FI74673B - BOTTENFORM FOER FARTYG. - Google Patents

Description

74673

SHIP BOTTOM SHAPE - BOTTENFORM FÖR FARTYG

The invention relates to the bottom shape of a ship for navigation in icy waters according to the preamble of claim 1.

A significant part of the running resistance of an icebreaking ship in ice driving is due to frictional work on the side and bottom of the ship by broken ice blocks. By guiding at least a large portion of the ice blocks out of the roadway below the edges of the solid ice, this friction is reduced. At the same time, the advantage is achieved that the ship's propellers are protected from broken ice blocks, and the passage of ships coming in an broken channel, i.e. in the chute, is facilitated.

To guide the ice blocks away from under the ship, various shapes of the ship's hull have been proposed. Finnish patent application No. 850862, for example, discloses a vessel in which a wedge-shaped, backward-expanding plow starting from the bottom of the ship's bow line moves the ice cubes away from the ship's propellers and largely below the ice edges of the gutter. However, the weakness of such a hull structure is its inferior seaworthiness and higher running resistance in open water compared to its conventional ship hull. The fixed closed plow structure also permanently increases the ship's draft and reduces its draft.

Another way of solving the above-mentioned problem is disclosed in German application DE-OS 2112 33 ^, according to which a sharp-angled, open plow formed of strip-like members is mounted on the bottom of the ship. When the height of the sides of such a plow is high enough, e.g. at least 80¾ of the limit thickness of the icebreaking property of the ship, a relatively good displacement of the ice blocks to the sides is achieved. The disadvantages, on the other hand, are the significantly increasing running resistance, as well as the permanently increasing draft of the vessel. In addition, in such a solution there is a rather strong flow of water under the sides of the plow under the bottom of the ship, which flow is also capable of guiding the ice blocks under the bottom of the ship. Finnish patent application 851312 discloses a bottom structure in which the sides of the plow can be folded into the bottom part of the ship so that when moving in open water the running resistance is lower, seaworthiness and maneuverability are better, and the ship's draft can be reduced. In addition, when the plow tip is open or the inside of the plow sides is inclined, the detrimental flow under the plow sides is advantageously reduced. On the other hand, this solution also has the disadvantage of a significantly significant increase in driving resistance in ice conditions, as well as difficult-to-solve strength problems, as the force of the ice blocks towards the plow is quite large. Applying such a structure to already constructed frames is also difficult to implement.

The object of the invention is to create a new and more economical system for guiding broken ice blocks to the sides away from under the bottom of an icebreaking ship. The aim is also to create a system that has the least possible effect on the seaworthiness of the ship and on the increase in drag. It is a further object to provide a system which advantageously offers the smallest possible increase in draft compared to a conventional ship's hull, as well as enabling inexpensive strength theory solutions by reducing the force exerted by the ice blocks towards the system. The object of the invention is, in addition to the above, to create a system which is easily applicable to existing ships. The features of the invention appear from claim 1.

In the following, the boundary thickness of the ice-breaking property of an icebreaking vessel means the thickest flat layer of ice that the vessel is capable of breaking with continuous advancement. This concept thus refers to the ship feature, which is usually the starting point for the design of a new icebreaker. An ice-breaking bow preferably means a bow which breaks the ice mainly by bending it downwards.

Il, 3 74673 Such a bow shape is disclosed, for example, in Finnish Patent Application No. 850862. When the angle of the bow line with respect to the horizontal is as small as possible at the bottom of the bow line, the downward movement of the broken ice blocks is preferably small. The term substantially horizontal bottom means, in the most preferred form, a perfectly flat bottom between the sides of a ship, without excluding the possibility of assembling the bottom of the ship from two bottom parts which are at a small angle to each other along the center line of the ship.

According to the invention, two or more strip-shaped guide members are mounted on the bottom of the ship on each side of the center line, which guide the ice blocks broken by the bow to the sides away from under the ship. When in the prior art a single plow member receives the flow of broken ice blocks, in the solution according to the invention several successive control members participate in the operation. In this case, some of the ice blocks are allowed to slide under the sides of the front control members, i.e. the vertical height of the control members can be kept considerably lower than if only the ice block receiving member alone should be able to guide all the blocks out from under the ship. According to the invention, already on impact with the first guide member, the ice blocks receive a lateral movement component which facilitates the protrusion to the sides away from the driving chute at the next guide groove.

The advantage of the invention over the prior art is thus based on the fact that the draft of the ice guiding members can be substantially reduced further. For river icebreakers in particular, minimizing the overall draft of the vessel is a paramount goal. The small vertical dimension of the steering members also substantially reduces the direction of the flow of water that impedes the operation to the rear side of the steering members, where there is a vacuum compared to the front side as the ship progresses. If

If 74673 were to have a single guide member or plow, the impact of the ice block holes with the member would be considerably stronger, and the torque arm of the force effect with respect to the attachment point of the member would be adversely longer. Compared to the prior art, when applying the solution according to the invention, the constructional and strength problems are much easier, simpler and more economically manageable. In the case of the use of reversible plow members according to Finnish patent application No. 851312, the aspects concerning strength and durability are particularly important.

When applying the solution according to the invention, it is possible to use cheaper solutions than in the prior art in the placement of the control members on the bottom of the ship. When using a single plow member, the plow tip must be both sharp and substantially closed. When the control member according to the invention is not alone to bear the entire resistance of the ice blocks, e.g. the front control members can be placed closer to the front of the ship, perhaps partly even near the bow, so that a wide gap is left between two opposite control members. Opposite guide members can also be interleaved so that a water-promoting gap is left between the tips of the members in the longitudinal direction of the vessel, since any ice blocks that may slip through the gap meet the rear guide members.

In the practical scale model experiments carried out in the ice laboratory in Rio, the functionality of the invention has been felt quite well. For example, it has been shown that the ability of four consecutive control members to move broken ice blocks to the side corresponds to the operation of one plow member when the height of the control members is 1/8 and the height of the plow member 1/2 of the ice breaking property boundary thickness. However, when successive steering members are used, the forward resistance of the vessel is considerably lower in both icy waters and open water.

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In a preferred embodiment of the invention, at least some of the guide members, in particular the stern ones, together with the opposing members on the other side of the ship's center line, form a sharp-tipped, backward-expanding striped plow. This ensures that the gutter is cleaned of ice blocks as efficiently as possible. The outer surface of the guide members is preferably vertical with respect to the horizontal plane in order to maximize the adhesion of the members to the ice blocks and the sliding of the blocks to the sides along the member. Instead, the inner surface of the guide members preferably forms an inclined plane with respect to the bottom of the vessel. This is an advantageous solution, both in terms of smooth water flow and also constructively favorable in terms of strength and durability properties. In addition, such an arrangement facilitates the detachment of the ship from the load-bearing ice field after entrapment. In its own longitudinal direction, it is advantageous to arrange the extent of the guide members up to the side of the ship, so that the ice blocks move far enough under the ice field on the sides of the ship. The vertical height of the control members can be freely selected according to the achieved ice transfer capacity. In principle, the height of the organs can be reduced by increasing the number of organs. When the total height of the control members is 50-120% of the limit thickness of the ice-breaking property of the ship, the best results are usually obtained. When driving at low speeds, a satisfactory result can be achieved with controls with a total height of only 20% of the limit thickness.

The guide grooves are set obliquely to the center line of the ship. The angle between the guide bar and the center line when viewed from the rear is preferably 15 °. When the two guide members form a plow with each other, the angle between the sides of this plow is 30 ° ... 90 °, respectively.

In one application, the cooling piping of the marine engine cooling system is arranged inside the control members. This is a cooling-efficient arrangement, since, 74673 6 there is a strong cold water flow near the control members. A further advantage of this arrangement is that as the vessel drifts onto the load-bearing ice field until it becomes stuck, the heated guide members provide a thin layer of water between the vessel and the ice field, which tends to reduce friction when removing the vessel.

The outer surface of the guide members is preferably arranged concave when viewed from the bow of the ship. In this case, the lateral acceleration of the ice block facing the control member is almost constant, which tends to help the ice block to slip and stay in front of the control member. In one application, the control members are arranged to be turned inwards as indicated in Finnish Patent Application No. 851312. In this case, the draft of the vessel can be further reduced if necessary, and better maneuverability and seaworthiness in open water can be achieved.

In connection with the control members according to the invention, it is also possible to use, for example, compressed air blowing openings known from Finnish patent No. 47061 in order to reduce the resistance to travel and to facilitate the removal of ice.

The invention will now be described in more detail with reference to the accompanying drawing, in which Figure 1 schematically shows a side view of a ship's bottom design according to the invention; Fig. 2 is a bottom view of the body of Fig. 1; Figure 3 is a bottom view of an embodiment of the invention; Figure 4 is a bottom view of another embodiment of the invention; and Fig. 5 shows the control member according to Fig. 2 in the plane A-A.

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In the drawing, reference 1 denotes a bow of a ship which is shaped to break ice, preferably. In the preferred solution, the shape of the bow in the horizontal sections is circular, and the angle α of the bow line with respect to the horizontal in the ice-breaking zone and below is at most 40 °, preferably at most 18 °. The sides 6 of the ship are vertical or inclined in the upward-outward direction, and are preferably connected by rounding to the substantially horizontal bottom part 2 of the ship. The bottom 2 of the ship may also be divided so that the left and right sides of the bottom part 2 form a small angle along the ship's design waterline level.

A series of guide members 3 are mounted on the bottom 2 of the ship 2 on each side of the center line 5 in succession, at an angle b to the center line. The angle b is between 15 ° ·· «45 °. According to Figure 2, in one embodiment the guide members 3 are mounted symmetrically on both sides of the center line 5 so that a number of successive sharp-tipped plow members are formed under the bottom of the ship.

At least two, preferably three or more control members 3 are arranged in succession. Laterally, the guide members extend mainly to the side portion 6.

Figure 3 shows an alternative way of arranging the guide members 3 on the bottom of the ship. The front guide members 3 'are located at a distance from the center line 5, so that a relatively large opening 10 is formed between the two opposite guide members when viewed from the front. the advantage that the steering members can be placed closer to the bow 1 of the ship, in addition, the stress exerted by the ice blocks on the front steering members is preferably reduced. The vertical height of the guide members 3 'can advantageously be arranged to increase in the rearward direction. The guide members 3 '' are arranged longitudinally in different planes so that a longitudinal opening 8 74673 is formed between the guide members 3 '* located on different sides of the center line 5. Such an arrangement provides a smooth flow of water to the rear side of the control members, which tends to reduce the water flow under the sides of the control members due to the vacuum on the rear side. Thus, the slipping of the ice blocks under the control member is also reduced. The opening between the guide members 3 '' is small enough so that the movement of the ice blocks through the opening does not occur substantially, however, it is advantageous to arrange the guide members 3 · in contact with each other behind the guide members 3 ''.

Figure 4 shows curved guide members instead of rectangular guide members. The advantage of such an arrangement is to make the lateral acceleration of the ice blocks constant, i.e. the force effect between the ice block and the guide member remains constant along the entire sliding surface of the guide member. In this case, the slipping of the ice blocks under the sides of the control members is better controlled. In the case of the curved guide members according to Figure 4, said angle h is calculated on the basis of a segment formed by the start and end points of the side surface of the guide member.

Fig. 5 shows a cross section of the control member 3 in the plane A-A (Fig. 2). The front side 7 of the guide member 3 is arranged substantially vertical with respect to the vertical plane or the base 2. Instead, the back side or surface 8 is preferably arranged to form an inclined plane with respect to the base 2. This is advantageous from the point of view of water flow, since thus the occurrence of turbulence phenomena is reduced. The vertical dimension k of the guide members should be dimensioned so that the combined heights K of the guide members placed in succession are at least 20%, preferably at least 50% of the limit thickness of the ice-breaking property of the ship. The heights k of the different control members may not be equal. For example, from the point of view of structural strength, it is advantageous to arrange the guide members 3 so that the stresses applied by the ice blocks to the different guide members are of the same order of magnitude. In this case, it is advantageous

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, 74673 arranges the height k of the front control members smaller than that of the trailing ones. As stated for the guide member 3 ', the height k of the guide member can be arranged to increase in the rearward direction. When calculating the total height K, the height k_ of the center of the control element is then taken into account.

In one application, a water circulation belonging to the cooling system of the marine engine is arranged inside the control member, in the space 9 delimited by the front side 7, the rear side 8 and the bottom 2. This arrangement is advantageous for the cooling system of the machinery, in addition, the control members 3 can thus be heated, which is useful, for example, when the vessel drifts onto the load-bearing ice layer until it gets stuck. A thin layer of friction-reducing water is then formed between the heated control element and the fixed ice field.

The invention is not limited to the embodiments shown, but several variations of the invention are conceivable within the scope of the appended claims.

Claims (10)

74673 A ship intended for navigation in icy waters, the hull of which comprises a substantially horizontal bottom part (2) and a bow (1) which preferably breaks the ice at the front, characterized in that at least two, preferably three or more list-shaped broken ice block control members (3,3 ', 3 ”) at an oblique angle (b) to the center line. Ship according to Claim 1, characterized in that the guide elements (3 »3,, 3”) form an angle of 15 ° to a center line (b). Ship according to claim 1 or 2, characterized in that at least some of said guide members (3, 3 ', 3 ") together with corresponding guide members on the other side of the center line (5) form a sharp-tipped plow expanding in the rearward direction. Ship according to one of the preceding claims, characterized in that the front surface (7) of the guide members (3> 3T, 3 ") is substantially vertical with respect to the horizontal plane. Ship according to one of the preceding claims, characterized in that the rear surface (8) of the guide members (3, 3, 3 ") forms an inclined plane relative to the bottom of the ship. Ship according to one of the preceding claims, characterized in that the guide members (3, 3 ', 3 ") extend in their longitudinal direction to the plane of the side part (6) of the ship. Ship according to one of the preceding claims, characterized in that the combined vertical height (K) of the control elements (3, 3, 3 ") is at least 20%, preferably 50 to 120% of the ultimate thickness of the ice-breaking property of the ship. 74673 Ship according to one of the preceding claims, characterized in that a water circulation belonging to the cooling system of the ship's engine is arranged inside the control elements (3, 3 ', 3 "). Ship according to one of the preceding claims, characterized in that the front surface (7) of the guide members (3, 3 ', 3 ") forms a concave surface when viewed from the bow of the ship. Ship according to one of the preceding claims, characterized in that the guide members (3, 3 ', 3 ") can be pivoted inwards into the bottom part (2) of the ship so that the guide members (3,3 *, 3"), when folded in, form a shoulder-free part. from the bottom part (2). 12 7467 3