EP0281653A1 - Ice breaking ship - Google Patents

Abstract

To improve the ice-breaking properties when sailing ahead and astern, the hull (10) of a ship with the maximum width of the ice-breaking water line formed in the fore-body and with devices for trimming and ballasting in the stern area (12) is designed so as to be widened in its part above the ice-breaking water line (1) to such an extent that, if the after-body (12) sinks due to trimming or ballasting of the ship when sailing astern, a channel is broken in the ice sheet, which channel is wider than the wide fore-body part (11), which passes this channel when sailing astern. <IMAGE>

Description

The invention relates to an icebreaking ship with the widest width of the icebreaking waterline formed in its bow and with devices for trimming and ballasting.

It is known that icebreaking ships can break ice more effectively the further the widest part of their ice-breaking waterline is moved forward in the direction of travel when moving forward. When reversing icebreaking, this improvement is reversed.

For some icebreaking ships with special tasks, such as for convoy icebreakers, however, not only the ability to effectively break ice forward is important, but also to a high degree the ability to change direction quickly and to break a solid ice sheet even when reversing.

EP-A-00 97 002 makes a ship for a voyage in open or ice-covered water with a pontoon-shaped foredeck lying above the waterline, the side walls running parallel to one another and a flat and strong one that extends over the entire width of the ship and in the underwater ship has a front surface that is inclined towards the front, which merges backwards into a central keel, and with a stern and with drive devices accommodated therein, in which the side edges in the transition region of the front side walls to the front surface are curved in the longitudinal direction of the side edges and opposite those formed by the front side walls Levels protruding laterally so that the distance the greatest width of the underwater hull forms between the side edges below the construction waterline, with the undersides of the frames between the two side edges starting from the point of the length of the ship where the end face merges with the center keel to the point where it reaches the bottom of the ship , transversely arched downwards or bent. With a ship designed in this way, the conditions for the shear fracture of a one-piece floe from the solid ice sheet should be made even more favorable and the guidance of the floe under the water should be reduced with reduced risk of clod crushing to many fragments, so that the lateral placement of the flounder under the solid Ice cover is achieved even more reliably.

If such an ice-breaking ship is designed to travel forward on the normal ice-breaking water line and backward travel on a trimmed water line, the following results: When moving forward in the ice cover, a smooth-cut ice-free break channel is created in the ice sheet by two side cutting edges provided on the fore ship and regularly shaped, approximately Rectangular ice floes are conveyed laterally under the unbroken ice sheet and removed from the area of the propellers. When reversing, for example, the cutting edge, which is the widest part of the hull and is located on the bow and protrudes laterally, creates a crack in the ice by lifting the broken ice up on the sides like a snow plow. In this case, neither the ice contact of the propellers nor broken ice in the break channel can be avoided.

The invention solves the problem of an ice-breaking ship with particular suitability for ice-breaking in reverse travel and for ice-breaking when traveling in a turning circle to create, in which optimal forward travel with good reverse travel icebreaking properties are combined.

To solve this problem, an icebreaking ship is proposed according to the type described above, which is designed according to the invention in such a way that the hull in the stern area in its part located above the icebreaking waterline is so widened that when the stern is lowered by Trim or ballast the ship when reversing a channel is broken into the ice sheet that is wider than the wide forward section that this channel passes when reversing.

It has been shown that in such an icebreaking ship optimal forward travel is combined with good reverse travel icebreaking properties, which is achieved in that the shape of the ship's stern is designed so that when it is lowered by trimming or ballasting the ship there is a clear formation in the stern widened waterline, whereby according to a further embodiment of the invention, the widening of the underwater hull is designed so that when the stern is deeply immersed and when traveling forward in a turning circle, a second icebreaking process is triggered from the hull protrusion of the stern, to the outside of the rotating circle break channel, which causes the channel to widen and leads to the reduction of the turning circle diameter. It is particularly advantageous that, while the bow of the ship evenly produces approximately rectangular ice floes, a further breaking process, which widens the break channel and reduces the turning circle, is triggered by the crushing shoulder provided on the side of the stern, by means of which further smaller ice floes are produced, the majority of which together with the from Broken ice floes are carried away from the side under the unbroken ice sheet. In addition, in a ship designed in this way, no ice has to be lifted out of the water in an energy-consuming manner during the backward journey.

Further, more expedient refinements of the invention are the subject of the dependent claims.

• Fig. 1 eine Seitenansicht eines eisbrechenden Schiffes mit angedeuteter normaler Eisbrechwasserlinie, vertrimmter Eisbrechwasserlinie und abgesenkter Eisbrechwasserlinie,
• Fig.2 Ansichten von oben vor Wasserlinien von bekannten eisbrechenden Schiffen mit verschiedenen Vorschiffsformen zur wachsenden Verbesserung der Eisbrechleistung,
• Fig 3 eine Seitenansicht eines bekannten eisbrechenden Schiffes mit angedeuteter normaler Eisbrechwasserlinie und vertrimmter Eisbrechwasserlinie,
• Fig. 4 in einer Ansicht von oben das eisbrechende Schiff nach Fig. 3 bei Vorwärtsfahrt auf der normalen Eisbrech­wasserlinie,
• Fig. 5 in einer Ansicht von oben das eisbrechende Schiff nach Fig. 3 bei Rückwärtsfahrt auf vertrimmter Wasserlinie,
• Fig. 6 in einer Ansicht von oben ein eisbrechendes Schiff für Vorwärtsfahrt-Drehkreisfahrten im Eis mit seitlich an dem Schiffskörper in dessen Hinterschiffsbe­reich vorgesehenen Brechschultern und
• Fig. 7 in einer Ansicht von oben ein im Propellerstrahl angeordneter Ruder-Rotor.

The subject matter of the invention is explained in more detail below in the drawings. It shows

• 1 is a side view of an icebreaking ship with indicated normal icebreaking water line, trimmed icebreaking water line and lowered icebreaking water line,
• 2 views from above in front of water lines of known icebreaking ships with different foreship shapes to improve the icebreaking performance,
• 3 shows a side view of a known icebreaking ship with a normal icebreaking water line and a trimmed icebreaking water line indicated,
• 4 in a view from above, the icebreaking ship according to FIG. 3 when moving forward on the normal icebreaking water line,
• 5 is a top view of the icebreaking ship of FIG. 3 when reversing on a trimmed water line,
• Fig. 6 is a top view of an icebreaking ship for forward travel turning circles in the ice with crushing shoulders provided on the side of the hull in its stern area and
• Fig. 7 in a view from above a rudder rotor arranged in the propeller jet.

In the figures, 1 is the normal water line, 2 is the direction of travel of an icebreaking ship 100, 3 is the trimmed icebreaking water line, 3a is the lowered icebreaking water line, 3 is the trimmed icebreaking water line for an icebreaking ship with crushing shoulders provided on the side of the stern 5 and 6 the ice floes generated by the crushing shoulders 5. The icebreaking ship 100 consists of the hull 10, the bow of which is indicated at 11 and the stern of which is indicated at 12; its bow is labeled 13.

Fig. 1 in conjunction with Fig. 2 shows the growing improvement in icebreaking performance from waterline form A as the worst form via waterline form B to waterline form C as the best waterline form of known hull designs. 3 to 5 using the example of the known icebreaking ship described at the outset, the icebreaking process during forward travel (FIG. 4) on the normal icebreaking water line 1 and when reversing (FIG. 5) on the trimmed icebreaking water line 3 is shown, whereby it can be seen that When moving forward in the ice cover, a smoothly cut ice-free break channel is generated and regularly shaped, approximately rectangular ice floes 4 are conveyed laterally under the unbroken ice cover and removed from the area of the ship's propeller. When reversing with the stern lowered onto the water line 3, a break channel is created in the ice, which allows the cutting edges at the bow, which form the widest point of the hull, to pass through the broken channel.

The disadvantages that arise in the known ice-breaking ships are avoided in an ice-breaking ship 100 in accordance with the embodiment shown in FIG. 6. As FIG. 6 shows, the stern ship 12 of the hull 10 of the icebreaking ship 100 is provided with crushing shoulders 5, which are formed on both sides of the hull 10 in the stern area on the hull. The largest break channel width B1 obtained by the crushing shoulders 5 is larger than the largest foreship width B, so that a further breaking process, which widens the break channel and reduces the turning circle, is triggered by the breaking shoulders or the respective breaking shoulder with a well-adjusted stern ship 12. The ice floes are indicated at 6.

The shape of the stern shape corresponds approximately to that as shown in FIG. 6. The stern 12 may have a greater width than the width of the fore 11. In the embodiment shown in FIG. 6, the waterline areas 14, 15 in the aft area 12 merge into laterally protruding, ie widening, sections 5a, so that the waterlines of the aft ship 12 have an approximately club-like widening, but the aft design is also different than how 6 may have the shape shown. For example, the transitions of the ship's side walls 14, 15 in the area of the sections 5a to the partially elliptical profile 5b can run in a straight line, but for fluidic reasons it will be advantageous to provide circular sections 5a which have a sliding surface-like effect.

The configuration of the stern aisle 12 of an icebreaking ship 100 shown in FIG. 6 is particularly favorable for forward turning circles in the ice.

The devices required for trimming and ballasting the hull 10 are designed in a manner known per se and are not shown in the drawings. The deep immersion of the stern of the hull 10 to improve the backward breaking ability is achieved by quickly pumping over ballast water in the longitudinal direction of the ship or by additional ballast water absorption.

It is advantageous to use high-performance oars to reinforce the side icebreaking process from the ship's stern.

7 shows a high-performance rudder arranged in the jet of a propeller 9, by means of which the icebreaking effect of the crushing shoulder 5 at the stern of the hull 10 is increased. Oars sensitive to ice contact are preferably used, e.g. a rotor rudder 7 with an integrated, rotationally driven cylinder 8, with which, as is known, transverse forces of between 50 and 65% of the forward thrust of the main propellers can be generated.

Claims (7)

1. icebreaking ship with the largest width of the icebreaking waterline (1) and with facilities for trimming and ballasting, characterized in that the hull (10) in the stern area (12) is located above the icebreaking waterline (1) Part is widened so that when lowering the stern (12) by trimming or ballasting the ship when reversing, a gutter is broken into the ice sheet, which is wider than the wide forward part (11) that passes through this gutter when reversing. 2. Icebreaking ship according to claim 1, characterized in that the above-water hull (10) is widened such that a deep icing of the stern (12) and forward travel in a rotating circle from the hull protrusion of the stern (12) a second icebreaking process Is triggered outside of the turning circle break channel, which leads to a widening of the channel and to a reduction in the turning circle diameter. 3. icebreaking ship according to claim 1 and 2, characterized in that the deep diving of the stern (12) to improve the backward icebreaking ability by quickly pumping ballast water in the longitudinal direction of the hull or by additional ballast pickup can be effected. 4. icebreaking ship according to claim 1 to 3, characterized in that to reinforce the lateral icebreaking process by the ship's stern (12) Hochlei stanchions (7,8) are provided. 5. icebreaking ship according to claim 4, characterized in that rotor rudders are provided as high-performance rudders. 6. icebreaking ship according to claim 1 to 5, characterized in that the hull (10) in the region of its stern (12) arranged on both sides crushing shoulders (5). 7. icebreaking ship according to claim 1 to 6, characterized in that the stern (12) of the hull (10) in the region of its crushing shoulders (5) compared to the width of the bow (11) has a greater width.

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