KR20200002420A - Ship mooring apparatus - Google Patents

Abstract

Disclosed is a hull mooring apparatus. The hull mooring apparatus includes: a mooring pile mooring a hull and fixed to the seabed; a slider installed along a longitudinal direction of the mooring pile so as to be lifted and lowered; and a hull support unit rotationally protruding from a side surface of the slider to support the hull.

Description

Hull mooring device {SHIP MOORING APPARATUS}

The present invention relates to a hull mooring device capable of supporting the dispersion of force during mooring.

In general, the mooring of hulls suspended at sea is secured using piles to minimize the shaking of the ship due to sea flow or other external factors.

That is, in order to prevent rocking of the hull, piles for mooring may be installed at the position of the hull portion and the stern portion of the hull, respectively, to prevent occurrence of rocking of the hull.

Here, the mooring pile and the hull are connected in the horizontal direction by the connecting means, the hull is fixed to prevent the swing while the position of the bow portion and the stern portion is connected to the mooring pile.

However, in the process of mooring the hull to the mooring pile, the mooring load is directly transmitted as a lateral load to the mooring pile, so that a large bending moment occurs in the mooring pile, which makes it difficult to support the stable hull.

One embodiment of the present invention, to provide a hull mooring device capable of distributing the force for the support of the hull during the mooring of the hull.

One embodiment of the present invention, the mooring the mooring the hull and fixed to the sea bottom, a slider that is rotatably projected to the side of the slider and the slider which is installed to be raised or lowered along the longitudinal direction of the mooring supporting the hull It includes a hull support.

The hull support may include a rotary support having one end connected to the side of the hull and a bottom support connected to the other end of the rotary support and rotated together with the end supported at the bottom of the hull.

The slider may be provided with a buoyancy body that is raised or lowered along the mooring pile.

The buoyancy body may be connected by the hull and the guide line.

It may further include an elastic portion provided between the hull support and the hull.

The elastic part may include an elastic spring installed on the bottom support part and a support plate provided on an upper side of the elastic spring.

The slider may further include a stopper protrusion.

The stopper projection may project toward the mooring pile by the rotation of the hull support to limit the movement of the slider.

According to one embodiment of the present invention, the hull can be stably moored to the side of the mooring pile while being supported by the hull support rotatably installed in the mooring operation.

According to one embodiment of the invention, the force acting in the mooring process of the hull can be distributed in the vertical direction and the horizontal direction of the mooring pile, it is possible to support a more stable hull.

1 is a side view schematically showing a hull mooring state using a hull mooring apparatus according to an embodiment of the present invention.
FIG. 2 is a diagram schematically illustrating a state in which the hull mooring apparatus of FIG. 1 is installed in a mooring pile. FIG.
FIG. 3 is a diagram schematically illustrating a state in which a hull is seated in a state in which the hull mooring apparatus of FIG. 2 is installed in a mooring pile.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art may easily implement the present invention. As those skilled in the art would realize, the described embodiments may be modified in various different ways, all without departing from the spirit or scope of the present invention. In the drawings, parts irrelevant to the description are omitted in order to clearly describe the present invention, and like reference numerals designate like elements throughout the specification.

1 is a side view schematically showing a hull mooring state using a hull mooring apparatus according to an embodiment of the present invention, Figure 2 is a main view schematically showing a state in which the hull mooring apparatus of Figure 1 installed in a mooring pile FIG. 3 is a schematic view illustrating a state in which a hull is seated in a state in which the hull mooring apparatus of FIG. 2 is installed in a mooring pile.

1 to 3, the hull mooring apparatus 100 according to an embodiment of the present invention, the mooring pile 10 and the mooring pile 10 is fixed to the sea bottom while mooring the hull 11 Slider 20 is installed to be raised or lowered along the longitudinal direction of the), the rotatable support 51 rotatably protrudes on the side of the slider 20 and connected to the side of the hull 11, the slider 20 It includes a hull support portion 50 protruding rotatably on the side of the support for supporting the hull (11).

The mooring pile 10 is installed to moor the hull 11 to the sea bottom. The mooring pile 10 may be installed to be spaced apart from each other with the hull 11 therebetween. These mooring piles 10 may be provided to fix the hull at the bow and stern positions of the hull 11 with the hull 11 interposed therebetween.

The mooring file 10 may be provided with a slider 20.

The slider 20 may be installed to be raised or lowered along the longitudinal direction of the mooring pile 10.

The slider 20 may be installed to be capable of raising or lowering along the longitudinal direction of the mooring pile 10 installed at positions adjacent to the stern portion and the bow portion of the hull 11. The slider 20 is connected to the hull 11, the hull 11 can be raised or lowered in conjunction with the floating or descending floating on the sea surface.

The slider 20 may be provided with a buoyancy body 30 to float on the sea surface.

The buoyancy body 30 may be provided above the slider 20, and may give a buoyancy force so that the slider 20 can be easily raised or lowered according to the rising or falling of the sea surface.

The buoyancy body 30 may be connected to the hull 11 by the guide line 40.

The guide line 40 may have one side connected to the slider 20 and the other side connected to the side of the hull 11. The guide line 40 may be installed as an elastic wire between the buoyancy body 30 and the hull 11. Hereinafter, the guide line and the elastic wire use the same reference numerals.

 The elastic wire 40 may be installed in a collapsible state between the buoyancy body 30 and the hull 11.

Therefore, the elastic wire 40 connects the buoyancy body 30 and the hull 11 in a folded state when the buoyancy body 30 and the hull 11 are close to each other, the buoyancy body 30 and the hull 11 When the spaced apart) may be connected to the buoyancy body 30 and the hull 11 in an unfolded state.

The elastic wire 40 is exemplarily described as being connected between the buoyancy body 30 and the hull 11 as one. However, the elastic wire 40 is not necessarily limited to being provided as one between the buoyancy body 30 and the hull 11, it is also possible to be appropriately modified and applied to at least two or more.

On the other hand, the slider 20 may be connected to the side of the hull 11 by the hull support 50 by the hull support 50.

The hull support part 50 may include a rotation support part 51 provided on the slider 20 and a bottom support part 53 which rotates together with the rotation support part 51.

The rotation support part 51 may be rotatably installed in the state protruding in the direction of the hull 11 from the side of the slider 20.

The protruding end of the rotary support 51 may be rotatably connected to the side of the hull (11). Therefore, when the hull 11 approaches the mooring pile 10, the rotary support 51 rotates in the first direction in the direction of the mooring pile 10, and the hull 11 moves away from the mooring pile 10. When spaced apart, it may be rotated in a second direction opposite to the first direction.

The bottom support part 53 may be connected to the rotation support part 51.

The bottom support part 53 is connected to the bottom surface of the hull 11 and is connected to the rotation support part 51 to be rotated together.

The bottom support part 53 may be connected to one end of the bottom support part 53, and the other end may protrude outward of the slider 20, and the end may protrude in the bottom direction of the hull 11.

Accordingly, the bottom support 53 can be rotated with the rotation of the rotary support 51 in accordance with the position in which the hull 11 approaches the mooring pile 10.

An elastic part 55 may be installed on the bottom support part 53.

The elastic part 55 may be installed on an upper side of the bottom support part 53 to prevent contact damage from being generated in contact with the bottom of the hull 11.

The elastic part 55 may include an elastic spring 55a provided on the bottom support part 53 and a support plate 55b provided on an upper side of the elastic spring 55a.

The elastic spring 55a is installed to protrude above the bottom support 53 and may be installed to prevent contact damage during rotation of the bottom support 53 during the rotation operation of the hull support 50. have.

The support plate 55b may be installed above the elastic spring 55a.

The support plate 55b is formed in a flat surface, and the surface of the support plate 55b is in surface contact with the bottom surface of the hull 11 during the rotation operation of the hull support part 50, thereby achieving stable support operation.

Meanwhile, a stopper protrusion 57 selectively inserted into the mooring pile 10 may protrude from the slider 20.

Referring again to FIGS. 2 and 3, the stopper protrusion 57 may be slidably installed to be selectively inserted into the mooring pile 10 while protruding from the surface of the slider 20. That is, the stopper protrusion 57 may protrude toward the mooring pile 10 by the rotation of the hull support 50 to limit the movement of the slider 20.

The stopper protrusion 57 may be slid by being pressed against the outer surface of the rotary support 51 during the rotation operation of the rotary support 51.

More specifically, when the hull 11 is moved in the direction of the mooring pile 10 and seated on the hull support 50, the rotational support 51 constituting the hull support 50 moves in the direction of the mooring pile 10. Can be rotated.

Accordingly, the stopper protrusion 57 may be inserted into the mooring pile 10 when the stopper protrusion 57 is pressed against the outer surface of the rotary support 51 during the rotation of the rotary support 51. To this end, an insertion hole into which the stopper protrusion 57 is inserted may be formed on the surface of the mooring pile 10.

As such, the stopper protrusion 57 may be inserted into the mooring pile 10 in the process of mounting the hull 11 on the hull support part 50. Accordingly, the slider 20 can be stably fixed to the mooring pile 10, so that the hull 11 can perform the mooring operation stably in the fixed position on the side of the mooring pile 10.

As described above, the hull mooring apparatus 100 of the present embodiment is stable on the side of the mooring pile 10 in a state supported by the hull support portion 50 rotatably installed in the mooring operation of the hull 11. Can be moored.

Therefore, the force acting in the mooring process of the hull 11 can be distributed in the vertical direction and the horizontal direction of the mooring pile 10, so that the more stable hull 11 can be supported.

Although the preferred embodiments of the present invention have been described above, the present invention is not limited thereto, and various modifications and changes can be made within the scope of the claims and the detailed description of the invention and the accompanying drawings. Naturally, it belongs to the range of.

10 ... Mooring Files 20 ... Slider
30 ... buoyant body 40 ... guidelines, elastic wire
50 Hull support 51 Rotating support
53.Bottom support 55.Elastic part
55a.elastic spring 55b.support plate

Claims (6)

Mooring piles mooring the hull and fixed to the sea floor;
A slider which is installed to be raised or lowered along the longitudinal direction of the mooring pile; And
A hull support part rotatably protruding from a side of the slider to support the hull;
The hull support portion,
And a bottom support portion having one end connected to the side of the hull and a bottom support portion connected to the other end of the rotation support and rotated together with the end supported on the bottom of the hull. The method of claim 1,
The slider is a hull mooring device is provided with a buoyancy body that is raised or lowered along the mooring pile. The method of claim 1,
The buoyancy body is hull mooring device is connected by the hull and the guide line. The method of claim 1,
The hull mooring device further comprises an elastic portion provided between the hull support and the hull. The method of claim 4, wherein
The elastic portion,
An elastic spring installed on the bottom support; And
Hull mooring device including a support plate installed on the upper side of the elastic spring. The method of claim 1,
The slider further includes a stopper protrusion,
The stopper protrusion is a hull mooring device protruding toward the mooring pile by the rotation of the hull support portion to limit the movement of the slider.

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