DE1157956B - Fast ship with underwater hydrofoils - Google Patents

Description

High speed ship with underwater hydrofoils The invention relates on a high-speed ship for over- or underwater travel with swiveling support columns attached underwater hydrofoils.

In previously known surface ships of this type, the support pillars with the underwater hydrofoils when driving in shallow water, e.g. B. during mooring maneuvers in the harbor and the like, from the position for the overwater speed trip completely out of the water be swung out. The ones required for high-speed travel on the support pillars Propellers attached to underwater hydrofoils are then attached to the support pillars swiveled out; therefore, there must still be attached to the ship's hull, even for flat ones Propellers suitable for waters and their drives must also be provided.

According to another proposal, the support columns with the attached load-bearing surfaces are drawn into the boat hull in order to prevent the Decrease resistance.

Furthermore, it has already been proposed that immovable vertical Support pillars and the attached water support surfaces with control flaps Mistake.

Drives are also known which allow the propeller to be moved laterally to swivel upwards without diving out of the water. This is mainly the purpose pursued. by the now no longer acting in the ship's center line Propulsion force to generate control torques.

The invention described here now shows how such a ship can be trained in an expedient way for sailing above and below the water.

According to the invention are the support columns with the attached water support surfaces can be swiveled sideways in such a way that it extends from the lower vertical position to the horizontal can be determined in several operational positions and in the horizontal position or the approximately horizontal positions, the columns act as Ouertriebsflächen, while the hydrofoils are used for lateral steering.

In a further embodiment of the invention, both support columns are as also provide water support surfaces with control flaps attached to the rear edge; in this way the ship can be steered about all axes in every pivot position the support pillars guaranteed.

Furthermore, there is a switching device for the actuation of the control flaps provided with the pivoting movement of the support columns depending on the pivot angle is coupled so that the switching of the control lines to the required Control function takes place automatically. Are the support pillars in such an operating position pivoted that they act as transverse drive surfaces, and the control flaps are the If the wings are set to underdrive, then it is advantageous to use the support columns to give a negative V-position. This achieves a cross-stabilizing effect Effect, because the whole surface causes more underdrive than yours due to the V-position conditional projection.

If you want a stronger understatement in certain ship designs generate, then the support columns can be attached from the outset in such a way that they in an operating position in which they act as wings, a negative angle of attack exhibit; If you place particular emphasis on the buoyancy effect, then it is a positive one To choose angle of attack.

The water bearing surfaces can be fixed by appropriate suspension and Kinematics also give a positive or negative angle of attack, whichever and is continuously adjustable.

The support columns and water support surfaces according to the invention allow in the lower vertical position of the support columns, the water support surfaces in pairs to combine into a single wing; this achieves an improved one Aspect ratio.

Propulsion means only need on the support pillars or the water support surfaces, no longer to be attached to the ship's hull. It can be flow or jet propulsion or propellers can be used. Adjustment devices can also be used be provided to change the pitch of the blade angle.

Further advantages and special features emerge from the description of the exemplary embodiments and from the drawings.

The invention is illustrated with reference to FIGS. 1 to 4, for example: Fig. 1 shows a submersible speedboat at high speed over water on water hydrofoils driving; in Fig. 2 is the same boat with support columns pivoted almost horizontally shown driving in periscope depth; Fig. 3 gives the same boat in view of back again; 4 shows a non-submersible ship in a view from the rear with the swiveling support columns in different operating positions.

The hull 1 of a submarine (Fig. 1 to 3) or 1 'one is not submersible speedboat, e.g. B. a keeled step boat (Fig. 4), carries two front joints 2 and (one or) two rear joints 2 '. At these joints 2 and 2 ', the pairs of supporting columns 3 and 3' are pivotably attached. These supporting pillars are provided with rudder flaps 4 and 4 '. Located at the bottom of the support pillars water wings 5 and 5 'with rudder flaps 6 and 6'. The front support pillars 3 have a housing 7 for a deflection gear and a drive propeller 8 provided, which can be designed as a pulling or pushing propeller; also the rear ones Support column ends can be propelled with (not shown in the drawings) be provided. Instead of a propeller drive, a suitable flow or jet propulsion can be used.

A vertical or almost vertical operating position of the pairs of supporting pillars 3 and 3 '(Fig. 1) is preferably used for overwater high-speed travel, but can do enough deep waters can also be used during diving trips and thus enables a very quick transition from overwater high-speed to diving, and vice versa. During high-speed overwater travel, the entire buoyancy is generated dynamically by the hydrofoils 5 and 5 'generated. By hand or by means of an auxiliary drive or an automatic control system actuated rudder flaps 6 and / or 6 'regulate in the position shown in FIG of the support pillars 3 and 3 'the diving depth and the bank position when traveling above and below the water, while the rudder flaps 4 and / or 4 'are used for side steering. Also can the water bearing surfaces 5 and / or 5 'be suspended in such a way that their angle of attack can be changed positively or negatively. A control is thus through alone the deflection of the rudder flaps 4 and / or 4 'or just by changing the Angle of attack of the water bearing surfaces 5 and / or 5 'or through the combination of these Opportunities achievable. For trips in shallow water and for diving trips you can the support columns 3 and 3 'pivoted into a horizontal or almost horizontal position (Fig. 2). In this operating position, the support columns 3 and 3 'act as wings, the dynamic lift with their rudder flaps 4 and 4 'depending on the rudder deflection or create understatement. The large areas of the support pillars can also be used at slower speeds Drive so strong an understatement that a submarine without flooding of diving tanks is pressed under water. Another major advantage in this operating location consists in the fact that the propeller thrust acts at the level of the vehicle's center of gravity, so that no strong rearing moments can occur that are controlled would have to.

If greater downforce or uplift forces are to be achieved, so the support columns can have a negative or positive angle of attack from the outset be provided by tilting the joints 2 and 2 'at an appropriate angle to the direction of travel.

In the operating position of the support columns 3 and 3 'shown in FIG. take the water bearing surfaces 5 and 5 'an approximately vertical position, so that they act as rudders with their rudder flaps 6 and 6 '; also in this position is the selection or described for Fig. 1 with regard to the control. Possible combinations given. A switching device (not shown) is installed in the control system (e.g. B. a hydraulically acting changeover valve) is provided, the switching of the Control lines automatically caused by the pivoting of the columns as soon as they are reached a certain angle.

In the view of the submarine, from behind (Fig. 3), the boat emerges in the Rest state up to the water line WL1. Only small structures protrude from the water 9 and the periscope or the snorkel 1ü, which only generate low static buoyancy, which is easy for diving trips thanks to the dynamic underdrive of the support columns in the Operating position B can be compensated. Should it be possible to dive in a resting position, so only relatively small flood tanks are required.

In the position of the support columns in the operating position B shown in FIG. 2 and fully extended in FIG. 3, the submarine travels to periscope depth with the water line WL 3; It is advantageous to give the support columns a negative V-position with angles a and a, which results in a transversely stabilizing effect when underdrive.

In the position of the support columns shown in dash-dotted lines in FIG in operating position A with waterline WL2, the submarine travels at high speed above the water, as described for FIG.

The use of the invention for surface ships is shown in Fig. 4 for a keeled stepped planing boat shown.

When the support columns 3 and 3 'are in the (fully extended) operating position A, the boat is lifted completely out of the water when traveling at high speed through the water-bearing surfaces 5 and 5', like the submarine in FIG. 1; the water line runs at WL 2. It is also shown that the water bearing surfaces 5 'under the ship's center can be brought together so far that they form a coherent surface with an improved aspect ratio. The same connection of two side wings to form a central wing is also possible with the front water wings 5.

If the automatic control system fails, the diving depth at high speed steers in automatically, or for other reasons, one may have regard to the diving depth controlled wing flight may be desirable. The support pillars only need in the operating position C shown in dash-dotted lines to be pivoted, whereby the moving boat is lifted out to waterline WL 4. The hydrofoils and the support pillars then represent partially submerged wings.

In the idle state and at slow speed, the planing boat sinks to Waterline WL 1 a. For trips in shallow waters, the support pillars are like this pivoted far upwards that the drive propeller 8 is still below the water level remain, as the operating position D (shown in phantom in FIG. 4) can be seen leaves. The front or rear pair of supporting pillars can then be completely removed from the water Swing out, as in Fig. 4 (operating position D) for the rear not with drive means provided support column pair 3 'is indicated.

When mooring in port and for cleaning or repair, the The support columns of the submarines and planing boats are completely folded up, as shown in Fig. 4 is indicated by the position E shown in dash-dotted lines.

The pivoting of the support columns can, for. B. hydraulically by means of a Kinematics known per se, not described in more detail here, are effected.

The drive can, for example, by a flow motor and the like. or by propellers.

Claims (7)

CLAIMS: 1. Quick ship for over- and under-water ride with water wings, which are attached to side pivotal support columns and provided with driving means, characterized in that the 'with the attached water wings (5, 5) supporting columns (3 3)' in such a manner laterally are pivotally mounted so that they can be locked in several operational positions from the lower vertical position to the horizontal, so that the columns (3, 3 ') act as transverse drive surfaces in a horizontal or approximately horizontal position and the water bearing surfaces (5, 5') act as rudders . 2. High-speed ship according to claim 1, characterized in that that in a known manner water bearing surfaces (5, 5 ') and columns (3, 3') with known control flaps (6, 6 'and 4, 4') are provided. 3. Fast ship according to claim 1 and 2, characterized by one with the pivoting movement of the columns (3, 3 ') switching device coupled in this way for controlling the control flaps (4, 4 '; 6, 6') that the switching of the control lines to the respectively required Automatic control function depending on the pivoting angle of the columns (3, 3 ') he follows. 4. High-speed ship according to claim 1 to 3, wherein the control flaps (4, 4 ') of the columns (3, 3 ') are set to underdrive, characterized in that the columns (3, 3 ') serving as transverse drive surfaces have a negative V position. 5. high-speed ship according to claim 1 to 4, characterized in that the transverse drive surfaces serving columns (3, 3 ') have a positive or negative angle of attack, if they are used in particular as lift or downforce surfaces. 6th High-speed ship according to claim 1, characterized in that the angle of attack is Water bearing surfaces (5, 5 ') can be adjusted in a manner known per se. 7. Fast ship according to claims 1 to 6, characterized in that the pairs of water bearing surfaces (5, 5 ') in the lower vertical position of the columns (3, 3' in Fig. 4) in a known per se Way to form a coherent wing. Considered publications: German Patent Nos. 882 517, 755 324; French patent specification no. 400 491.1154146; U.S. Patent No. 2,749,871; »Hansa«, 1960, p. 449, fig. 11 and 12.