Fig. 144. [↑]
Fig. 145. [↑]
[TN: Image missing]
Fig. 143. [↑]
The Release. The sail is tripped by the stick, e, being pushed against an obstruction of cardboard fastened perhaps three hundred feet from the kite, see [Fig. 143]. The reason for placing it away from the kite is that when the weight comes on the kite line, the last part of the trip is very steep; by placing the obstruction some distance from the kite this difficulty is largely overcome.
As a final warning, the sail line should just be tight enough to hold the sail in place while going up and not tight enough to prevent easy tripping when e touches the obstruction disk. Some put on elastic bands to pull the sail down quickly when it is tripped. The nearer the sail can float out straight behind on the return trip, the less resistance there will be to the breeze. Some even go so far as to have a little rolling up device for the sail. A thread should be attached to the beam and to the little rod e to prevent its falling out on the down trip.
The Chinese and Japanese sometimes have little messengers that are released when a punk burns down so as to burn off a supporting thread. This might be applied to parachutes too. Another good device but which is not self-propelling on the upward trip is the trolley car, [Fig. 144]. The car is pulled up the kite line to a trip, when it is released and returns by gravity. The pulley block is tied into the kite line, [Fig. 145]. The line below the block passes thru the car under a little roller on the inside of the car at each end. The car can be made up of any light material, but need not be as light as self propelled devices, the weight being an advantage on the downward run. The line that pulls the car up passes around the grooved pulley, thru the guides in the pulley block and one end goes to the car while the other goes to the operator. A release is necessary, and perhaps a little sharp blade like a safety razor blade will be as effective as any, [Fig. 146]. In [Fig. 147] another trip is shown in which a wire is bent, as at a. This wire passes up thru the upper portion of the roof at b, and passes thru screw-eyes c and d; d is bent forward. The lower portion of the wire as represented is much longer than the upper, and when it touches the pulley block is pushed back, and the shorter portion is pushed back of screw-eye d, which releases the small ring, e, to which the pulling line to the operator is attached, and also sets free the car to run down the kite line. This last is not a difficult attachment and seems a little more scientifically mechanical.