link trainer simulator history
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ASME International
The Link Flight TrainerA Historic Mechanical Engineering Landmark
Roberson Museum and Science Center, Binghamton, New York
June 10, 2000
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Sept. 29, 1931E. A. LINK, JR
1,825,462
COMBINATION TRAINING DEVICE FOR STUDENT
AVIATORS AND ENTERTAINMENT APPARATUS
Filed March 12, 1930 4 Sheets Sheet 1
2 Figure 1: Original drawing from Edwin Links patent application
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Historical Significance of the Work
The Link Trainer is a significantcontributor to the development ofaviation. The Link Trainer provided ameans to train pilots in realistic conditionswithout sacrificing their safety.
Prior to the invention of the LinkTrainer, a pilot learned how to fly bynstruction from another pilot. From
1903 to 1917, pilot skills were passedfrom pilot to student. Learning to flywas expensive, time consuming, anddangerous. Americas entry into WorldWar I produced a large number of two-
seat flight trainer planes. The mostfamous of these, the Jenny, wasproduced near Binghamton by theCurtiss Company in Hammondsport,New York. After World War I, theserainers were sold as surplus and were
used in air shows, races, and foramusement rides. Those willing torain others, and those who had
sufficient time and money to affordessons, still did pilot training on anndividual basis.
It took several years for Ed Link toobtain his pilots license. When hereceived his pilots license in 1927, hebegan to think about better ways tolearn how to fly. Using his experiencesfrom flying and working in his fatherspiano and organ company, he puttogether a flight trainer. A patentapplication filed March 12, 1930, wasgranted September 29, 1931.
The trainer was based on the vacuumtechnology used in automatic musicalinstruments of the 1920s. In fact, the
earliest trainer sat on a series of organbellows, which would inflate or deflateto various heights to cause the trainerto bank, climb, and dive. In 1930, EdLink organized the Link Flying Schoolin Binghamton, New York. The trainerallowed him to reduce the cost offlying lessons by providing a way forthe student pilots to learn some flyingskills on the ground.
In 1929 instrument flying wasintroduced, and by 1933 Ed Link had
upgraded his trainer so that it could beused for instrument training. Interestin the flight trainer grew slowly; in fact,it was more popular as a carnival ridethan a practical trainer in its early days.
The first significant interest for useof the trainer for instrument flighttraining occurred in 1934. Earlier thatyear the U.S. Army Air Corps wasordered to take over airmail service inresponse to mail fraud from privatecontractors. However, there were anumber of highly publicized crashes as
a result of pilots not being able to flyon instruments during bad weather ornight flying. These accidents were costlyboth in the loss of human life and theloss of aircraft. The Army becameinterested in the Link Trainer andordered six trainers to improve themail pilots skills.
The Link Trainer came intowidespread use during World War IIwhen over 10,000 blue box trainerswere used to improve safety and shortentraining time for over 500,000 pilots. Thetrainers were used as a step precedingactual flight training and as an opportunityfor experienced pilots to sharpen their skills.
The legacy of the Link Trainer isvisible today, with flight simulatorsbeing an integral part of pilot training.In recent years, Link simulators havebeen used in many historic applications
including the training of the Apolloastronauts for the moon landing andthe training of space shuttle pilots.
Figure 2: Instructors carefully watch the
progress of a pilot using the Link Trainer
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Contribution of the Work to the Region,State, Nation, World, and the Professionof Mechanical Engineering
The development of the Link Trainer affected the entire world. It has madthe field of aviation safer and has saved the lives of many pilots and airlinepassengers. The numerous awards that Edwin Link received are evidence of th
contribution of the Link Trainer. The Link Trainer also advanced the field ofmechanical engineering. It was primarily a mechanical engineering device thattranslated physical movement of the control devices to pneumatic signals, whicin turn moved the trainers control surfaces and caused the trainer to move as actual aircraft would.
Figure 3: An advertisement promising to improve both a pilots instrument flying skills and radio navigation techniques (from the 1940s
SKY TRAILS LINK TRAINERare faithfullyand accurately
traced on a mapor chart by theAutomatic Recorder
on the InstuctorsDesk
be attained
Perfection inInstrumentFlying andRadio NavigationTechnique can
quicker, saterand more
economicallyin the LIN KINSTRUMENTFLYING TRAINER
EveryA viationCadet receives
instruc tion in
t h e L IN KTRAIN ER
DEVELOPED AND MANUFACTURED BY
L I N K A V I A T I O N D E V I C E S , I n c .
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Significant Dates in theDevelopment of theLink Trainer & Simulators
Figure 4: Model of the Lunar Excursion Module, 1964
The Link Flight Trainer was developed by Edwin A. Link after getting hispilots license in 1927. The trainer allowed pilots to learn or improve flying skillswithout leaving the ground. Upgrades to the trainer emphasized flying by instrumentrather than visual observation, supporting Links belief that flying in the futurewould not be limited to good weather and daylight only.
The development of the Link Flight Trainer was a worldwide contribution. It wasamong the first mechanical devices used to simulate actual processes. The legacyof the Link Flight Trainer continues today, with simulators being used for a widerange of training activities, including commercial, military and space flight.
Link developed electronic training devicmore suited to new, high-performanceaircraft.
1929:Initial patent application submitted Aprifor the pilot maker flight trainer.1930:Link Flying School used trainer to reduccosts and improve safety.1930 1931:Patent application filed March 12, 1930Patent granted to Ed Link September 29, 11934:U.S. Army Air Corps ordered six Link FliTrainers to train mail delivery pilots.1941 1945:Over 10,000 blue box trainers used totrain more than 500,000 pilots.
1960s:Link developed simulators for the spaceprogram including the Apollo mission fomoon landing.Present:Flight simulators now form an integral pof pilots training.
Following World War II:
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Figure 5:
Trainer Fusela
Interior with
Octagon and B
1.Rudder Peda l
2. Fluor es cent Pane l Light
3. Pilots Instrume nt Panel
4. Contro l Column and Wheel
5. Turn Indicator Regulator Bellows
6.Flap Contr ol, Landing Gear , and
Propeller Pitch Control Panel
7.Fluor es cent Pane l Light
8.Fuselage Control Box
9. Microp hone and Rad io Head Set
10 . Moonbeam Spotlight
11 .Operators Peephole
12 . Simulator, Rudder
13 .Baffle Plate
14 .Remote Instrument Transmitter Panel
15 . Spin Trip Bellows and Assembly16 .Main Air Transfer Manifold
17. Rudder Valve
18. Rough Air Generator
19 . Air-Sp eed Damp ing Tank
20. Icing Valve Signal Lamp
21. Conductor Elbow
22. Sp in Valve
23. Air-Speed and Manifold Press ure
Regulator Bellow s
24. Aileron Valve
25. Throttle
26. Climb -Dive Tank
27. Ventilating Fan
28. Moo nbeam Spotlight
29. Simulated Gyro Flexible Shaft
30. Simulator, Elevator
31. Simulator, Aileron32. Interconnector Box
33. Climb-Dive Valve
34.Belt Tighte ner
35. Tur ning Moto r
36. Fuselage Stop
37.Bank ing Bellow s, Left
38. Rudder Bar
39. Sta ll Valve
40. Vacuum Turbine
41. Automatic Radio Compass Take-O
42. Collector Rings and Brushes
43. Wind Drift Mechanism
44. Elevator Valve
45. Telegon Oscillato r
46. Bas e Junctio n Box
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Technical Description
Twith a realistic replication of actual
The Link Flight Trainer consists of
he Link Trainer provided a pilot
flying. This was done by providing a
a scaled-down fuselage that is mounted
responsive movement in the trainerwhen the pilot operated the trainers
on a universal joint and control base.
controls. The basic trainer offered the
The trainer is designed so that the pilot
pilot a control column, control wheel,two foot pedals, and various flight and
can simulate banking, pitching, and
navigation instruments. The trainersits on four pneumatic bellows, whichare located on a cross frame.
turning. The flight trainer is designed sothat responses to movement of thecontrol stick or pedals will result in afluid movement of the trainer, similarto that which would be experienced inactual flight.
Control of the flight trainer isprovided by four bellows mounted on
The control system relies on four
the end positions of a rotating cross-
valves. The rudder valve consists of two
arm. Clockwise or counterclockwiseturning of the cross-arm platform is
pieces, a fixed bottom and rotating
accomplished by an electric motor,which uses a belt drive connected to
upper section. As the control wheel is
the cross-arm. The motor operates ona vacuum signal that is generated inresponse to operation of the control
turned clockwise or counterclockwise,
stick and foot pedals.
vacuum will shift accordingly to drivethe turning motor in the correctdirection. Similarly, movement of theupper half of the aileron valve controlsbanking. Alternate bellows on theright and left side of the trainer will
then expand and contract as requiredin response to the pilots movement ofthe wheel and cause the trainer tobank to the right or left.
Two other valves, a turn tighteningvalve and an elevator valve, work tobring movements of the controlsurfaces into a smooth response. Forexample, a banking maneuver will alsocause the turntable to rotate.
The Link Trainer also provided fora pilots effectiveness in instrumentflying, which could be gauged by having
the pilot follow a predetermined set ofdirections to reach a destination. Thecover of the trainer would be closed sothat the pilot had no visual reference owhere he was going. The pilots pathwould be traced out on a map as heproceeded, and the results would becompared against the objective todetermine if the pilot was capable ofinstrument flying.
The Roberson Museum and Science CentersLink C-3 Trainer
The Roberson Museum and ScienceCenters Link C-3 Trainer was movedto the museum in 1973 and restoredby retired Link employees who hadworked on blue boxes during theiremployment. Initially it was made fully
operational and used for classes by theCivil Air Patrol. In 1992 it was overhauledand moved to its current location inthe exhibition, E dwin A . L ink and the A ir A ge. The equipment, which includesboth the trainer and the accompanyinginstructors desk, is the centerpiece of arecreated World War II era classroom.
Ongoing maintenance is provided byincome from a restricted endowment,the expertise of former Link workers,
and consultation with technicalstaff in contemporarysimulation companies.
The Roberson LinkTrainers serial number indicatesthat it originally was built as a
C-3 model; however, later itwas upgraded with partsappropriate to an ANTmodel, a World War II erarefinement. Recent changesinclude replacement of hose withmodern tubing, but otherwise partsare originals or exact replications. Thetrainer is available for viewing by thepublic, daily, year-round, except formajor national holidays.
Figure 6: World War II era classroom with
Link Trainer at Roberson Museum and
Science Cente
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Edwin A. Link, The Inven
Figure 7: Inventor, Edwin A. Link
The life of Edwin A. Link spannedmost of the twentieth century during aperiod of explosive technological progress.
Ed Link was not merely a witness;he was a mover and a creator, for hehad one of the restless, inventive mindsthat could perceive a problem or anopportunity and find a practical solution.
He began as a technician in hisfathers automatic piano and organfactory, but while his hands were busywith automatic musical instruments,his heart was in the sky. It was, in fact,his experience with the difficulty, danger,and expense of early flight training thatinspired him to find a way to train pilotson the ground. Working in the basementof his fathers factory, he built a trainerthat could simulate the motions of anairplane as the student manipulated thecontrols. Realizing that pilots could notalways expect to fly on sunny days, headded more instruments to his ground-
based trainer and used it to train pilotsto fly under the hood, preparing themfor flying in cloudy or foggy weather.
At first the stubby-winged, one-person trainer was successful only as acoin-operated carnival ride. Graduallyit began to be used in flight schools,and in 1934 the Army Air Corpspurchased six trainers, primarily fortraining the military pilots who at thetime were carrying mail for the postal
service. As the Second World Warapproached, Link trainers were builtfor governments around the world.At peak wartime production, the Linkfactories in Binghamton and Canada
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were producing 80 trainers per week, In 1960 Link had designed and built aand the now famous blue box was Submersible Decompression Chamber
preparing men from all backgrounds (SDC) to allow divers to return to thefor service as pilots. The company also ships deck quickly from the ocean depthsbuilt a celestial navigation trainer for and then to decompress slowly on board.training bomber crews and navigators, As his interest shifted from archaeologyand a bubble sextant for making to ocean science, Link developednavigational sightings aboard aircraft. equipment to allow man to work and
Beginning in the 1950s, Ed Link live under water for extended periodsbegan to phase himself out of the of time. He designed a Submersibleaerospace business and into a career in Portable Inflatable Dwelling (SPID) inunderwater exploration. Flight simulation, 1964, and the mini-sub Perry-L inkhowever, has continued to be a critical D eep D iverin 1967. D eep D iverwas
part of training for all types of aircraft, the first submersible with a lockoutfrom helicopters to the space shuttle. system that could send out a diver toWhen Neil Armstrong maneuvered work on the ocean floor. Link thenthe Apollo lunar lander down to the designed a second lockout submersible,surface of the moon, flying a craft that the Johnson-Sea-Link, which introducedno one had ever flown before in a place the use of acrylic and aluminum forno human had ever been, he said, deep-sea vessels and had removableEverything is A-OK. It throttles down components. He helped design thebetter than the simulator. Cabled Observation and Rescue Device
Ed Link and his wife, Marion, had (CORD), one of the first successful
become interested in underwaterremotely operated vehicles, that allows the
exploration. They began with simple,recreational treasure hunting, divingoff their sailboat, the BlueH eron. Soon,however, the lure of the unexploredocean made them dissatisfied withtheir sailboat and its equipment. Astreasure hunting gave way to seriousunderwater archaeology, they outfitteda large twin diesel-powered boat as aseagoing laboratory and named it
R/ V Sea D iver.By 1962 the Links had conducted
excavations in the waters off Jamaica,Mexico, Israel, Greece, and Sicily.
crew on a surface ship to use televisioncameras and lights for underwater
reconnaissance. Its claws and cutterscan free a trapped submersible. Late inhis life, Ed Link became interested inantique steam engines, alternativesources of energy, and finding newuses for energy from the wind and sun.Edwin A. Link died September 7,1981. His legacy, however, is still withus. During the Persian Gulf war ofearly 1991, superior technology andthe excellent training of American
pilots, all trained in simulators, helpedbring the war to a quick close. At theHarbor Branch OceanographicInstitution, the research vessel Edwin
Link regularly carries a crew andsubmersible out to sea to study howman can best use and preserve theoceans. Progress in flight simulation,marine science, and ocean engineeringwill always have roots in the life andwork of Edwin A. Link.
Figure 8: Edwin Link in a Link Trainer 9
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ASME International
The History and Heritage Programof ASME International
The History and Heritage Landmarks Program of ASME International(the American Society of Mechanical Engineers) began in 1971. To implementand achieve its goals, ASME formed a History and Heritage Committee initiall
composed of mechanical engineers, historians of technology, and the curator(now emeritus) of mechanical engineering at the Smithsonian Institution,Washington, DC. The History and Heritage Committee provides a publicservice by examining, noting, recording, and acknowledging mechanicalengineering achievements of particular significance. This Committee is partof ASMEs Council on Public Affairs and Board on Public Information. Forfurther information, please contact Public Information at ASME International,Three Park Avenue, New York, NY 10016-5990, 1-212-591-7740.
Designation
Since the History and Heritage Program began in 1971, 209 landmarks havbeen designated as historic mechanical engineering landmarks, heritage collectionor heritage sites. Each represents a progressive step in the evolution of mechanicengineering and its significance to society in general. Site designations represenan event or development of clear historic importance to mechanical engineers.Collections mark the contributions of a number of objects with special significanto the historical development of mechanical engineering.
The Landmarks Program illuminates our technological heritage and encouragthe preservation of the physical remains of historically important works. It providan annotated roster for engineers, students, educators, historians, and travelers.It helps establish persistent reminders of where we have been and where we are
going along the divergent paths of discovery.
The Link Flight Trainer 1930
The trainer, designed by Edwin A. Link,
provided a pilot with a realistic
replication of actual flying. It sat on
four pneumatic bellows that converted
the pilots movements of the controls
to pneumatic signals, that in turn
rotated a series of mechanical linkages
causing the trainer to turn, pitch, andbank. In simulating actual flight
characteristics, the trainer allowed
pilots to learn or improve their flying
skills without leaving the ground. From
its inception through todays advanced
versions, the Link Trainer has helped
develop the flying skills of hundreds of
thousands of pilots and significantly
improved flying safety.
Figure 9: Text from ASME landmark plaque The 125,000 member ASME International is a worldwide engineering sociefocused on technical, educational, and research issues. ASME conducts one ofthe worlds largest Publishing operations, holds some 30 technical conferencesand 200 professional development courses each year, and sets many industrialand manufacturing standards.
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ASME InternationalJohn R. Parker, P.E., President
Raymond L. Jackson, Vice President,
Region III
Virginia W. Ross,
Region III History and Heritage
Harry Armen, Senior Vice President,Public Affairs
Victoria A. Rockwell, Vice President,
Public Information
David L. Belden, P.E., Executive Director
The ASME History andHeritage Committee
ASME Southern Tier SectionSuresh T. Gulati, P.E., Chair
R. Michael Hunt, P.E., History & Heritage Chair Gary Miller, Vice Chair
Robert M. Vogel, Secretary Barr L. Fetherolf, Secretary
William J. Adams, Jr., P.E. David R. Treacy, Treasurer
William DeFotis Thomas M. Sine, P.E., History & Herita
Paul J. Torpey, Past President Joseph De Angelo, P.E., NominatorHerman H. Viegas, P.E.
Diane Kaylor, Staff Liaison
Bibliography1.Memorial Tribute Edwin A. Link 1904-1981, National Academy of
Engineering of the United States of America, February, 19822. The Scribner Encyclopedia of American Lives, Volume One, 19983.A Biographical Sketch of Edwin A. Link, Florida Institute of Technology
Catalogue, 19914.The Edwin A. Link Collection: A Register of the Link Archival Collection at
the Roberson Museum and Science Center, 1991
Photo/Illustration ReferencesCover Photograph: Link Trainer with desk contact unit, 1940sFigure 1: Original drawing from Edwin Links patent application, filed 1930
Figure 2: Photograph of Link Trainer in a classroom setting, 1940sFigure 3: Advertisement for Link Flight Trainer, 1940sFigure 4: Photograph of model for the Lunar Excursion Module, 1964Figure 5: Diagram of the Link Flight Trainer fuselage interior with octagon and
base with reference list of parts; Overhaul Instructions for Instrument FlyingTrainer, Type AN-2550-1, February 10, 1945
Figure 6: Photograph of World War II era classroom with Link Trainer at theRoberson Museum and Science Center, Binghamton, New York
Figure 7: Photograph of Edwin A. Link, 1950sFigure 8: Photograph of Edwin A. Link in a Link Trainer, 1940sFigure 9: Text from ASME landmark plaque
Patent ReferencePatent Application No. 1,825,462Filed: March 12, 1930Granted: September 29, 1931
AcknowledgmentsNomination of the Link Flight
Trainer was made by the Southern TierChapter of ASME and the RobersonMuseum and Science Center.
This landmark brochure waswritten by Joseph De Angelo, P.E. andedited by Laura St. George and JamesMoody of the Roberson staff.
The publication was designed byElizabeth Garufi of Elizabeth AnneDesign, Binghamton, New York.
Appreciation is extended toMarilyn Link for providing historicalinformation and to the Link Foundationfor funding.
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ASME International
History and Heritage Committee
American Society of Mechanical Engineers
Three Park Avenue, New York, NY 10016-5990
Roberson Museum & Science Center The Link Foundation
Roberson Museum and Science Center is a regional,multidisciplinary museum and science center. Robersonencompasses the main campus in Binghamton, New York,four historic buildings, and the Kopernik Education Centerin Vestal, New York. Roberson offers unique museum andeducational resources to the Southern Tier of upstate NewYork and Northeast Pennsylvania.
The Link Flight Trainer located at the Roberson Museumand Science Center is the best example for designation as anASME Historic Engineering Landmark. While there areseveral other displays of the Link Flight Trainer, the Link
Trainer at Roberson is located in the City where the trainerwas developed. The Roberson Museum and Science Centeralso contains the Edwin A. Link Collection. This collectionincludes more than 6,000 items, with a significant amountof information on the development of the Link Flight Trainer.The Link Trainer is located in a recreated World War II trainerclassroom environment in the exhibition, E dwin A . L ink andthe A ir A ge. The Roberson Museum and Science Center isopen to the public on a daily basis, which provides anexcellent opportunity to view the exhibit and learn more
about Ed Link and the Link Flight Trainer.Roberson Memorial, Inc.David Chesebrough, Executive DirectorRoberson Museum and Science Center30 Front StreetBinghamton, NY 13905607-772-0660
The Link Foundation is a New York Charitable Trustestablished in 1953 through the generosity of Edwin A. Linand Marion C. Link. The Link Foundation supports researcin the fields of simulation, energy and ocean engineeringand instrumentation through the awarding of fellowshipsand grants. In addition, the Link Foundation supportsinstitutions like Roberson Museum and Science Center anBinghamton University, both of which were particularfavorites of the Links during their lifetime.
To year 2000, grants totaling over $5,600,000 havebeen awarded to universities, colleges and other nonprofit
organizations.
May 2000 Roberson Museum and Science Cen