DE74571C - Nozzle for reaction propeller - Google Patents

Description

IMPERIAL

PATENT OFFICE.

The device which forms the subject of the present invention has the Purpose, the reaction caused by the liquid thrown back by a propulsion apparatus is exerted on another (namely on the surrounding) liquid, better than before.

The essence of the present innovation consists in the fact that the cross-section of the The outlet opening of the duct or ducts containing the pressure fluids, such shape and dimensions give that the scattering of the thrown back liquid reduced, the movement of the liquid flow quickly canceled and the beneficial effect the reaction is increased.

It is known that a gas escapes from an opening under a certain pressure The greater the liquid jet, the greater the scattering when it emerges Is the resistance of the medium into which this jet of liquid is thrown, and that in this case also the cross-section of the reflected liquid jet, as well as the Speed of this jet are correspondingly greater. This scatter now has to The consequence is that a considerable amount of fluid threads from the moment they emerge to take in an oblique direction, which reduces their practical effect. Around on the other hand, to obtain sufficiently strong reactions, such as those for industrial applications Purposes are necessary, it is necessary to determine the cross-section of the reflected liquid jet, and also to choose the speed sufficiently large; one must therefore have a large cross-section and high speed maintained, but reduce the spread.

This is achieved by going from the cross-section A with a small circumference at the base of the reaction nozzle (Fig. 1) to the cross-section Α ^{Λ of} the outflow opening, which is a little larger than A , but has a flat shape and as a result one has a large scope. The parts of the nozzle wall closest to the outflow opening are parallel to each other and to the direction of movement. The narrow sides of the outflow opening can be straight or rounded and the long sides can be straight or corrugated. Instead of using a single outflow opening A ¹ for the flow of liquid, this opening can also be broken down into any number of openings aa, FIG the nozzle. Furthermore, the cross-section A can instead of a rectangular flat nozzle or a larger one. Number of smaller mouthpieces or openings α α open out, also merge into any number of zones or annular openings (Fig. 3), which also have a low height, ie are very narrow.

The means indicated above, by which the height of the cross section of the outlet opening or the cross-section at the base of the nozzle is reduced to a suitable number of circular openings of small diameter or of annular openings

Claims (1)

is dismantled from a narrow width, has the success, that the usefulness of the reaction serving for propulsion is considerably increased. This beneficial effect can, however, be made even further by the means indicated in FIG are increased, the aim of which is to reduce both the scattering and the living The force of the jet of water thrown back is canceled in as short a time as possible will. The stream of liquid (Fig. 4) must therefore pass through a number of converging mouthpieces BB ¹ in such a way that the preferably flattened, thrown-back water jet sucks in as great a quantity as possible of the liquid immediately surrounding it and matures with it from the moment it emerges . In this way the living power of the water jet is canceled out in a short time. In addition, the mouthpieces steady the water jet, maintain it in its position and thus contribute to ensuring the parallelism of the liquid threads. With regard to the suction of the liquid, it should also be noted that it is on the anterior part of the ship, either in the central axis or on the side. By arranging two reaction nozzles, steering can also be carried out in a known manner of vehicles, ships, balloons and the like. If necessary, by means of rotary valves, sliding valves, movable tubes or channels the number of outflow openings for the flow of the reaction liquid can be changed. At the Approach are z. B. uncovered all openings and then one will each depending on the speed at which the vehicle is moving, more or less large number of openings closed. Pat E ν τ claim: Nozzle for reaction propeller, which has a cross-section with the smallest possible circumference merges into an approximately equal cross-section with the greatest possible circumference with the same speed of the water threads everywhere, a larger friction surface. between to reach the emerging and still water. 1 sheet of drawings.