KR20120050839A - Counter rotating azimuth propulsion divice and ship having the same - Google Patents

Abstract

PURPOSE: An azimuth counter rotating propulsion device and a ship having the same are provided to recover rotating energy of rotary current by arranging a pair of azimuth thrusters to be faced each other. CONSTITUTION: An azimuth counter rotating propulsion device comprises a turntable(12), a first strut(20), a second strut(30), a first pod(22), a second pod(32), a first propeller(24), and a second propeller(34). The turntable is rotatably coupled to the bottom of a hull. One end of the first strut is coupled to the bottom of the turntable. The second strut is located opposite to the first strut around a rotary shaft of the turntable. One end of the second strut is coupled to the bottom of the turntable. The first pod is coupled to the other end of the first strut. The second pod is coupled to the other end of the second strut. The first propeller is coupled to the first pod the second propeller is coupled to the second pod. The second propeller is arranged to face the first propeller and is rotated an opposite direction of the first propeller.

Description

Double inversion azimuth propulsion unit and vessel equipped with it {COUNTER ROTATING AZIMUTH PROPULSION DIVICE AND SHIP HAVING THE SAME}

The present invention relates to a double inverted azimuth propulsion apparatus and a ship provided with the same.

The ship moves forward with thrust created by the propeller on the bottom of the hull acting on the current. This propeller is a waste of rotation energy due to the rotation for generating a thrust.

 A counter-rotating propulsion system (CRP) has been introduced in which a pair of propellers rotating in opposite directions face each other as a concept of recovering kinetic energy in a rotational direction provided by a propeller to a fluid.

When applied to the Azimuth propulsion system, the propulsion efficiency is achieved through the recovery of the rotating energy of the discarded rotary flow as well as the advantages of the azimuth propulsion method which improves the stern linearity of the hull and the internal space utilization of the hull. There is an advantage to improve.

However, in the podded type propeller, one of the azimuth propulsion methods, the complexity of the space inside the pod due to the motor's placement in the narrow pod and the watertightness that prevents the inflow of sea water due to the motor's position under the water Etc. There are technical difficulties.

Therefore, while solving this problem, there is a need for an alternative that can improve propulsion efficiency through recovery of rotational energy of the rotary flow.

The present invention is to provide a double inverted azimuth propulsion apparatus and a ship having the same that can improve the propulsion efficiency by recovering the rotational energy of the rotary flow.

According to an aspect of the invention, the turntable (turntable) rotatably coupled to the bottom of the hull; A first strut having one end coupled to a bottom of the turntable; A second strut having one end coupled to a bottom surface of the turntable opposite to the first strut based on the rotation axis of the turntable; A first pod coupled to the other end of the first strut; A second pod coupled to the other end of the second strut; A first propeller coupled to the first pod portion; And a second propeller disposed opposite to the first propeller, rotating in a direction opposite to the first propeller, and coupled to the second pod.

In addition, the turntable may further include a turntable motor for providing a rotational force to the turntable.

In addition, a first motor for providing a rotational force to the first propeller; And a second motor providing a rotational force to the second propeller.

In addition, a first bevel gear interposed between the first propeller and the first motor to transmit the rotational force of the first motor to the first propeller; And a second bevel gear interposed between the second propeller and the second motor to transmit the rotational force of the second motor to the second propeller.

It may also include a duct surrounding the first propeller.

The duct may extend to surround the second propeller.

The apparatus may further include a first direction plate formed at a lower end of the second pod and a second strut to control the direction of the hull as the turntable rotates.

The first direction plate may be integrally formed with the second pod and the second strut.

The cross section formed by the second strut and the first direction plate may have an airfoil shape.

The apparatus may further include a second direction plate formed at a lower end of the first pod to steer the hull according to the rotation of the turntable.

The apparatus may further include a third direction plate interposed between the first strut and the second strut.

According to another aspect of the invention, the hull; A ship including the double inverted azimuth propulsion device rotatably coupled to the hull may be provided.

According to an embodiment of the present invention, by arranging a pair of azimuth thrusters facing each other, it is possible to recover the rotational energy of the rotational flow, and to rectify the rotational flow to improve the thrust of the propeller.

1 is a perspective view showing a double inverted azimuth propulsion device according to a first embodiment of the present invention.
Figure 2 is a side view showing a double inverted azimuth propulsion device according to a first embodiment of the present invention.
Figure 3 is a perspective view showing a modification of the gear portion of the double inverted azimuth propulsion device according to the first embodiment of the present invention.
Figure 4 is a perspective view showing a double inverted azimuth propulsion device according to a second embodiment of the present invention.
5 is a perspective view showing a double inversion azimuth propulsion device according to a third embodiment of the present invention.
6 is a view showing a vessel provided with a double inverted azimuth propulsion device according to an embodiment of the present invention.

BRIEF DESCRIPTION OF THE DRAWINGS The present invention is capable of various modifications and various embodiments, and specific embodiments are illustrated in the drawings and described in detail in the detailed description. It is to be understood, however, that the invention is not to be limited to the specific embodiments, but includes all modifications, equivalents, and alternatives falling within the spirit and scope of the invention. In the following description of the present invention, if it is determined that the detailed description of the related known technology may obscure the gist of the present invention, the detailed description thereof will be omitted.

Hereinafter, embodiments of a double inversion azimuth propulsion apparatus and a ship having the same according to the present invention will be described in detail with reference to the accompanying drawings, and in the following description with reference to the accompanying drawings, the same or corresponding components are the same drawings. The numbering and duplicate description thereof will be omitted.

1 is a perspective view showing a double inverted azimuth propulsion device according to a first embodiment of the present invention, Figure 2 is a side view showing a double inverted azimuth propulsion device according to a first embodiment of the present invention.

The double inverted azimuth propulsion apparatus 10 according to the first embodiment of the present invention includes a turntable 12 rotatably coupled to the bottom of the hull 1; A first strut 20 having one end coupled to a bottom surface of the turntable 12; A second strut 30 having one end coupled to a bottom surface of the turntable 12 so as to be positioned opposite to the first strut 20 with respect to the rotation axis of the turntable 12; A first pod 22 coupled to the other end of the first strut 20; A second pod 32 coupled to the other end of the second strut 30; A first propeller 24 coupled to the first pod 22; And a second propeller 34 disposed to face the first propeller 24, rotating in a direction opposite to the first propeller 24, and coupled to the second pod 32.

The double inverted azimuth propulsion apparatus 10 according to the present embodiment may be coupled to any portion of the bottom surface of the hull 1 for direction control and motion control of the hull 1, but in the present embodiment, the hull 1 It will be described taking as an example that is coupled to the stern of the.

As shown in FIGS. 1 and 2, the turntable 12 is a disk-shaped member rotatably coupled to the bottom of the hull 1, the first strut 20 coupled to the bottom of the turntable 12, and It serves to support the second strut 30 to be rotated 360 degrees with respect to the bottom of the hull 1 with respect to the axis of rotation of the turntable 12. To this end, a through hole 3 may be formed in the bottom of the hull 1 to insert the turntable 12.

The first strut 20 is a tube-shaped member that serves to support the first pod 22, and the first strut 20 is capable of transmitting power from the power engine of the hull 1 to the inside of the first strut 20. The drive shaft 27 may be located. Here, one end of the first strut 20 may be coupled to the bottom surface of the turntable 12.

The first pod 22 is a streamlined member coupled to the other end of the first strut 20 and supports the first propeller shaft 28 so that the first propeller shaft 28 to be described later is rotatable. A power transmission structure such as a propeller shaft 28 and a first bevel gear 29 to be described later can be accommodated. In addition, a first shaft hole (not shown) may be formed at one end of the first pod 22 to insert the first propeller shaft 28.

The first propeller shaft 28 is a rod-shaped shaft that transmits power of a power engine received through a power transmission structure such as the first bevel gear 29 to the first propeller 24 which will be described later. Passed out through a first shaft hole (not shown) formed in the pod 22 and coupled to the central axis of the first propeller 24, the other end may be rotatably supported in the first pod 22. have.

The first pod 22 may be streamlined to minimize the resistance of the water when the first pod 22 proceeds underwater by the rotation of the first propeller 24.

The first propeller 24 is a device for providing a thrust to the ship, is coupled to one end of the first propeller shaft 28, by changing the rotational force of the first propeller shaft 28 to the linear motion of the ship Play a role.

The second strut 30 is a tube-shaped member that serves to support the second pod 32, and a second strut 30 may transmit power from the power engine of the hull 1 to the inside of the second strut 30. The drive shaft 37 may be located. Here, one end of the second strut 30 may be coupled to the bottom surface of the turntable 12 such that the second strut 30 is located opposite to the first strut 20 based on the rotation axis of the turntable 12.

The second pod 32 is a streamlined member coupled to the other end of the second strut 30, and supports the second propeller shaft 38 so that the second propeller shaft 38, which will be described later, is rotatable. A power transmission structure such as a second propeller shaft 38 and a second bevel gear 39 to be described later can be accommodated. In addition, a second shaft hole (not shown) may be formed at one end of the second pod 32 to insert the second propeller shaft 38.

The second propeller shaft 38 is a rod-shaped shaft that transmits the power of the power engine received through the power transmission structure such as the second bevel gear 39 to the second propeller 34 to be described later, and one end thereof is the second shaft. Passing out through a second shaft hole (not shown) formed in the pod 32 is coupled to the central axis of the second propeller 34, the other end can be rotatably supported in the second pod 32 have.

The second pod 32 may be a member having a streamline like the first pod 22.

Similar to the first propeller 24, the second propeller 34 is a device that provides thrust to the ship, and serves to change the rotational force of the second propeller shaft 38 to the linear motion of the ship. The second propeller 34 is disposed so as to face the first propeller 24, that is, the second propeller 34 is located opposite to the first propeller 24 with respect to the rotation axis of the turntable 12. It may be coupled to one end of the propeller shaft 38.

At this time, the second propeller 34 is rotated in a direction opposite to each other with the first propeller 24 to form a double inversion propulsion system. That is, by arranging the first propeller 24 and the second propeller 34 to face each other and rotating the respective propellers in opposite directions, the first propeller 24 generated by the first propeller 24 during operation of the hull 1 The rotational energy of the rotational flow can be recovered, and the loss of thrust can be minimized by rectifying the irregular flow of the fluid due to the rotational flow.

The double inverted azimuth propulsion apparatus 10 according to the present embodiment may further include a turntable motor 16 that provides a rotational force to the turntable 12.

The turntable motor 16 may serve not only to provide rotational force to the turntable 12 but also to steer the ship in a desired direction through 360 degree rotation of the turntable 12. In this case, the turntable motor 16 may be fixedly installed in the hull 1.

The turntable motor 16 may transmit the rotational force of the turntable motor 16 to the turntable 12 via the gear portion 14. That is, the turntable motor 16 is formed by forming the first gear 14a on the rotational shaft of the turntable 12 and forming the second gear 14b engaged with the first gear 14a on the rotational shaft of the turntable motor 16. The rotational force of) may be transmitted to the turntable 12.

In addition, the number, dimensions, arrangement and shape of the gear 14 may be variously modified according to design conditions without being limited to that shown in FIG. 1.

Here, each of the first gear 14a and the second gear 14b may be a spur gear. In addition, a helical gear may be used for each of the first gear 14a and the second gear 14b.

3 is a perspective view showing a modification of the gear unit 14 of the double inverted azimuth propulsion apparatus 10 according to the first embodiment of the present invention.

In the present embodiment, the first gear 14a and the second gear 14b are described as externally operating as an example. In addition, as shown in FIG. 3, the first gear 14a is an inner circumferential surface of the turntable 12. And the second gear 14b may be engaged to inscribe the first gear 14a. In addition, various methods may be possible.

The turntable motor 16 may receive electric power from a generator 6 generated by a power engine 4 such as a gas turbine, a diesel engine, etc., which is fixedly installed in the hull 1.

On the other hand, the double inverted azimuth propulsion device 10 according to the present embodiment, the first motor 26 for providing a rotational force to the first propeller 24; And a second motor 36 providing a rotational force to the second propeller 34.

For reference, in the present embodiment, by using a motor powered by electricity, synchronization of rotation of each propeller 24 and 34 is easier and more precise control is possible than that of a propeller mounted and rotating in a diesel engine. Do.

The first motor 26 serves to provide rotational force to the first propeller 24 and may be fixedly installed on the turntable 12.

In order to provide rotational force to the first propeller 24, the rotation shaft of the first motor 26 may be coupled to one end of the first drive shaft 27.

Like the first motor 26, the second motor 36 serves to provide rotational force to the second propeller 34 and may be fixedly installed on the turntable 12.

In order to provide rotational force to the second propeller 34, the rotation shaft of the second motor 36 may be coupled to one end of the second drive shaft 37.

Like the turntable motor 16, the first motor 26 and the second motor 36 may receive electric power from a generator 6 generated by a power engine 4 such as a gas turbine, a diesel engine, or the like. .

The double inversion azimuth propulsion apparatus 10 according to the present embodiment is interposed between the first propeller 24 and the first motor 26 to transmit the rotational force of the first motor 26 to the first propeller 24. A first bevel gear 29; And a second bevel gear 39 interposed between the second propeller 34 and the second motor 36 to transmit the rotational force of the second motor 36 to the second propeller 34.

The first bevel gear 29 is a pair of bevel gears, each of which transmits motion between two axes in a conical shape, and is coupled to and disposed between the first propeller 24 and the first motor 26. That is, one of the pair of first bevel gears 29 is coupled to the other end of the first drive shaft 27 and the other is coupled to the other end of the first propeller shaft 28, thereby providing a first motor 26. The rotational force of) is transmitted to the first propeller 24.

Similarly, the second bevel gear 39 is also a pair of bevel gears that transmit motion between two axes in a conical shape, respectively, and are coupled to and disposed between the second propeller 34 and the second motor 36. That is, one of the pair of second bevel gears 39 is coupled to the other end of the second drive shaft 37 and the other is coupled to the other end of the second propeller shaft 38, thereby providing a second motor 36. The rotational force of) will be transmitted to the second propeller 34.

Each of the first bevel gear 29 and the second bevel gear 39 may be a spiral bevel gear in order to reduce vibration generated when rotating at high speed.

The double inverted azimuth propulsion apparatus 10 according to the present embodiment has been described with an example in which each of the first motor 26 and the second motor 36 is installed on the turntable 12, but is not limited thereto. For example, a driving unit (not shown) may be installed in the first pod 22 and the second pod 32.

On the other hand, the double inverted azimuth propulsion apparatus 10 according to the present embodiment may further include a duct 40 surrounding the first propeller 24.

The duct 40 is a tube-shaped device for guiding the flow of water according to the traveling direction of the ship, which can be fixedly coupled to the first strut 20 and configured to surround the first propeller 24. That is, the upper end of the duct 40 having a tube shape may be fixedly coupled to the surface of the first strut 20 by welding or the like. In addition, as shown in FIG. 1, the coupling member 60 is disposed between the lower end of the duct 40 and the lower end of the first pod 22, thereby connecting the duct 40 to the lower end of the first pod 22. I can support it.

For reference, because the additional thrust generated in the duct 40 when the ship is operating or anchored at a slow speed, the eyepiece performance, the steering performance, the dynamic positioning performance is excellent, The same duct 40 may be utilized for a special marine vessel such as Floating Production Storage and Offloading (FPSO), a drillship, an icebreaker, and the like.

On the other hand, as shown in Figure 1, the double inverted azimuth propulsion apparatus 10 according to the present embodiment, the lower end of the second pod 32 to control the direction of the hull 1 in accordance with the rotation of the turntable 12 And a first direction plate 50 formed on the second strut 30.

Like the rudder, the first direction plate 50 may be formed on the surface of the second strut 30 and the bottom of the second pod 32 as a steering device for controlling a ship. Here, the size or shape of the first direction plate 50 may be various in addition to that shown in FIG.

The first direction plate 50 may be formed in such a manner as to be coupled to the surface of the second strut 30 and the lower end of the second pod 32 by welding or the like. In addition, the first direction plate 50, the second strut 30, and the second pod 32 may be integrally formed with each other.

In this case, a cross section formed by the second strut 30 and the first direction plate 50 may have an airfoil shape.

4 is a perspective view showing a double inversion azimuth propulsion device according to a second embodiment of the present invention.

In the present embodiment, the configuration and operation of the double inversion azimuth propulsion apparatus 10 except for the first direction plate 50, the second direction plate 52, and the third direction plate 54 are different from those of the above-described embodiment. Since it is the same or corresponding, a description thereof will be omitted.

As shown in FIG. 4, the double inverted azimuth propulsion apparatus 10 according to the present embodiment is disposed at the lower end of the first pod 22 to steer the hull 1 in accordance with the rotation of the turntable 12. It may further include a second direction plate 52 is formed.

In the present embodiment, in order to improve the turning capability of the hull 1, the lifting force is increased by forming the second direction plate 52 in addition to the steering area of the first direction plate 50 according to the above-described embodiment. Can be increased. That is, unlike the first direction plate 50 according to the above-described embodiment, by increasing the steering area of the first direction plate 50 and the second direction plate 52 may generate additional inertia, that is, lifting force.

In addition, although not shown, in the present embodiment, the second direction plate 52 is formed not only on the lower end of the first pod 22 but also on the surface of the first strut 20, thereby forming the second direction plate 52. It is possible to increase the steering area and consequently to increase the lifting force to turn the hull 1 in the desired direction.

In addition, the double inverted azimuth propulsion apparatus 10 according to the present embodiment may further include a third direction plate 54 interposed between the first strut 20 and the second strut 30. . That is, the third direction plate 54 may be further formed between the first strut 20 and the second strut 30 in order to increase the lift area to increase lift.

The first direction plate 50, the second direction plate 52 and the third direction plate 54, in addition to the function of increasing the lift force by increasing the steering area during the change of direction, the rotational flow while the hull 1 is going straight It is possible to minimize the loss of thrust by rectifying the flow of the irregular fluid by the flow, that is, more uniformly.

As described above, the double inverted azimuth propulsion apparatus 10 according to the embodiment of the present invention may recover the rotational energy of the rotational flow by arranging a pair of azimuth thrusters to face each other, and rectify the rotational flow by The thrust of the propeller can be improved.

5 is a perspective view showing a double inversion azimuth propulsion apparatus 10 according to a third embodiment of the present invention.

In the present embodiment, since the configuration and operation of the double inverted azimuth propulsion apparatus 10 except for the duct 40 is the same as or corresponding to the above-described embodiment, a description thereof will be omitted.

As shown in FIG. 5, the duct 40 according to the present embodiment may extend to surround the second propeller 34. As such, by extending the duct 40 to surround not only the first propeller 24 but also the second propeller 34, the driving force of the first propeller 24 can be improved, and at the same time into the duct 40. The thrust efficiency can be increased by preventing the streamline flow of the incoming fluid from flowing out of the rotation outer diameter of the second propeller 34.

In the above described with respect to the double inverted azimuth propulsion apparatus 10 according to an aspect of the present invention, hereinafter to the ship 100 according to another aspect of the present invention including the double inverted azimuth propulsion apparatus 10. To explain.

6 is a view showing a vessel 100 having a double inverted azimuth propulsion apparatus 10 according to an embodiment of the present invention.

Ship 100 according to an embodiment of the present invention, the hull (1); A turntable 12 rotatably coupled to the bottom of the hull 1; A first strut 20 having one end coupled to a bottom surface of the turntable 12; A second strut 30 having one end coupled to a bottom surface of the turntable 12 so as to be positioned opposite to the first strut 20 with respect to the rotation axis of the turntable 12; A first pod 22 coupled to the other end of the first strut 20; A second pod 32 coupled to the other end of the second strut 30; A first propeller 24 coupled to the first pod 22; And a second propeller 34 disposed to face the first propeller 24, rotating in a direction opposite to the first propeller 24, and coupled to the second pod 32.

In the present embodiment, since the configuration and operation of the double inverted azimuth propulsion apparatus 10 is the same as or corresponding to the above-described embodiment, a description thereof will be omitted.

As described above, the vessel 100 according to the present embodiment may be disposed to face a pair of azimuth thrusters to recover the rotational energy of the rotational flow, and the thrust of the propeller may be improved by rectifying the rotational flow. have.

Although the above has been described with reference to embodiments of the present invention, those skilled in the art may variously modify the present invention without departing from the spirit and scope of the present invention as set forth in the claims below. And can be changed.

Many embodiments other than the above-described embodiments are within the scope of the claims of the present invention.

1: hull 10: double inversion azimus propulsion device
12 turntable 14 gear
16: turntable motor 20: first strut
22: first pod 24: first propeller
26: first motor 27: first drive shaft
28: first propeller shaft 29: first bevel gear
30: second strut 32: second pod
34: second propeller 36: second motor
37: second drive shaft 38: second propeller shaft
39: second bevel gear 40: duct
50: first direction plate 52: second direction plate
54: third direction plate 60: coupling member
100: ship

Claims (12)

A turntable rotatably coupled to the bottom of the hull;
A first strut having one end coupled to a bottom of the turntable;
A second strut whose one end is coupled to a bottom surface of the turntable so as to be positioned opposite to the first strut with respect to the rotation axis of the turntable;
A first pod coupled to the other end of the first strut;
A second pod coupled to the other end of the second strut;
A first propeller coupled to the first pod; And
And a second propeller disposed opposite to the first propeller, rotating in a direction opposite to the first propeller, and coupled to the second pod.
The method of claim 1,
And a turntable motor for providing rotational force to the turntable.
The method of claim 1,
A first motor providing a rotational force to the first propeller; And
Double inverting azimuth propulsion device further comprising a second motor for providing a rotational force to the second propeller.
The method of claim 3,
A first bevel gear interposed between the first propeller and the first motor to transmit a rotational force of the first motor to the first propeller; And
And a second bevel gear interposed between the second propeller and the second motor to transmit the rotational force of the second motor to the second propeller.
The method of claim 1,
The double inverted azimuth propulsion device further comprising a duct surrounding the first propeller.
The method of claim 5,
The duct,
Double inverting azimuth propulsion device, characterized in that extending to surround the second propeller.
The method of claim 1,
And a first direction plate formed on the bottom of the second pod and the second strut to steer the hull in accordance with the rotation of the turntable.
The method of claim 7, wherein
The first direction plate,
Double inverting azimuth propulsion device, characterized in that formed integrally with the second pod and the second strut.
The method of claim 7, wherein
The cross-section formed by the second strut and the first direction plate is a double inverted azimuth propulsion device, characterized in that the airfoil (airfoil) shape.
The method of claim 7, wherein
And a second direction plate formed at a lower end of the first pod to steer the hull in accordance with the rotation of the turntable.
The method of claim 7, wherein
And a third direction plate interposed between the first strut and the second strut.
Hulls;
A ship comprising a double reversal azimuth propulsion device according to any one of claims 1 to 11 rotatably coupled to the bottom of the hull.

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