DE837367C - Compressed air propulsion rocket for toys with catapult - Google Patents

Description

The invention relates to a propulsion rocket propelled by compressed air for toys with catapult.

Are known thin-walled, inflatable rubber balloons, for. B. in shape of a bird to be propelled forward by the outflowing air. The necessary potential energy is pressed into the rocket body with the help of the Air: produces yellow.

The invention consists in .that the rocket is connected to the catapult by a holding device, which enables it to be filled with compressed air by means of a bicycle pump. The rocket reaches peaks of heights of 5o m when it is inflated with a bicycle handpurnhe. The stability of the flight path is increased by the initial guidance of the nozzle through the extended filling tube, possibly also by a twist that can be caused by inclined blades and trains in the nozzle. With the appropriate -lusführung as a drive means for model vehicles, z. 13. with horizontally acting nozzle and catapult. considerable speeds and distances can be achieved.

The drawing shows the invention in one embodiment, namely shows - \ b1. i the side view of the toy, _11b.2 the toy in the front view. The rocket consists of the hollow body a, the wings b, and the nozzle c. The wings can be placed at an angle to the rzetillting of the twist (not shown in the drawing). The nozzle is annular at its end Reinforcement formed, which the attack of the two brackets f of the catapult allowed. The bore of the nozzle can be equipped with trains that lead to the exiting Beam a rotation in one direction and thus the rocket in the opposite direction of rotation lend (not shown in the drawing).

Filling with compressed air by a simple bicycle air pump is made possible by a catapult connected to the rocket by means of a special holding device. The momentum generating the propulsion ' I = rntt rrt = mass of the matter driven out of the nozzle, tt = speed of the matter driven out of the nozzle.

So that the efficiency of the rocket can be increased by partial Filling the missile body finitely with a dusty, solid or a liquid Medium, e.g. B. with water.

The catapult consists of the base plate t, the twice angled filling tube i with your valve k, the seal d, guide plate e, the holding brackets f, the tension lever g and the trigger h. The last two are pivotably connected to the base plate. If the free end of the tensioning lever is raised, the two retaining brackets that are finitely coupled to it move upwards. These slide with their upper part in the slots of the guide plate: that they spread apart on the upward movement. The rocket, for example partially filled with water, can now be placed on the filling tube so that its nozzle comes to rest on the seal. When the clamping lever is pressed down, the holding brackets lie against the nozzle and press them onto the seal. The elastic tensioning lever is pressed down so far that it can snap into the recess of the trigger. With a bicycle air pump, air can now be pushed into the rocket through the valve. For safety reasons, overstressing is counteracted by the clamping lever, which is correctly dimensioned in terms of its strength and which, if the limit of the load-bearing capacity is exceeded, bends and causes the system to leak. If the excess filling has escaped, the holding device closes tightly again. The rocket is ready for launch.

When the trigger is turned over, the clamping lever slides out of its recess, and the retainer releases the missile.

Claims (1)

PATENT APPLICATION, tH E: i. Propulsion rocket operated by compressed air for toys with catapult, characterized in that the rocket consisting essentially of a hollow body and the nozzle is connected to the catapult by a holding device which enables it to be filled with compressed air by means of a bicycle hand pump. ?. Propulsion rocket with catapult according to claim i, characterized by the guidance of the nozzle by means of a filling tube reaching into the rocket body. 3. Propulsion rocket with catapult according to claims i and 2, characterized in that .die bore of the nozzle is equipped with trains that give the exiting jet a rotation in one direction and thus the rocket a rotation in the opposite direction. 4. Propulsion rocket with catapult according to claims i to 3, characterized in that in the holding device the tensioning lever is coupled so .mit the two retaining brackets and the retaining brackets slide in the guide plate in such a way that they spread apart during the upward movement of the tensioning lever and when Apply downward motion to hold on nozzle. 5. Propulsion rocket with catapult according to claims i to: 4, characterized in that the clamping lever, which is correctly dimensioned in its strength and shape, is dimensioned in such a way that it allows sealing only up to the maximum permissible pressure load and thereby acts as a safety valve.