EP1857358A2 - Rudder for ships - Google Patents

Abstract

The ship's rudder assembly has a rudder blade (100) together with a propeller on a powered propeller shaft. The rudder blade is divided into two sections (10,20), over each other, with offset leading edges (11,21) towards the propeller. The leading edge of one section is offset to port or starboard, and the other leading edge is offset towards starboard or port. The two side walls (100a,100b) of the rudder come together at a common edge (30) at the side away from the propeller.

Description

field of use

The invention relates to a rudder for ships according to the preamble of claim 1.

State of the art

Ship rudders, such as full-floating rudder or balance rudder, with or without hinged fin, are known in various embodiments.

Task, solution, advantage

It is an object of the invention to provide a ship's rudder, in which erosion at the rudder by cavitation, especially when used in fast ships with highly loaded propellers, are avoided and with the fuel consumption is reduced.

This object is achieved with a rudder according to the type described above with the features specified in claims 1 and 2.

'Thereafter, the rudder according to the invention according to claim 2, a rudder blade with two superimposed rudder blade sections, the propeller facing front nose strips are offset from each other such that the one nose bar to port or starboard and the other nose bar are offset to starboard or port, the two Side panels of the rudder blade converge in an end bar facing away from the propeller.

The advantage of such inventively designed rudder with two mirror-inverted cross-sectional profiles on the one hand in the prevention of vapor bubble formation and on the other in the prevention of erosion at the rudder, which occurs by cavitation in fast ships with highly loaded propellers. The special design of the rudder blade contributes to a reduction in fuel consumption. In addition to a significant cavitation protection and an improvement in the efficiency is given. A serious weight saving is achieved.

Characterized in that the nose strips of the two rudder blade sections are offset from each other, so that the nose strip of the upper rudder blade section to port and the nose strip of the lower rudder blade section to starboard or the nose strip of the upper rudder blade section to starboard and the nose strip of the lower rudder blade section are offset to port, respectively obtained two mutually mirror-inverted cross-sectional profiles of the two rudder blade sections.

The further inventive embodiment according to claim 2 provides for the arrangement of the ship's rudder in conjunction with his rudder stock in a rowing koker stock. Also in this embodiment, the rudder blade has two superimposed sections, the propeller facing the leading edge strips are offset such that the one nose bar to port and the other nose bar are moved to starboard, the two side wall surfaces of the rudder blade converge in a propeller facing away from the end bar , wherein the rudder trunk bearing is provided as a cantilever beam with a central inner longitudinal bore for receiving the rudder stock for the rudder blade and extending into the rudder end connected to the rudder blade, wherein for supporting the rudder stock a bearing in the inner longitudinal bore of the rudder trunk bearing is arranged, with its free end in a recess, confiscation o. The like. Reaches in the rudder blade, the rudder stock is led out in its end with a portion of the rudder trunk and connected to the end of this section with the rudder blade, with no storage between the rudder blade and the rudder trunk is provided and wherein the connection of the rudder stock with the rudder blade is above the propeller shaft center, wherein the bottom bracket is arranged for the storage of the rudder stock in the rudder trunk in the end of the rudder trunk.

The advantage that results in such inventively designed rudder, in which the rudder stock is mounted in the end of the rudder trunk bearing by means of a bearing, the connection of the rudder stock is located with the rudder blade above the propeller shaft center, without hiebei another camp for the Rudder blade on the outer wall surface of the rudder rod bearing requires, is that for replacing the propeller shaft of the rudder post after removal of the rudder blade from the rudder rod bearing no longer needs to be pulled out because the connection of the rudder stock with the rudder blade is above the propeller shaft center. In addition, the rudder blade of the rudder can have a very slim profile.

Further advantageous embodiments of the invention are the subject of the dependent claims.

Thus, an advantageous embodiment of the invention, that the upper rudder blade portion of the rudder blade has a cross-sectional profile extending from a front of the leading edge bar to the rear end bar and up to a maximum profile thickness conically widening front surface and a to the front Surface subsequent and to the rear end bar conically tapered rear surface is formed, the two of a in The longitudinal surface portion of the rudder blade extending centerline formed front surface portions have different sizes, of which the larger surface portion is located on the port side and the smaller surface portion starboard side lying, wherein the two formed by the center line in the rear region of the cross-sectional profile surface portion are the same, and that the lower rudder blade portion the rudder blade has a cross-sectional profile extending from a front surface extending from the leading edge of the nose strip to the rearward end edge and conically widening to a maximum profile thickness and one adjacent to the front surface and forming the rear surface, the two of a front surface portions formed in the longitudinal direction of the rudder blade have different sizes, of which the larger surface portion tax starboard itig lying is and the smaller surface portion is located on the port side, wherein the two of the center line formed in the rear region of the cross-sectional profile surface sections are the same, so that the propeller associated with the nose of the upper rudder blade section port side of the center line and the nose strip of the lower rudder blade portion starboard side of the center line lying down.

The two propeller-side surface portions of the cross-sectional profile of the upper rudder blade portion have edge regions with a flat arc and a curved arc, the two facing away from the propeller surface portions of the cross-sectional profile of the upper rudder blade portion tangentially extending edge region, wherein the surface portion is located on the starboard side with the edge region with a curved arc ,

The two propeller-side surface portions of the cross-sectional profile of the lower rudder blade portion have edge region with a flat arc shape and a curved arc curve, the two Having the propeller facing away from the surface portions of the cross-sectional profile of the lower rudder blade portion tangentially extending edge regions, wherein the surface portion is located with the edge region with arched bow course port side.

Brief description of the drawing

Fig. 1

eine Ruderanordnung aus einem Ruderblatt mit einem Ruderschaft und mit einem dem Ruderblatt zugeordneten Propeller,

Fig. 2A

eine schaubildliche Ansicht des Ruderblattes,

Fig. 2B

eine Vorderansicht des Ruderblattes gemäß Fig. 2A,

Fig. 3

das Ruderblatt gemäß Fig. 2A mit eingezeichneten Querschnittsformen im oberen Ruderblattabschnitt und im unteren Ruderblattabschnitt,

Fig. 4

eine Ansicht von oben auf das Querschnittsprofil des oberen Ruderblattabschnittes des Ruders,

Fig. 5

eine Ansicht von oben auf das Querschnittsprofil des unteren Ruderblattabschnittes des Ruders,

Fig. 6

die Ruderanordnung mit in dem Ruderkokerlager gelagerten Ruderschaft und dem oberhalb der Propellerwellenmitte liegenden Befestigungspunkt des Ruderschaftes mit dem Ruderblatt,

Fig. 7

einen senkrechten Schnitt gemäß Linie VII-VII in Fig. 6 und

Fig. 8

eine schematische Darstellung der Lageranordnung zwischen dem Ruderschaft und dem Ruderkoker.

Embodiments of the invention are explained below with reference to the drawings. Show it:

Fig. 1

a rudder assembly comprising a rudder blade with a rudder stock and a propeller associated with the rudder blade;

Fig. 2A

a perspective view of the rudder blade,

Fig. 2B

a front view of the rudder blade of FIG. 2A,

Fig. 3

the rudder blade according to FIG. 2A with drawn cross-sectional shapes in the upper rudder blade section and in the lower rudder blade section,

Fig. 4

a view from above of the cross-sectional profile of the upper rudder blade portion of the rudder,

Fig. 5

a view from above of the cross-sectional profile of the lower rudder blade portion of the rudder,

Fig. 6

the rudder assembly with rudder stock mounted in the rudder rod bearing and the attachment point of the rudder stock with the rudder blade, located above the propeller shaft center,

Fig. 7

a vertical section along line VII-VII in Fig. 6 and

Fig. 8

a schematic representation of the bearing assembly between the rudder stock and the rudder trunk.

Detailed description of the invention and best way to carry out the invention

In the rudder design illustrated in FIG. 1, reference numeral 110 designates a hull, 120 a rudder rod bearing, 100 a rudder blade, and 140 a rudder stock. The rudder blade 100 is associated with a propeller 220.

The rudder blade 100 according to FIGS. 2A, 2B and 3 has two superposed rudder sections 10, 20, whose front nose ledges 11, 31 facing the propeller 220 are offset in such a manner that one nose bar 11 to port BB and the other nose bar 21 to starboard SB are offset. The two side wall surfaces 100a, 100b of the rudder blade 100 merge into an end bar 30 facing away from the propeller 220.

The upper and lower rudder blade sections 10, 20 of the rudder blade 100 are formed as follows:

The upper rudder blade section 10 has, according to FIG. 4, a cross-sectional profile 12 which is formed by a front surface 14 which tapers conically from the front nose strip 11 to the end rail 30 up to a largest profile thickness 13. At this front surface 14, a rear surface 15 extending to the end bar 30 connects, which tapers to the end bar 30. The front surface 14 is subdivided by a center line M1 extending in the longitudinal direction of the rudder blade 100 into two surface sections 14a, 14b which have different sizes.

The larger surface portion 14a is located on the port side and the smaller surface portion 14b facing the starboard side. The rear surface 15 is also divided from the center line M1 into two surface portions 15a, 15b. Here, the two surface portions 15a, 15b are the same size and have the same shapes.

The two propeller-side surface sections 14a, 14b of the cross-sectional profile 12 of the upper rudder blade section 10 have edge regions 16, 16a with a flat curved path 16'a, the two propeller 220 facing away from the surfaces 15a, 15b of the cross-sectional profile 12 of the upper rudder blade section 10 tangentially extending edge regions 17th 17a.

The surface section 14b with the edge region 16a with a strongly arched curve 16 'a is located on the starboard side.

The lower rudder blade section 20 has, according to FIG. 5, a mirror-inverted cross-sectional profile 22. This cross-sectional profile 20 extends from a conically widening from the leading edge 21 to the end bar 30 and to a maximum profile thickness 23 surface. Adjoining this front surface 24 is a surface 25 which extends to the end strip 30 and tapers to the end strip 30. The front surface 24 is subdivided by a center line M2 running in the longitudinal direction of the rudder blade 100 into two surface sections 24a, 24b which have different sizes. The larger surface portion 24b is located starboard side and the small surface portion 24a is facing the port side. The rear surface 25 is also divided from the center line M2 into two surface portions 25a, 25b. Here, the two surface portions 25a, 25b are the same size and have the same shape.

The two propeller-side surface portions 24a, 24b of the cross-sectional profile 22 of the upper rudder blade portion 20 have edge regions 26, 26a with a flat arc 26 'and a curved arc 26'a, the two facing away from the propeller 220 surfaces 25a, 25b of the cross-sectional profile 22 of the lower Ruderblattabschnittes 20 tangentially extending edge regions 27, 27a have.

The surface portion 24b with the edge region 26'a with a strongly arched curve 26'a is located on the port side.

The design and arrangement of the two rudder blade sections 10, 20 provides that the propeller 220 associated nose strip 11 of the upper rudder blade section 10 port side to the center line M1 and the nose strip 21 of the lower rudder blade section 20 starboard side lying to the center line M2, wherein the two rudder blade sections 10, 20th in the rear region of the rudder blade 100 are brought together in an end strip 30.

According to FIGS. 2A, 2B, 3, 4 and 5, the two rudder blade sections 10, 20 of the rudder blade 100 with their cross-sectional profiles 12, 22 are arranged relative to one another in such a way that the side wall sections of the rudder blade, which in the region of the highly curved curved courses 16'a and 26'a of the surface portions 14b and 24b are starboard side and port side, then the surface portion 14b of the cross-sectional profile 12 starboard side and the surface portion 24b of the cross-sectional profile 22 are facing port side, so that the nose strips 11, 21 of the two rudder blade sections 10, 20 port side and starboard side lie.

However, the invention also includes an embodiment of the rudder, according to which the two rudder blade sections 10, 20 of the rudder blade 100 are arranged with their cross-sectional profiles 12, 22 to each other such that the side wall portions of the rudder blade, in the region of the highly curved arc curves 16'a and 26'a of the surface portions 14b and 24b are port side and starboard side, then the surface portion 14b of the port side cross-sectional profile 12 and the surface portion 24b of the starboard side cross-sectional profile 22 are facing, so that the nose ledges 11, 21 of the two rudder blade sections 10, 20 starboard side and on the port side.

In the rudder design illustrated in FIGS. 6 to 8, reference numeral 110 denotes a hull, 120 a rudder trunk bearing, 100 a rudder blade and 140 a rudder stock. At the rudder blade 100 a fin 135 is hinged. The rudder blade 100 has a preferably cylindrical recess 155 for receiving the free end 120 b of the rudder trunk bearing 120.

The rudder trunk bearing 120 is provided as a cantilever with a central inner longitudinal bore 125 for receiving the rudder stock 140 for the rudder blade 100. In addition, the rudder trunk bearing 120 is sufficiently formed to the rudder blade 100 connected to the rudder end. In its inner bore 125, the rudder trunk bearing 120 has a bearing 150 for supporting the rudder stock 140, wherein preferably this bearing 150 is arranged in the lower end region 120b of the rudder trunk bearing 120. The rudder stock 140 is led out with its end 140b with a section 145 from the rudder trunk bearing 120. The free lower end of this extended portion 145 of the rudder stock 140 is fixedly connected to the rudder blade 100 at 170, but here too a connection is provided which allows a release of the rudder blade 100 of the rudder stock 140 when the propeller shaft is to be replaced. The connection of the rudder stock 140 in the area 170 with the rudder blade 100 is above the propeller shaft center 200, so that only the rudder blade 100 must be removed from the rudder stock 140 for the expansion of the propeller shaft, while pulling out the rudder stock 140 from the rudder trunk 120 not is necessary, since both the free lower end 120b of the rudder trunk bearing 120 and the free lower end of the rudder stock 140 are above the propeller shaft center. In this embodiment shown in FIGS. 1 to 3, only a single inner bearing 150 is provided for the bearing of the rudder stock 140 in the rudder trunk bearing 120; another bearing for the rudder blade 100 on the outer wall of the rudder trunk bearing 120 eliminated. For receiving the free lower end 120b of the rudder trunk bearing 120, the rudder blade 100 is provided with a recess or recess indicated at 160.

In the rudder the rudder trunk bearing 120 is provided as a cantilever with a central inner longitudinal bore 125 for receiving the rudder stock 140 for the rudder blade 100. Furthermore, the rudder trunk bearing 120 is formed reaching into the rudder blade 100 connected in the rudder end and has in its inner bore 125 a bearing 150 for supporting the rudder stock 140 in the rudder trunk bearing 120. With its free end 120 b, the rudder trunk bearing 120 extends into a recess 160 in the rudder blade 100, the rudder stock 140 being led out of the rudder trunk bearing 120 in its end region 140 b with a section 145. With the free end of this extended portion 145 of the rudder stock 140 is connected to the rudder blade 100, wherein the connection of the rudder stock 140 with the rudder blade 100 above the propeller shaft center 200 is lying. In the end region 120b of the rudder trunk bearing 120, the inner bearing 150 is preferably provided.

The invention is not limited to the embodiments described above and illustrated in the drawing. Deviations in the arrangement of the bearing in the area of the rudder trunk bearing 120 and the rudder stock 140 are also within the scope of the invention as another embodiment of the cylindrical recess 160 in the rudder blade 11. The inventively constructed rudder arrangement o. In ships as well as in floating platforms o. applicable.

Claims (5)

Rudder for ships, comprising a rudder blade (100) and a propeller (220) associated with the rudder and arranged on a drivable propeller shaft (225).
characterized,
in that the rudder blade (100) has two rudder blade sections (10, 20) lying one above the other, whose front nose ledges (11, 21) facing the propeller (220) are offset in such a manner that the one leading edge (11) to port (BB) or starboard (11) SB) and the other nose strip (21) to starboard (SB) or port (BB) are offset, wherein the two side wall surfaces of the rudder blade (100) converge in a propeller (220) facing away from the end bar (30). Rudder for ships, comprising a rudder blade (100) and a propeller (220) associated with the rudder and arranged on a drivable propeller shaft (225).
characterized,
in that the rudder blade (100) has two superimposed sections (10, 20) whose front nose strips (11, 21) facing the propeller (220) are offset such that one nose strip (11) to port (BB) and the other nose strip (21) are offset to starboard (SB), wherein the two side wall surfaces (100a, 100b) of the rudder blade (100) converge in a propeller (220) facing away from the end strip (30), and that the rudder rod bearing (120) as Kragträger with a central inner longitudinal bore (125) is provided for receiving the rudder stock (140) for the rudder blade (100) and extending into the rudder end connected to the rudder blade (100), wherein for storage of the rudder stock (140) has a bearing (150) in the inner longitudinal bore (125) of the rudder rod bearing (120) is arranged with its free end (120 b) in a recess, collection o. The like. (160) in the rudder blade (100) extends, wherein the rudder stock (140) in its end portion (140 b ) is led out of the rudder trunk bearing (120) with a portion (145) and connected to the end of this portion (145) with the rudder blade (100), wherein no bearing between the rudder blade (100) and the rudder trunk bearing (120) is provided and wherein the connection of the rudder stock (140) to the rudder blade (100) is above the propeller shaft center (200), wherein the bottom bearing (150) for bearing the rudder stock (140) is located in the rudder trunk bearing (120) in the end region of the rudder stocker (120) is. Rudder according to one of claims 1 or 2,
characterized,
in that the upper rudder blade section (10) of the rudder blade (100) has a cross-sectional profile (12) which differs from a.) extending from the front leading edge (11) to the rear end strip (30) and extending to a maximum profile thickness (13) conically widening front surface (14) and a1.) of a rear surface (15) adjoining the front surface (14) and conically tapering towards the rear end strip (30)
is formed, where a2) the two front surface sections (14a, 14b) formed by a center line (M1) extending in the longitudinal direction of the rudder blade (100) have different sizes, a3.) of which the larger surface portion (14a) is located on the port side, a4.) And the smaller surface portion (14b) is located starboard side, wherein a5.) The two of the center line (M1) in the rear region of the cross-sectional profile (12) formed surface portion (15a, 15b) are formed the same, and that the lower rudder blade portion (20) of the rudder blade (100) has a cross-sectional profile (22) which differs from b.) extending from the leading edge bar (21) to the rear end strip (30) and to a largest profile thickness (23) conically widening front surface (24) and b1.) of a to the front surface (24) adjoining and to the rear end bar (30) conically tapered rear surface (25) is formed, wherein b2) the two front surface sections (24a, 24b) formed by a center line (M2) extending in the longitudinal direction of the rudder blade (100) have different sizes, b3.) of which the larger surface (24b) is located on the starboard side and b4.) The smaller surface (24a) is located on the port side, wherein b5.) the two surface sections (25a, 25b) formed by the center line (M2) in the rear region of the cross-sectional profile (22) are of identical design, such that the nose strip (11) of the upper rudder blade section (10) facing the propeller (220) is located on the starboard side to the center line (M1) and the nose strip (21) of the lower rudder blade section (20) is on the starboard side to the center line (M2). Rudder blade according to one of claims 1 to 3,
characterized,
that the two propeller-side surface portions (14a, 14b) of the cross-sectional profile (12) of the upper rudder blade section (10) edge regions (16, 16a) with a flat curved course (16 ') and a vaulted curved course (16'a), whereby both the Propeller (220) abgekehrten surface portions (15a, 15b) of the cross-sectional profile (12) of the upper rudder blade section (10) tangentially extending edge regions (17, 17a), wherein the surface portion (14b) with the edge region (16a) with a curved arc (16 '; a) is located on the starboard side. Rudder blade according to one of claims 1 to 4,
characterized,
that the two propeller-side surface portions (24a, 24b) (26a 26) with a flat curved course (26 ') and a vaulted curved course (26'a), (20) have edge regions of the cross-sectional profile (22) of the lower rudder blade section, wherein the two the Propeller (220) abgekehrten surface portions (25a, 25b) of the cross-sectional profile (22) of the lower rudder blade portion (20) tangentially extending edge regions (27, 27a), wherein the surface portion (24b) in the edge region (26a) with a curved arc (26 ' a) is located on the port side.

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