Kytoon

Aircraft

A kytoon or kite balloon is a tethered aircraft which obtains some of its lift dynamically as a heavier-than-air kite and the rest aerostatically as a lighter-than-air balloon.^[1] The word is a portmanteau of kite and balloon.

The primary advantage of a kytoon is that it remains in a reasonably stable position above the tether point, irrespective of the strength of wind, whereas ordinary balloons and kites are less stable.^[1]

The kytoon has been used for many purposes, both civil and military.

History

In 1919, a handbook was published giving extensive details to support the kite balloon crafts being used in the military. Described is the first kite balloon made in 1893 by Captains Parseval and Sigsfeld at the Berlin works of the Prussian Balloon Battalion; theirs was the "predecessor of the Drachen balloon." "This was the first real kite balloon flying like a kite with a fairly constant angle and direction relative to the wind and remained practically unchanged until the beginning of the war in 1914-1918."^[2] A hybrid kite-balloon was patented by Domina Jalbert^[3] in 1944 as patent US2431938 and later became known as the kytoon. Jalbert furthered his attention on kite balloons also with another patent filed on August 31, 1945, titled "Kite Balloon"

The Allsopp Helikite is a modern helium-filled example.

Stability

A captive balloon tends to drift down the wind and the harder the wind blows, the further the balloon drifts. This leans the tether over at an angle, pulling the balloon lower. On a kytoon, the kite action lifts the balloon, counteracting this pull and holding the kytoon in position. As the wind blows harder, the kite action lifts harder. This can provide good stability even in strong winds.

In low or gusty winds a kite can nose-dive, losing a large amount of height even if it recovers. Because a kytoon is buoyant it does not nose-dive and remains in position even in relatively still air.^[3]

Applications

Applications of the kytoon have included:

Raise communications antenna aloft^[3]^[4]^[5]
Commercial advertising^[3]
Low-level aerial photography^[3]
Raise wind turbines for generating electricity
Raise emergency signals in calm or wind
Meteorological measurements^[6]
Sighting target for conducting geographical surveys^[3]
Scare birds away from crops
Recreation

References

^ ^a ^b Popular Mechanics Mar 1958
^ The Type "M" Kite Balloon Handbook, United States Navy Dept. Bureau of Construction and Repair, October, 1919.
^ ^a ^b ^c ^d ^e ^f "Kite + balloon = kytoon", Popular Mechanics, August 1950, Page 80.
^ "RESPONSE OF A KYTOON TO VERTICAL AND HORIZONTAL GUSTS". Archived from the original on 2012-02-27. Retrieved 2009-11-28.
^ Balloon Production Archived 2010-03-12 at the Wayback Machine
^ Meteorological observation measurements

External links

Helikites
Air-Foil Aerostat

Kites and kite flying

Types by use

Kite
Fighter kite
Human-lifting kite
Indoor kite
Power kite
Sport kite
Water kite
Kiteboarding

Types by shape

Activities and
applications

Parts

People

Other

American Kitefliers Association
Ballooning (spider)
Kite (geometry)
Kitelife
List of kite festivals

Category

Types of aircraft by methods of thrust and lift

	Aerostat	Aerodyne
	Lift: Lighter than air gas	Lift: Fixed wing	Lift: Unpowered rotor	Lift: Powered rotor
Unpowered free flight	(Free) balloon	Glider	Helicopter, etc. in autorotation	(None – see note 2)
Tethered (static or towed)	Tethered balloon	Kite	Rotor kite	(None – see note 2)
Powered	Airship	Airplane, ornithopter, etc.	Autogyro	Gyrodyne, helicopter

Note 1: A tiltwing or tiltrotor aircraft functions as an aeroplane during normal (horizontal) flight and as a helicopter during low-speed flight.

Note 2: For full-size aircraft with powered rotors the rotor is normally tilted to achieve thrust (e.g. in a helicopter). Some toys (e.g. balloon helicopter) do have a powered rotor with no means to tilt the rotor to produce horizontal thrust.