NO146625B - HOLE, SEMI-TRANSFERABLE FIBER CALCULATED FOR APPLICATION BY SEPARATION OF FLUID AND USE THEREOF - Google Patents

Description

Device for hovercraft.

The invention relates to a device for largely rectangular-shaped amphibious vessels for essentially use as sea vessels and arranged to be supported floating over a surface with the help of jet carpets of flowing fluid emitted from slits in the underside of the vessel, which form one or more air cushions between said surface and the underside of the vessel, and comprising a bow located in front of a front transverse slot, which on the underside is designed with at least three lateral bows separated and in relation to the longitudinal centerline of the vessel symmetrically situated. According to a characteristic feature of the invention, it is characterized by the fact that the slit, at least over a significant part of its length, runs along a broken line in the shape of an ibis wing, where the tips are directed forward, and that the prows formed on the underside of the bow are offset aft in relation to each other, so that their hydrodynamic centers of lift lie on a broken arrow-wing-shaped line running in front of the slot, the tips of which are directed forwards.

The invention will be described in more detail below with reference to the drawing, where: Fig. 1 shows a perspective view from below of a vessel equipped with a device according to the invention. Fig. 2 shows the vessel seen from the side. Fig. 3 is a vertical longitudinal section through the vessel along a line III—III in fig. 1. Fig. 4 is a vertical cross-section through the vessel along a line IV—IV in fig. 2.

The vessel has a largely rectangular planar shape and comprises a floating hull 1, which at the front merges into a bow section 2. The floating hull has two longitudinal slits 3 and 4, a forward transverse slit 5 and an aft transverse slit 6, which slits form a circumferential slot opening in the underside of the hull, which delimits an inner bottom 7. A longitudinal central slot 8 is taken out in the bottom, which is extended downwards by means of a pair of slot-forming wall parts 9 arranged on the underside of the bottom, as well as transverse slots 10, each of which has a front slot-wall part extending down the bottom surface 11.

In an air intake 12 in a superstructure 13 on the vessel, a propeller 14 driven by a motor not shown is arranged. The air intake 12 communicates via channels 15 with the above-mentioned slits, so that when the propeller is in operation, flowing air is emitted from the slits in the form of beam blankets 16 there form air cushions which float and support the vessel over a surface.

As can be seen from fig. 1, the front transverse slot 5 extends largely along an arrow-shaped broken line, the tips of which are directed forwards. The leading edge of the bow likewise runs along an arrow-shaped broken line, from which it goes aft with a plane

deck-forming upper side and down and aft with one in the front broken splits

opening ending underside, the aft end of the bow being arranged to form the front split wall of the front broken slot, which is denoted by 17 in fig. 3.

On the underside of the bow, three laterally separated bows are formed, namely a center bow 18 and a pair of symmetrically located side bows 19, which extend downwards from the forward edge of the bow and go aft into the front wall 17 of the broken slot. The bow is hydrodynamically designed with a V-shaped bottom and sharp strike lines 20 in the sides and are offset so aft in relation to each other that their hydrodynamic centers of lift, which are denoted by 21 in fig. 1, is located on a broken line 22 in the shape of a willow wing extending in front of the broken slot 5, with a point in the middle bow.

The rear with 23 labeled slot wall in the front broken slot is formed as can best be seen from fig. 3 of the front end of the inner bottom. According to a further characteristic of the invention, the inner bottom is raised in the floating hull so that the slot outlet of the broken slot will form a step between the lower edge of the bow with the bows and the inner bottom. On the vessel's underside, a pair of longitudinal side screeds 24 are arranged, which extend along the sides of the bottom and, with interruptions for the broken gap, pass into the two side fairings.

Due to the fact that the hydrodynamic lifting center of the three bows is arranged on a symmetrical arrow-wing-shaped broken line with the tip facing forward, it is achieved that a wave coming straight from the front first hits only the middle bow and then with an interval of a few tenths of a second the two side bows. In the case of waves coming obliquely from the front, these will, depending on their direction, first hit two of the assemblies at the same time, and then the third or first only one of the assemblies, and then the other two with time intervals between them. By adjusting the arrow angle so that the displacement in the longitudinal direction between the bows' hydrodynamic center of lift becomes proportional to the approach speed of oncoming waves within a speed range determined for the vessel, the resulting water impact force can be significantly reduced. The design of the bows with a V-bottom and sharp stroke lines also reduces the shock force of the waves on the vessel, especially in the case of very hard impacts against the bow, when the sharp bow lines on the bows contribute to the water escaping from the bow between the bows or forming a water-air mixture, which softens the water shock force on the underside of the bow.

The arrangement of the front broken slot as a step between the bow with the sterns and the raised inner bottom is particularly advantageous in that the bearing surfaces for the three sterns are clearly defined, which is suitable for limiting the magnitude of the shock force when the bow hits the waves because the water escapes at the step. Furthermore, the raised inner bottom ensures that the largest waves that pass under the air cushion-supported vessel will hit the vessel's bottom to a significantly reduced extent, with reduced impact force and resistance as a result.

Although the above has been described and only one embodiment is shown in the drawing, it is clear that the invention must not be considered limited to this, but modifications can be made within the framework of the inventive idea stated in the claims. Thus, in the present vessel with several bows designed on the bow, its hydrodynamic center of lift can lie on an arrow-wing-shaped broken line that is broken in several steps, so that further adjusted time intervals are provided between the impact impulses on the individual bows, and thus the resulting impact force on the bow is reduced .

Claims (2)

1. Device for largely rectangular-shaped amphibious vessels designed to be supported floating above a surface with the help of jet carpets of flowing fluid emitted from slits in the vessel's underside, whereby one or more air cushions are formed between said surface and the vessel's underside, and comprising a front transverse slot (5) located bow (2), which on the underside is designed with at least three laterally separated and in relation to the vessel's longitudinal centerline symmetrically located bows (18, 19), characterized in that the slot (5) at least over a substantial part of its length runs along an arrow-wing-shaped broken line, where the tips are directed forward, and that the bows formed on the underside of the bow section are offset aft in relation to each other so that their hydrodynamic lift centers (21) lie on an arrow-wing-shaped broken line running in front of the slot ( 22), where the tips are directed forwards. 2. Device according to claim 1, characterized in that the slot with its front wall (17) passes into the bow (2) with the bows (18, 19) and with its aft wall (23) passes into a raised inner bottom located aft of the bow ( 7) in such a way that the slot outlet forms a step between the lower edge of the bow and the inner bottom. Cited publications: