Control line

From Wikipedia, the free encyclopedia

Brodak Control Line Aerobatic Strega in flight
Brodak Control Line Aerobatic Strega in flight

Control line (also called U-Control in some countries) is a simple and light way of controlling a flying model aircraft. The aircraft is connected to the operator by a pair of lines, that works the elevator of the model. This allows the model to be controlled in the pitch axis. It is constrained to fly on the surface of a hemisphere by the control lines.

Sewing thread may be used in stead of wires to control small models, when safety does not allow the use of wires, but its air resistance is greater. An unusual variation is a single wire that controls by twisting. A third wire is sometimes used to control the engine or other functions. Electrical signals sent over the wires can be used to control still more functions. It is sometimes possible to keep a model in flight after its engine stops by leading it around in a circle. Wire lines have been used to carry electrical power to drive an electric motor, saving the weight of the battery.

Contents

[edit] The Airframe

Since the control line models themselves exhibit only 2 dimensional flight, that is throttle and pitch variables, the airframe can be asymmetric with one wing longer or heavier than the other. In fact most control line aircraft one wing is generally made heavier than the other using lead weights to offset the weight of the lines and effects of line drag. Further there is usually a fixed rudder as well to make sure that the aircraft always pulls outward. In the control line flying line tension is all, if the lines go slack all control is lost. This phenomenon of the lines going slack is usually caused by wind or the aircraft side slipping into the circle at high elevation. In general there are 5 types of airframes that are usually used in control line flight. These are generally optimized to fly in their respective disciplines. The types of airframes are: 1) Trainers, 2) Built up, 3) Scale, 4) Profile, and; 5) Flying Wings. Trainers have a solid balsa fuselage and solid balsa wings. They are very stable, slow and sturdy airframes built to survive a few crashes. Built up models have a 3 dimensional fuselage with the control leads internally housed for greater aerodynamic efficiency , these are generally used for stunt and speed flying. Scale models are generally used for show or in the Navy carrier competitions. Profile aircraft and Flying wings are easy to build and very sturdy, hence they are used in Combat.

In the past, ready to fly half A plastic (mostly styrene) models were very common, but these may have disappeared.

[edit] Controls

The aircraft is controlled by a set of 20-70 foot lines made of polyester, kevlar or thin music wire, or braided stainless steel cables depending on factors such as air drag, safety and weight. (Small models often use polyester sewing thread, even though the air drag penalty is greater than with larger models, because that makes them safe to use in the presence of unsupervised children.) The controls are rudimentary at best (unless electrical signals are sent through metal lines) consisting of lead-out cables, a bell-crank, push rods and control horns. These controls are assembled as shown in Fig.1. The controls can be complicated by adding a third line that controls the throttle. The throttle is usually a spring loaded fuel valve in "diesel" engines and an air flow control on the venturi of the engine with glow plug ignition engines. Flap and elevator control are common. Schemes that couple limited rudder and/or aileron are often found on carrier planes as well as elevator and flaps.

[edit] Power

These Airplanes usually have a power plant of .049 to .60 cubic inches, although .90 can be reached, or may have electric power. The line drag and weight of the lines tend to offset the weight and volume of radio equipment. The radio controlled airplanes of similar engine capacity are generally twice as large. Though it is traditional for radio control (RC) aircraft to have higher nitromethane content fuel than control line and free flight models, this extra power requirement is probably not needed with the light radio receivers and servos available today.

[edit] Undercarriage

Most control line combat and speed aircraft leave out under carriage all together for speed and are therefore hand launched or use a dolly for take off and make a belly landing. Navy carrier models have a reinforced hook to help them catch an arresting cable on a simulated carrier deck. Most stunt aircraft have undercarriages with 2-3 wheels the competitions models have shock absorbers, as the landings are graded.

[edit] Competitions

Competitions for control line aircraft are held in various classes. These include speed, precision aerobatics (aka stunt), team racing, combat, naval carrier, and scale.

[edit] Speed

Speed is divided up into different engine capacity classes. As the name suggests, the idea is to have the model go as fast as possible. The model is timed over a number of laps, and the pilot must hold the handle controlling his model in a yoke on top of a pole in the middle of the circle. This is in order to stop the pilot from assisting the model to go faster by increasing the line tension and leading the model (known as whipping).

[edit] Precision aerobatics

Precision aerobatics consists of flying a set of maneuvers which are judged by a panel of judges for accuracy, bottoms height, shapes, and other factors. "Stunt" models tend to be among the larger Control Line models, wings spanning around 45 inches (1.1 m) from right wingtip to left wingtip. They have been traditionally powered by a two-stroke engine in the 6-10 cc (0.40-0.60 cu) range, with four stroke model engines and electric power also becoming popular as power sources. The total range of displacement size for fueled engines is from (0.15-0.90 cu). The aircraft is almost always fitted with flaps, which work in conjunction with the elevator to increase the pitch maneuverability. When up-elevator is applied, the flaps on the wings go down, and vice versa. "Stunt" models are often beautifully painted, since the judging of the maneuvers is partly aesthetic, and a "pretty" model might help improve the score. "Stunt" is flown in many countries, with "world championships" being held open for any flier who makes his or her respective team place. There are several other classes of "Stunt" which include "Vintage or Old Time Stunt" where simple maneuvers are performed with a model that was designed before a specific date ( Pre 1945 for some classes ) You are also awarded points for "Adherence to original plan" Use of an old engine scores high, and where available use of original parts. One of the more successful designs is "Nobler" Designed in 1951, many 1000s have been built due it its performance for a "Vintage Stunt" model.

[edit] Team racing

Team racing is an event for two-person teams—the pilot and the pit crew. There are various classes of team race: A and B (for different engine sizes), Goodyear (certain restrictions on the shape of the model), and so on. However, the basic idea of all the events is that a number of models (often three or four) fly together, aiming to complete a given number of laps before any of the others. The model is also required to make a pit stop during the race, where it is refueled, the engine restarted, and the model re-launched. This is the job of the pit crew. There are rules about how the pilots must walk around each other, and how to pass (harder than one might think, as each model is on the end of a pair of control lines).

[edit] Combat

Combat is an event where highly maneuverable flying-wing aircraft are flown two at a time. Each model tows a paper streamer, and the aim is to cut the opponent's streamer as many times as possible with one's propeller. Points are scored for each cut and taken away, when on the ground or as an infringement penalty . As combat models are fast and twitchy, and are chasing each other around, the mortality rate of the models is high. Deliberate collisions are not allowed, but plenty of accidental ones happen. Combat is a very exciting event, particularly for the pilots but also for spectators. Control line has the advantage over radio control, here, that a person's limited depth perception is not needed to engage the other model.

[edit] Navy carrier

Navy carrier is an event where semi-scale models of real naval aircraft are flown. Takeoff and landing are from a simulated aircraft carrier deck, with arrestor wires. The aim of the flight is to complete a number of fast laps, flown as quickly as possible, followed by a number of slow laps, flown as slowly as possible. This is followed by the carrier deck landing, attempting to snag the arrestor wire. Carrier models usually have a third control line, worked by a finger trigger in the handle. This line allows the throttle setting of the engine to be controlled. Often, a carrier model will have flaps. However, unlike a "stunt" model, these flaps are worked separately from the elevator. A large amount of flap is usually applied during the "slow" laps.

[edit] Scale

Scale is an event where an accurate scale model of a real aircraft is flown. Scoring is based partly on static judging, partly on how closely the aircraft resembles the full-size and how well it is finished, and partly on the flight performance. Extra points are often awarded for "working" features of the model, such as a retracting undercarriage, droppable bombs, and so on. Certain more complex scale models use a fly-by-wire approach to allow a multitude of extra working features. A radio-control transmitter can be adapted to send its signal along the elevator control lines, instead of broadcasting them. Standard servos can then be used in the model.

[edit] Weapons

Various weapons such as the US Army's BGM-71 TOW (Tube launched, Optically tracked, Wire guided) anti-tank missile, certain types of torpedoes and some German WW II missiles are controlled through wires that they trail out behind them. This has the advantage over radio control that it is virtually impossible to jam.

[edit] See also

[edit] External Links

[edit] Organisations

[edit] Non Commercial

[edit] Commercial

Languages