebreaker, and it was out of helicopter range. Fulton's Skyhook seemed to provide the answer. To Capt. John Cadwalader, who would command Operation Coldfeet, it looked like "a wonderful opportunity" to make use of the pickup system.
Following a recommendation by Dr. Max Britton, head of the Arctic program in the Geography Branch of ONR, RAdm. L. D. Coates, Chief of Naval Research, authorized preliminary planning for the mission while he sought final approval from the Chief of Naval Operations. The mission was scheduled for September, a time of good weather and ample daylight. NP 9 would be within 600 miles of the US Air Force base at Thule, Greenland, the planned launching point for the operation.
ONR selected two highly qualified investigators for the ground assignment. Maj. James Smith, USAF, was an experienced paratrooper and Russian linguist who had served on US Drift Stations Alpha and Charlie. Lt. Leonard A. LeSchack, USNR, a former Antarctic geophysicist, had set up the surveillance system on T-3 in 1960. Although not jump qualified, he quickly went through the course at Lakehurst Naval Air Station. During the summer, the two men trained on the Fulton retrieval system, working in Maryland with an experienced P2V crew at the Naval Air Test Center.
The following year, 1962, a converted CIA B-17 Flying Fortress dropped both men on NP-8. After 72-hours on site, a pick-up was made of the Soviet equipment that had been gathered and of both men. This mission required the use of three separate extractions—first for the Soviet equipment, then of LeSchack and finally of Smith.[1]
[edit] Later uses
The Fulton system was used from 1965 to 1996 on several variants of the C-130 Hercules including the MC-130s and HC-130s. Despite the apparent high-risk related to the use of the system, only one fatal accident occurred in 17 years of use (in 1982). The increased availability of long-range helicopters such as MH-53 Pave Low, HH-60 Pave Hawk and MH-47 Chinook, all with aerial refueling capability, caused this system to be used less often. In September 1996, the Air Force Special Operations Command ceased maintaining the capability to deploy this system. This was until 2001 when this system was again used when a British special forces soldier was injured in Afghanistan and was successfully recovered onto a C-130 Hercules.[citation needed] The C-130 used was probably not USAF as those aircraft had the systems removed from them prior to operations in Afghanistan.
The Fulton surface-to-air recovery system (STARS) is a system used by the United States Air Force and United States Navy for retrieving persons on the ground from a MC-130E Combat Talon I aircraft. It involves using an overall-type harness and a self-inflating balloon which carries an attached lift line. An MC-130E engages the line with its V-shaped yoke and the individual is reeled on board. Red flags on the lift line guide the pilot during daylight recoveries; lights on the lift line are used for night recoveries. Recovery kits were designed for one and two-man recoveries.
This system was developed by inventor Robert Edison Fulton, Jr. for the Central Intelligence Agency in the early 1950s. It was an evolution from a similar system that was used during World War II by American and British forces. The earlier system did not use a balloon, but had a pair of poles that were set in the ground on either side of the person to be retrieved, with a line running from the top of one pole to the other. An aircraft, usually a C-47 Skytrain, would trail a grappling hook and engage the line, which was attached to the person to be retrieved.
The Skyhook system
Experiments began in 1950. Using a weather balloon, nylon line, and 10- to 15-pound weights, Fulton made numerous pickup attempts as he sought to develop a reliable procedure. Successful at last, he had his son photograph the operation. Fulton then took the film to Admiral Luis de Florez, who had become the first director of technical research at the CIA. Believing that the program could best be handled by the military, de Florez put Fulton in touch with the Office of Naval Research (ONR). Thanks to de Florez's interest, Fulton received a development contract from ONR's Air Programs Division.
Over the next few years, Fulton refined the air and ground equipment for the pickup system. Based at El Centro, California, he conducted numerous flights over the desert, using a Navy P2V for the pickups. He gradually increased the weight of the pickup until the line began to break. A braided nylon line with a test strength of 4,000 pounds solved the problem. More vexing were the difficulties that were experienced with the locking device, or sky anchor, that secured the line to the aircraft. Fulton eventually resolved this problem, which he considered the most demanding part of the entire developmental process.
By 1958, the Fulton aerial retrieval system, or Skyhook, had taken its final shape. A package that easily could be dropped from an aircraft contained the necessary ground equipment for a pickup. It featured a harness, for cargo or person, that was attached to a 500-foot (150 m), high-strength, braided nylon line. A portable helium bottle inflated a dirigible-shaped balloon, raising the line to its full height.
The pickup aircraft sported two tubular steel "horns" protruding from its nose, 30 feet long and spread at a 70° angle. The aircraft would fly into the line, aiming at a bright mylar marker placed at the 425-foot (130 m) level. As the line was caught between the forks on the nose of the aircraft, the balloon was released at the same time the spring-loaded trigger mechanism (sky anchor) secured the line to the aircraft. As the line streamlined under the fuselage, it was snared by the pickup crew, using a J-hook. It was then attached to a powered winch and pulled on board. The aircraft also had cables strung from the nose to the wingtips to keep the balloon line away from the propellers, in case the catch was unsuccessful.
Fulton first used instrumented dummies as he prepared for a live pickup. He next used a pig, as pigs have nervous systems close to humans. Lifted off the ground, the pig began to spin as it flew through the air at 125 mph (200 km/h). It arrived on board undamaged but in a disoriented state. Once it recovered, it attacked the crew.[1]
First human pickups
The CIA had secretly trained paramilitary officers to use the system for human pickups as early as 1952. The first human recovery mission authorized for operational use of the system took place in Manchuria on 29 November 1952. CIA C-47 pilots Norman Schwartz and Robert Snoddy were trained in the aerial pickup technique during the fall of 1952. CIA paramilitary officers John T. Downey and Richard G. Fecteau, themselves hurriedly trained in the procedure during the week of 24 November, were to recover a courier who was in contact with anti-communist sympathizers in the area. The mission failed when Chinese forces downed the aircraft with small arms fire, capturing survivors Downey and Fecteau.[1]
The first human pickup took place on 12 August 1958, when Staff Sergeant Levi W. Woods, USMC, was winched on board the P2V. Because of the geometry involved, the person being picked up experienced less of a shock than during a parachute opening. After the initial contact, which was described by one individual as similar to "a kick in the pants," the person rose vertically at a slow rate to about 100 feet, then began to streamline behind the aircraft. Extension of arms and legs prevented spinning, as the individual was winched on board. The process took about six minutes.
In August 1960, Capt. Edward A. Rodgers, commander of the Naval Air Development Unit, flew a Skyhook-equipped P2V to Point Barrow, Alaska, to conduct pickup tests under the direction of Dr. Max Brewer, head of the Navy's Arctic Research Laboratory. With Fulton on board to monitor the equipment, the P2V picked up mail from Floating Ice Island T-3, retrieved artifacts, including mastodon tusks, from an archeological party on the tundra, and secured geological samples from Peters Lake Camp. The high point of the trials came when the P2V dropped a rescue package near the icebreaker USS Burton IslandTemplate:WP Ships USS instances. Retrieved by a ship's boat, the package was brought on deck, the balloon inflated, and the pickup accomplished.
[edit] Operation Coldfeet
The stage was now set for the first operational use of Skyhook. What became known as Operation Coldfeet began in May 1961, when a naval aircraft flying an aeromagnetic survey over the Arctic Ocean reported sighting an abandoned Soviet drift station. A few days later, the Soviets announced that they had been forced to leave Station NP 9 (a different station, NP-8 ended up being the target) when the ice runway used to supply it had cracked.
The prospect of examining an abandoned Soviet ice station attracted ONR's interest. The previous year, ONR had set an acoustical surveillance network on a US drift station used to monitor Soviet submarines. ONR assumed that the Soviets would have a similar system to keep track of American submarines as they transited the polar ice pack, but there was no direct evidence to support this. Also, ONR wanted to compare Soviet efforts on drift stations with US operations.
The problem was how to get to NP 9. It was far too deep into the ice pack to be reached by an icebreaker, and it was out of helicopter range. Fulton's Skyhook seemed to provide the answer. To Capt. John Cadwalader, who would command Operation Coldfeet, it looked like "a wonderful opportunity" to make use of the pickup system.
Following a recommendation by Dr. Max Britton, head of the Arctic program in the Geography Branch of ONR, RAdm. L. D. Coates, Chief of Naval Research, authorized preliminary planning for the mission while he sought final approval from the Chief of Naval Operations. The mission was scheduled for September, a time of good weather and ample daylight. NP 9 would be within 600 miles of the US Air Force base at Thule, Greenland, the planned launching point for the operation.
ONR selected two highly qualified investigators for the ground assignment. Maj. James Smith, USAF, was an experienced paratrooper and Russian linguist who had served on US Drift Stations Alpha and Charlie. Lt. Leonard A. LeSchack, USNR, a former Antarctic geophysicist, had set up the surveillance system on T-3 in 1960. Although not jump qualified, he quickly went through the course at Lakehurst Naval Air Station. During the summer, the two men trained on the Fulton retrieval system, working in Maryland with an experienced P2V crew at the Naval Air Test Center.
The following year, 1962, a converted CIA B-17 Flying Fortress dropped both men on NP-8. After 72-hours on site, a pick-up was made of the Soviet equipment that had been gathered and of both men. This mission required the use of three separate extractions—first for the Soviet equipment, then of LeSchack and finally of Smith.[1]
[edit] Later uses
The Fulton system was used from 1965 to 1996 on several variants of the C-130 Hercules including the MC-130s and HC-130s. Despite the apparent high-risk related to the use of the system, only one fatal accident occurred in 17 years of use (in 1982). The increased availability of long-range helicopters such as MH-53 Pave Low, HH-60 Pave Hawk and MH-47 Chinook, all with aerial refueling capability, caused this system to be used less often. In September 1996, the Air Force Special Operations Command ceased maintaining the capability to deploy this system. This was until 2001 when this system was again used when a British special forces soldier was injured in Afghanistan and was successfully recovered onto a C-130 Hercules.[citation needed] The C-130 used was probably not USAF as those aircraft had the systems removed from them prior to operations in Afghanistan.记得前一段有人问起这个,无意中看到一些,贴出来共享!
The Fulton surface-to-air recovery system (STARS) is a system used by the United States Air Force and United States Navy for retrieving persons on the ground from a MC-130E Combat Talon I aircraft. It involves using an overall-type harness and a self-inflating balloon which carries an attached lift line. An MC-130E engages the line with its V-shaped yoke and the individual is reeled on board. Red flags on the lift line guide the pilot during daylight recoveries; lights on the lift line are used for night recoveries. Recovery kits were designed for one and two-man recoveries.
This system was developed by inventor Robert Edison Fulton, Jr. for the Central Intelligence Agency in the early 1950s. It was an evolution from a similar system that was used during World War II by American and British forces. The earlier system did not use a balloon, but had a pair of poles that were set in the ground on either side of the person to be retrieved, with a line running from the top of one pole to the other. An aircraft, usually a C-47 Skytrain, would trail a grappling hook and engage the line, which was attached to the person to be retrieved.
The Skyhook system
Experiments began in 1950. Using a weather balloon, nylon line, and 10- to 15-pound weights, Fulton made numerous pickup attempts as he sought to develop a reliable procedure. Successful at last, he had his son photograph the operation. Fulton then took the film to Admiral Luis de Florez, who had become the first director of technical research at the CIA. Believing that the program could best be handled by the military, de Florez put Fulton in touch with the Office of Naval Research (ONR). Thanks to de Florez's interest, Fulton received a development contract from ONR's Air Programs Division.
Over the next few years, Fulton refined the air and ground equipment for the pickup system. Based at El Centro, California, he conducted numerous flights over the desert, using a Navy P2V for the pickups. He gradually increased the weight of the pickup until the line began to break. A braided nylon line with a test strength of 4,000 pounds solved the problem. More vexing were the difficulties that were experienced with the locking device, or sky anchor, that secured the line to the aircraft. Fulton eventually resolved this problem, which he considered the most demanding part of the entire developmental process.
By 1958, the Fulton aerial retrieval system, or Skyhook, had taken its final shape. A package that easily could be dropped from an aircraft contained the necessary ground equipment for a pickup. It featured a harness, for cargo or person, that was attached to a 500-foot (150 m), high-strength, braided nylon line. A portable helium bottle inflated a dirigible-shaped balloon, raising the line to its full height.
The pickup aircraft sported two tubular steel "horns" protruding from its nose, 30 feet long and spread at a 70° angle. The aircraft would fly into the line, aiming at a bright mylar marker placed at the 425-foot (130 m) level. As the line was caught between the forks on the nose of the aircraft, the balloon was released at the same time the spring-loaded trigger mechanism (sky anchor) secured the line to the aircraft. As the line streamlined under the fuselage, it was snared by the pickup crew, using a J-hook. It was then attached to a powered winch and pulled on board. The aircraft also had cables strung from the nose to the wingtips to keep the balloon line away from the propellers, in case the catch was unsuccessful.
Fulton first used instrumented dummies as he prepared for a live pickup. He next used a pig, as pigs have nervous systems close to humans. Lifted off the ground, the pig began to spin as it flew through the air at 125 mph (200 km/h). It arrived on board undamaged but in a disoriented state. Once it recovered, it attacked the crew.[1]
First human pickups
The CIA had secretly trained paramilitary officers to use the system for human pickups as early as 1952. The first human recovery mission authorized for operational use of the system took place in Manchuria on 29 November 1952. CIA C-47 pilots Norman Schwartz and Robert Snoddy were trained in the aerial pickup technique during the fall of 1952. CIA paramilitary officers John T. Downey and Richard G. Fecteau, themselves hurriedly trained in the procedure during the week of 24 November, were to recover a courier who was in contact with anti-communist sympathizers in the area. The mission failed when Chinese forces downed the aircraft with small arms fire, capturing survivors Downey and Fecteau.[1]
The first human pickup took place on 12 August 1958, when Staff Sergeant Levi W. Woods, USMC, was winched on board the P2V. Because of the geometry involved, the person being picked up experienced less of a shock than during a parachute opening. After the initial contact, which was described by one individual as similar to "a kick in the pants," the person rose vertically at a slow rate to about 100 feet, then began to streamline behind the aircraft. Extension of arms and legs prevented spinning, as the individual was winched on board. The process took about six minutes.
In August 1960, Capt. Edward A. Rodgers, commander of the Naval Air Development Unit, flew a Skyhook-equipped P2V to Point Barrow, Alaska, to conduct pickup tests under the direction of Dr. Max Brewer, head of the Navy's Arctic Research Laboratory. With Fulton on board to monitor the equipment, the P2V picked up mail from Floating Ice Island T-3, retrieved artifacts, including mastodon tusks, from an archeological party on the tundra, and secured geological samples from Peters Lake Camp. The high point of the trials came when the P2V dropped a rescue package near the icebreaker USS Burton IslandTemplate:WP Ships USS instances. Retrieved by a ship's boat, the package was brought on deck, the balloon inflated, and the pickup accomplished.
[edit] Operation Coldfeet
The stage was now set for the first operational use of Skyhook. What became known as Operation Coldfeet began in May 1961, when a naval aircraft flying an aeromagnetic survey over the Arctic Ocean reported sighting an abandoned Soviet drift station. A few days later, the Soviets announced that they had been forced to leave Station NP 9 (a different station, NP-8 ended up being the target) when the ice runway used to supply it had cracked.
The prospect of examining an abandoned Soviet ice station attracted ONR's interest. The previous year, ONR had set an acoustical surveillance network on a US drift station used to monitor Soviet submarines. ONR assumed that the Soviets would have a similar system to keep track of American submarines as they transited the polar ice pack, but there was no direct evidence to support this. Also, ONR wanted to compare Soviet efforts on drift stations with US operations.
The problem was how to get to NP 9. It was far too deep into the ice pack to be reached by an icebreaker, and it was out of helicopter range. Fulton's Skyhook seemed to provide the answer. To Capt. John Cadwalader, who would command Operation Coldfeet, it looked like "a wonderful opportunity" to make use of the pickup system.
Following a recommendation by Dr. Max Britton, head of the Arctic program in the Geography Branch of ONR, RAdm. L. D. Coates, Chief of Naval Research, authorized preliminary planning for the mission while he sought final approval from the Chief of Naval Operations. The mission was scheduled for September, a time of good weather and ample daylight. NP 9 would be within 600 miles of the US Air Force base at Thule, Greenland, the planned launching point for the operation.
ONR selected two highly qualified investigators for the ground assignment. Maj. James Smith, USAF, was an experienced paratrooper and Russian linguist who had served on US Drift Stations Alpha and Charlie. Lt. Leonard A. LeSchack, USNR, a former Antarctic geophysicist, had set up the surveillance system on T-3 in 1960. Although not jump qualified, he quickly went through the course at Lakehurst Naval Air Station. During the summer, the two men trained on the Fulton retrieval system, working in Maryland with an experienced P2V crew at the Naval Air Test Center.
The following year, 1962, a converted CIA B-17 Flying Fortress dropped both men on NP-8. After 72-hours on site, a pick-up was made of the Soviet equipment that had been gathered and of both men. This mission required the use of three separate extractions—first for the Soviet equipment, then of LeSchack and finally of Smith.[1]
[edit] Later uses
The Fulton system was used from 1965 to 1996 on several variants of the C-130 Hercules including the MC-130s and HC-130s. Despite the apparent high-risk related to the use of the system, only one fatal accident occurred in 17 years of use (in 1982). The increased availability of long-range helicopters such as MH-53 Pave Low, HH-60 Pave Hawk and MH-47 Chinook, all with aerial refueling capability, caused this system to be used less often. In September 1996, the Air Force Special Operations Command ceased maintaining the capability to deploy this system. This was until 2001 when this system was again used when a British special forces soldier was injured in Afghanistan and was successfully recovered onto a C-130 Hercules.[citation needed] The C-130 used was probably not USAF as those aircraft had the systems removed from them prior to operations in Afghanistan.
C130好怪异的样子呀 汗一个。。。。。。:L :L
恩恩,THE UNIT里看过......[:a3:]
蝙蝠侠里香港那段用的这个吧。
汗一个。。。。。:L
尚格云顿的电影就用过.当时就想老美真能整.不过有点不一样电影里是在机尾用一根长钢索挂上来的不在机头.
大力神长角了。
]]
詹姆士・邦德间谍电影" Thunderball" 《霹雳弹》,结尾是架美国海警的B-17用富尔顿系统“回收”俩人的镜头
游戏IGI2中出现过.....:lol
Robert Fulton的发明有很多,在这些之中就有Skyhook,是由一架飞机和一个大氦气气球组成的航空救援系统。 Skyhook是被设计用于在难到达的区域的一个紧急救人设备,例如在敌对疆土的间谍。二战里有用过。
http://www.youtube.com/watch?v=PErEsNhDmo8
富尔顿回收系统
富尔顿回收系统
冷战时CIA也用过
HC-130H 增大航程的空中搜索救援回收型,从 C-130H 改进而来。正常载油量同 C-130E,这种特种型号飞机的特点是装有大功率的 3,661 当量千瓦艾利逊 T56-A-15 发动机,在使用中的功率降低到 3,362 当量千瓦,转场航程增加到 8,803 千米,飞机机翼得到改进,电子设备更现代化,机舱内增加两个容量各为 6,800 升油箱。机头上装有新型可折叠的回收装置,可反复从地面回收 227 千克重的人或物。机上共 10 名乘员。1964 年 12 月 8 日,洛克希德公司用艾利逊 T56-A-15 作为动力的第一架救援型 HC-130H 首飞。美国空军空中救援部队订购了 45 架,海岸警卫队订购了 23 架。该型标准救援设备有:4 只救生艇,两副担架,16 套人员回收装置,一台绞车,10 个照明弹发射器。
订购的 HC-130H 主要用于救回被击落的空勤人员,包括与航天计划有关的工作。HC-130H 载有附加设备,在货舱内载有 2 个 6,814 升的油箱。从外观看,该机的前机身上方装有一个大型球面观察窗,里面装有与“双子座”航天飞机共同使用的重返大气层库克电动跟踪系统。该机最突出的特点是它的富尔顿回收系统,这个装置是 2 个安装在机头的长 4.42 米的尖齿,正常情况下,它们折叠贴在机身下,但使用时可以向前伸出成“V”形叉。飞机上还载有回收用具,包括救生筏和氢气球。后者在充气后浮在空中,气球与一条 152 米的绳索相连,绳索的另一端连有一套救生衣。当 HC-130以 225 千米/小时的速度迎风接近气球,用机头夹钳夹住绳索后,可以把 227 千克的重物拖出水面。然后气球被脱开,被救人员或物品用绞车提升到飞机内后,绳索被固定或收入货舱。如果接近失败,从机头到尾翼及翼梢的聚四氟乙烯缆绳可以使连在气球上的绳子避外飞机螺旋桨。美国海岸警卫的 HC-130 并不经常使用富尔顿装置。4 架美国空军的 HC-130H 被改装为 JHC-130H 型用于回收宇航用密闭小舱。
MC-130E 在 70 年代后期,美国空军开始执行一项“作战禽爪”的改进计划,以提高一部分 HC-130E 的性能用于在全世界的秘密活动。14 架飞机被改装成编号为 C-130E-1“大力神”,后来又称为 MC-130E。这种型号的飞机用于全天候昼/夜特种作战部队的渗透和撤离。其他的任务包括:心理战、空降、航空侦察和地面-空中救生。机头因安装(只有部分飞机)富尔顿求生装置和地形跟踪雷达而变得不太美观。其他设备包括:精确地形作图雷达、1 个惯性导航系统、保密的超高频/甚高频和调频无线电通信系统,左机翼下有 1 个可收回的前视红外探测舱和 1 个 ALQ-87 电子对抗舱,机组达 11 人。
从 1979 年开始,一批按照“作战禽爪”II 计划改进的飞机投入使用。这些飞机上装有更先进的电子设备,包括 AIR-46 雷达警告接收机和 ALE-27 干扰物布撒器。更重要的是这些飞机安装了可以从波音 KC-135 或麦克唐纳·道格拉斯 KC-10 飞机中得到空中加油的设备。MC-130E 型飞机被分配给 3 个作战部队。1 个是冲绳加手纳基地的 353 特别行动联队的第 1 特种作战中队,在欧洲的是德国莱茵-美因空军基地的第 39 特种作战联队的第 7 特种作战行动中队,美国本土的是佛罗里达州埃格林空军基地赫尔伯特机场的第 1 特种作战联队中的第 8 特种作战中队,后者既可承担作战任务,也可承担训练任务。1980 年 4 月这支部队曾出动了 3 架飞机运送 90 名特种作战部队的士兵通过埃及到伊朗试图解救人质。
HC-130B是搜索救援和回收型。原编号为JC-130B,用于回收“发现者”号人造地球卫星。
HC-130E为海上救援型。共生产3架。HC-130G原编号SC-130B,用于美国海军搜索救援海上遇难人员。共改装12架。HC-130H是增大航程的空中搜索救援回收型,从C-130A改进而来。正常载油量同C-130E,又在机舱内增加两个容量各为6800升油箱。机头上装有新型可折叠的回收装置,可反复从地面回收227千克重的人或物。机上共10名乘员。64年12月8日首次飞行,共生产70架。该型标准救援设备有:4只救生艇,两副担架,16套人员回收装置,一台绞车,10个照明弹发射器。投给被救人员的回收装置包括一个救生衣,一个充氦气球,一条152米的尼龙绳。绳固定在气球上,另一端与救生衣相连。救援时,飞机在低于152米的高度上以220~260千米/小时的速度迎风接近气球,机头回收装置的触角箝住尼龙绳,同时气球脱开,飞机将被救人员拖离地面或水面,通过回收绞车将其救入机舱,可同时援救两人。越战期间曾广泛使用。HC-130N机上采用了先进的方位仪,美国空军用来救援遇难人员和回收返回地球的宇宙飞行员密封舱。共生产15架。
HC-130H 增大航程的空中搜索救援回收型,从C-130A改进而来。正常载油量同C-130E,又在机舱内增加两个容量各为6800升油箱。机头上装有新型可折叠的回收装置,可反复从地面回收227千克重的人或物。机上共10名乘员。1964年12月8日首次飞行。共生产70架。该型标准救援设备有:4只救生艇,两副担架,16套人员回收装置,一台绞车,10个照明弹发射器。投给被救人员的回收装置包括一个救生衣,一个充氦气球,一条152米的尼龙绳,绳的一端固定在气球上,另一端与救生衣相连。救援时,飞机在低于152米的高度上以220~260公里/小时的速度迎风接近气球,机头回收装置的触角箝住尼龙绳,同时气球脱开,飞机将被救人员拖离地面或水面,通过回收绞车将其救入机舱,可同时援救两人。
MC-130E“战斗爪”飞机是在C-130运输机的基础上研制的。其主要用途是隐蔽护送、机降(伞降)侦察破坏人员并保障其供应和后撤。此外,这种飞机还能用于空降地域的侦察以及为MH53H等直升机进行空中加油。
从外观上看,MC-130E与原型机的区别是加大了下垂的机头整流罩,在整流罩上部有“触须”,即专用起重臂,用于在飞机不降落的情况下抓住人员和物资回收系统绳索。飞机的尾部(包括货桥和货舱门)都经过加固。货舱门有两种既定的开启位置。这就有可能使用伞投系统实施空降。这种伞投系统可以使飞机在75米的低空以400多千米时速飞行时进行空投,而通常从C-130型飞机上进行空投要求的最低高度为250米,速度不应超过220~240千米/小时。
飞机不降落时从地面回收人员和物资的回收系统是由带悬吊装置的专用飞行服、小型系留气球、尼龙绳、压缩氢气瓶等组成。所有这些都装在带有降落伞的一个口袋中。在回收区域,机组人员把这个口袋扔下去,回收人员找到口袋后,穿上有悬吊装置的服装,用氢气给气球充气,并使气球上升到150米高度。然后背风坐在地上。飞机从下风方向进入,时速280千米,高度120米,抓住绳索,割去气球并爬高脱离,同时用绞车把人吊起。在飞机抓住绳索时人被用力往上一拉,大约可升高到100米,以避开周围的障碍物。
机组人员9~11人(依执行任务的性质而定),其中有飞行员2人、领航员2人、随机工程师1人、无线电报员1人、电子对抗设备操作员1人、前视红外系统操作员1人,其余是空投和起吊人员或物资的专业人员。
订购的 HC-130H 主要用于救回被击落的空勤人员,包括与航天计划有关的工作。HC-130H 载有附加设备,在货舱内载有 2 个 6,814 升的油箱。从外观看,该机的前机身上方装有一个大型球面观察窗,里面装有与“双子座”航天飞机共同使用的重返大气层库克电动跟踪系统。该机最突出的特点是它的富尔顿回收系统,这个装置是 2 个安装在机头的长 4.42 米的尖齿,正常情况下,它们折叠贴在机身下,但使用时可以向前伸出成“V”形叉。飞机上还载有回收用具,包括救生筏和氢气球。后者在充气后浮在空中,气球与一条 152 米的绳索相连,绳索的另一端连有一套救生衣。当 HC-130以 225 千米/小时的速度迎风接近气球,用机头夹钳夹住绳索后,可以把 227 千克的重物拖出水面。然后气球被脱开,被救人员或物品用绞车提升到飞机内后,绳索被固定或收入货舱。如果接近失败,从机头到尾翼及翼梢的聚四氟乙烯缆绳可以使连在气球上的绳子避外飞机螺旋桨。美国海岸警卫的 HC-130 并不经常使用富尔顿装置。4 架美国空军的 HC-130H 被改装为 JHC-130H 型用于回收宇航用密闭小舱。
MC-130E 在 70 年代后期,美国空军开始执行一项“作战禽爪”的改进计划,以提高一部分 HC-130E 的性能用于在全世界的秘密活动。14 架飞机被改装成编号为 C-130E-1“大力神”,后来又称为 MC-130E。这种型号的飞机用于全天候昼/夜特种作战部队的渗透和撤离。其他的任务包括:心理战、空降、航空侦察和地面-空中救生。机头因安装(只有部分飞机)富尔顿求生装置和地形跟踪雷达而变得不太美观。其他设备包括:精确地形作图雷达、1 个惯性导航系统、保密的超高频/甚高频和调频无线电通信系统,左机翼下有 1 个可收回的前视红外探测舱和 1 个 ALQ-87 电子对抗舱,机组达 11 人。
从 1979 年开始,一批按照“作战禽爪”II 计划改进的飞机投入使用。这些飞机上装有更先进的电子设备,包括 AIR-46 雷达警告接收机和 ALE-27 干扰物布撒器。更重要的是这些飞机安装了可以从波音 KC-135 或麦克唐纳·道格拉斯 KC-10 飞机中得到空中加油的设备。MC-130E 型飞机被分配给 3 个作战部队。1 个是冲绳加手纳基地的 353 特别行动联队的第 1 特种作战中队,在欧洲的是德国莱茵-美因空军基地的第 39 特种作战联队的第 7 特种作战行动中队,美国本土的是佛罗里达州埃格林空军基地赫尔伯特机场的第 1 特种作战联队中的第 8 特种作战中队,后者既可承担作战任务,也可承担训练任务。1980 年 4 月这支部队曾出动了 3 架飞机运送 90 名特种作战部队的士兵通过埃及到伊朗试图解救人质。
HC-130B是搜索救援和回收型。原编号为JC-130B,用于回收“发现者”号人造地球卫星。
HC-130E为海上救援型。共生产3架。HC-130G原编号SC-130B,用于美国海军搜索救援海上遇难人员。共改装12架。HC-130H是增大航程的空中搜索救援回收型,从C-130A改进而来。正常载油量同C-130E,又在机舱内增加两个容量各为6800升油箱。机头上装有新型可折叠的回收装置,可反复从地面回收227千克重的人或物。机上共10名乘员。64年12月8日首次飞行,共生产70架。该型标准救援设备有:4只救生艇,两副担架,16套人员回收装置,一台绞车,10个照明弹发射器。投给被救人员的回收装置包括一个救生衣,一个充氦气球,一条152米的尼龙绳。绳固定在气球上,另一端与救生衣相连。救援时,飞机在低于152米的高度上以220~260千米/小时的速度迎风接近气球,机头回收装置的触角箝住尼龙绳,同时气球脱开,飞机将被救人员拖离地面或水面,通过回收绞车将其救入机舱,可同时援救两人。越战期间曾广泛使用。HC-130N机上采用了先进的方位仪,美国空军用来救援遇难人员和回收返回地球的宇宙飞行员密封舱。共生产15架。
HC-130H 增大航程的空中搜索救援回收型,从C-130A改进而来。正常载油量同C-130E,又在机舱内增加两个容量各为6800升油箱。机头上装有新型可折叠的回收装置,可反复从地面回收227千克重的人或物。机上共10名乘员。1964年12月8日首次飞行。共生产70架。该型标准救援设备有:4只救生艇,两副担架,16套人员回收装置,一台绞车,10个照明弹发射器。投给被救人员的回收装置包括一个救生衣,一个充氦气球,一条152米的尼龙绳,绳的一端固定在气球上,另一端与救生衣相连。救援时,飞机在低于152米的高度上以220~260公里/小时的速度迎风接近气球,机头回收装置的触角箝住尼龙绳,同时气球脱开,飞机将被救人员拖离地面或水面,通过回收绞车将其救入机舱,可同时援救两人。
MC-130E“战斗爪”飞机是在C-130运输机的基础上研制的。其主要用途是隐蔽护送、机降(伞降)侦察破坏人员并保障其供应和后撤。此外,这种飞机还能用于空降地域的侦察以及为MH53H等直升机进行空中加油。
从外观上看,MC-130E与原型机的区别是加大了下垂的机头整流罩,在整流罩上部有“触须”,即专用起重臂,用于在飞机不降落的情况下抓住人员和物资回收系统绳索。飞机的尾部(包括货桥和货舱门)都经过加固。货舱门有两种既定的开启位置。这就有可能使用伞投系统实施空降。这种伞投系统可以使飞机在75米的低空以400多千米时速飞行时进行空投,而通常从C-130型飞机上进行空投要求的最低高度为250米,速度不应超过220~240千米/小时。
飞机不降落时从地面回收人员和物资的回收系统是由带悬吊装置的专用飞行服、小型系留气球、尼龙绳、压缩氢气瓶等组成。所有这些都装在带有降落伞的一个口袋中。在回收区域,机组人员把这个口袋扔下去,回收人员找到口袋后,穿上有悬吊装置的服装,用氢气给气球充气,并使气球上升到150米高度。然后背风坐在地上。飞机从下风方向进入,时速280千米,高度120米,抓住绳索,割去气球并爬高脱离,同时用绞车把人吊起。在飞机抓住绳索时人被用力往上一拉,大约可升高到100米,以避开周围的障碍物。
机组人员9~11人(依执行任务的性质而定),其中有飞行员2人、领航员2人、随机工程师1人、无线电报员1人、电子对抗设备操作员1人、前视红外系统操作员1人,其余是空投和起吊人员或物资的专业人员。
MC-130E 展示
命悬一线;P :D
被救人员着装
连续镜头
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有直升机,这东西作用不大了吧
原帖由 hwthegreat 于 2008-12-25 17:58 发表
有直升机,这东西作用不大了吧
直升机的航程、速度等差太远鸟
昨天晚上看见007邦德最后就是靠这个从海上被回收的.;P
感谢hmsh丰富资料!:lol
问个问题,被救物资或人员是从哪里被拉进飞机的?机尾还是侧门?从机鼻被挂住怎么从尾巴上拉进来?
当初也是在IGI2里看到的,那个惊讶啊。。。
回楼上的:待救援人员貌似是顺着机头Skyhook下的钢丝绳被带到机尾,再从机尾入舱
回楼上的:待救援人员貌似是顺着机头Skyhook下的钢丝绳被带到机尾,再从机尾入舱
人员回收的过程还是不是很清楚,哪位再上图来解释一下:handshake
原帖由 钥匙 于 2008-12-25 23:08 发表
问个问题,被救物资或人员是从哪里被拉进飞机的?机尾还是侧门?从机鼻被挂住怎么从尾巴上拉进来?
你看看录象和电影就知道了
也不一定都是机尾,S-2就是在机腹,估计69也是,而侧门就不太可能了,危险性大了
可能是用钩子把绳子扯上来,挂上绞盘拉上飞机吧!
原帖由 GGGX 于 2008-12-26 12:20 发表
可能是用钩子把绳子扯上来,挂上绞盘拉上飞机吧!
用钩子的应该是另外的回收系统了——
这也是一种回收系统;P :D
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MC-130E不同驾驶舱
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MC-130E不都有这个