RU2231470C1 - Device for breaking ice cover - Google Patents

Abstract

FIELD: shipbuilding; submarine ships breaking ice cover by resonance flexural gravitational waves.

SUBSTANCE: proposed device includes submarine ship which excites resonance flexural gravitational waves in ice when she is running under ice at resonance speed and plate mounted on upper surface of forward portion of ship's hull; surface of said plate is finned with slots located along ship's length.

EFFECT: enhanced efficiency of ice breaking.

1 dwg

Description

The invention relates to the field of shipbuilding, in particular to submarines that destroy the ice cover by the resonant method (1. Kozin V.M. Resonance method of ice cover destruction. Thesis for the degree of Doctor of Technical Sciences in the form of a scientific report. - Vladivostok, IAPA FEB RAS , 1993, 44 pp.).

The closest analogue has not been identified from the technical level, however, a technical solution is known that characterizes the general level of technology of the claimed invention.

A technical solution is known (2. Kozin VM, Onishchuk AV Model studies of wave formation in continuous ice cover from the movement of a submarine / ПМТФ, Novosibirsk: Nauka, 1994. No. 2. P.78-91), which proposes to destroy the ice cover by a device in the form of an underwater vessel, exciting flexural-gravitational waves in ice when it moves with a resonant speed V _p , i.e. at a speed at which the amplitude of the excited flexural-gravitational waves (IGW) is maximum.

The disadvantage of this device is the insufficient amplitude of the IGV excited by it, i.e. its ice-breaking ability.

The essence of the invention lies in the development of a device that increases the amplitude of the IGW excited during the translational motion of an underwater vessel.

The technical result obtained by carrying out the invention is to increase the efficiency of ice destruction by an underwater vessel.

The essential features characterizing the invention.

Device for breaking ice cover, consisting of an underwater vessel capable of exciting resonant flexural-gravitational waves in ice when moving under ice with resonant speed, and a plate mounted on the upper surface of the bow of the ship’s hull, the surface of the plate being ribbed and the grooves of the plate located along the hull.

It is known [1] that the IGV system originates directly above its source (submarine vessel). Therefore, disturbances introduced into the flow in the field of generation of IGW will have a direct impact on the process of their development. Since the first depression of progressive IGV is formed above the hull of the vessel [1] (at the new tip) in a certain place, it becomes possible to influence the reaction of the elastic base (water) from deformation of the ice cover within the vessel's length. Obviously, this effect should be aimed at reducing the strength of maintaining water in the region of the basin of the IHV, since a decrease in pressure at this point will cause an increase in the depth of the depression and a corresponding increase in bending stresses in the ice plate. In turn, this will increase the efficiency of ice destruction by an underwater vessel.

It is also known (3. Voitkunsky YN. Resistance to ship traffic. L .: Shipbuilding. 1988. - 287p.) That to reduce friction resistance, ribbed surfaces with longitudinal grooves (for example, a sawtooth shape of their cross section) located along the stream (see [3] on page 96). A decrease in the friction resistance leads to an increase in the completeness of the boundary velocity diagram, i.e. to increase the average flow velocity around a body section with a ribbed surface.

The invention is as follows.

In the bow of the vessel on its upper surface at the most probable location of the first depression of the IHV, a plate with a ribbed surface is installed, the grooves of which are located along the hull, i.e. along a stream of water. This will lead to a decrease in friction resistance, i.e. to an increase in the average water velocity under the basin of the IHV. In accordance with Bernoulli’s law, the pressure in this place will decrease, which will lead to an increase in the IGW amplitude, bending stresses in the ice cover and a corresponding increase in the ice cover destruction efficiency compared to the known solution [2].

The invention is illustrated in the drawing.

In the bow 1 of vessel 2, a plate with a ribbed surface 3 is installed. When the vessel 1 moves, the amplitude of the IGV will change from the IGV 4 to the amplitude of the IGV 5.

Claims (1)

Device for breaking ice cover, consisting of an underwater vessel capable of exciting resonant flexural-gravitational waves in ice when moving under ice with resonant speed, and a plate mounted on the upper surface of the bow of the ship’s hull, the surface of the plate being ribbed and the grooves of the plate located along the hull.