KR20190023239A - Water breaker device for moonpool guide array - Google Patents

Abstract

The present invention relates to a device for decreasing wave power of a guide array installed on a moon pool, including: a guide array (20) formed in a lattice structure using a vertical member (21) and a horizontal member (25) and rotationally installed on a moon pool (10); and a wave power decreasing board (30) fixed to a transfer path of the wave power in the guide array (20). Accordingly, the device reduces the space in a state of lifting the guide array while minimizing structural change or size increase of the moon pool, thereby preventing breakage by reducing the shear flow applied in a vertical direction.

Description

[0001] The present invention relates to a water breaker device for a moonpool guide array,

The present invention relates to a layout guide array, and more particularly, to a damper mechanism of a layout guide array installed in a passage for sending drilling equipment and materials to the sea floor in a ship or an offshore structure.

In a ship or an offshore structure, a joint type door pool penetrating in a vertical direction is formed, and a guide array is mounted on the waterline on the lower side of the door. The guide array is a structure that increases the speed of movement by reducing the resistance of algae by the structure of the portal during drill slip transportation. The guide array is provided with a lifting mechanism for lifting purposes and a mechanism for lifting the lifting mechanism (see Fig. 1).

The current problem is that the guide array is fixed to the hull, and when the ship moves, the seawater flows excessively in the vertical direction between the doorpaths, causing excessive shearing force to the fixing device located near the waterline surface, and the damage is likely to occur.

As a prior art document relating to a preparation for this, reference may be made to Korean Patent Laid-Open Publication No. 2017-0001616 (Prior Art 1), Korean Patent Registration No. 1732353 (Prior Art 2), and the like.

The prior art document 1 includes a sliding guider which is provided so as to be able to move in and out of the gateway side from the guider access room and a sliding folder which is hinged to the sliding guider and rotatable about the hinge axis, The shape of the door is small and light, and the effect of facilitating operation and installation is expected.

The prior art document 2 includes a damping member protruding inwardly from the bottom of the offshore structure to divide the inside of the interior space into a first space and a second space and including a damping member coupled to both sides of the doorpane, A third space is formed in which seawater flowing in from the space is offset from each other. Therefore, it is anticipated that the equipment installed in the vicinity of the door can be prevented from failing due to the impact pressure of seawater.

However, according to the prior art, the door pool is structurally complicated or outwardly enlarged, and is somewhat insufficient to fundamentally prevent damage to the guide array due to seawater impact.

Korean Patent Laid-Open Publication No. 2017-0001616 entitled "Foldable guide array of a door frame" Korean Patent Registration No. 1732353 entitled "Fluid Damping Structure in a Finishing Pile" (Published on Jan. 201, 2017).

SUMMARY OF THE INVENTION It is an object of the present invention to solve the above-mentioned problems in the prior art, and to provide a method of reducing the size of a door frame, And to provide a detent mechanism of the guide array.

In order to attain the above object, the present invention provides a mechanism for damping the wave power of a guide array installed in a doorpane, comprising: a guide array formed in a lattice structure using a longitudinal member and a transverse member, And a wave attenuation plate fixed to the transmission path of the wave in the guide array.

As a first embodiment of the present invention, the wave attenuating plate is fixed at a position connected to an inclined portion at the upper end of the transverse member.

According to a second aspect of the present invention, the wave attenuating plate is fixed at a position corresponding to the lower end of the transverse member to maintain the gap.

As a modification of the present invention, the wave damping plate may further include variable means capable of rotating around the hinge portion in correspondence with the wave power.

In this case, the variable means includes a stopper installed to limit a rotation range of the wave-attenuating plate, and a torsion spring mounted on the hinge to convert the wave force into an elastic force.

As described above, according to the present invention, there is an effect that the space is reduced in a state in which the guide array is lifted while minimizing the structural change and size increase of the door frame, thereby preventing breakage by reducing the shear flow acting in the vertical direction.

1 is a schematic view showing a guide array installed in a conventional door frame;
2 is a schematic view showing a guide array installed in a door frame according to the present invention;
3 is a schematic diagram showing a guide array according to a modification of the present invention.
Fig. 4 is a schematic diagram showing a comparison between the conventional state and the operating state of the present invention

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

The present invention proposes a mechanism for attenuating the wave power of a guide array installed in a door frame. Although the wave power may be attenuated through the improvement of the door frame 10 as in the above-mentioned prior art documents, it is relatively advantageous to improve the guide array because it is structurally complicated or increases in size.

According to the present invention, a guide array 20 rotatably mounted on the door frame 10 is formed in a lattice structure using a longitudinal member 21 and a transverse member 25. The longitudinal member 21 is formed of an iron plate in the form of a band without bending, and the transverse member 25 is formed of a bent iron plate having an inclined portion 26 on one side. Since the longitudinal member 21 and the hinge portion 22 intersect with each other in a lattice structure, they have a plurality of through holes through which seawater flows in and out. A hinge portion 22 is provided at one end of the longitudinal member 21 and a lock portion 23 is provided at the other end to be coupled to the door frame 10.

When the guide array 20 is pivoted about the hinge portion 22, the guide array 20 is not in intimate contact with the wall surface of the door frame 10, but a clearance is formed. Therefore, the strong arcing force ) Function periodically. This causes breakage of the lock portion 23 and the like as shown in Fig. 4A.

According to the present invention, the wave attenuation plate 30 is fixed to the transmission path of the wave power in the guide array 20. The wave damping plate 30 is installed in the path of the sea water by the gap formed by the guide array 20 standing on the wall surface of the door 10. [ It is preferable that the wave damping plate 30 is fixed to the guide array 20 rather than the door frame 10, but the wave damping plate 30 may be constructed in a mixed manner.

The wave damping plate 30 is fixed at a position connected to the inclined portion 26 at the upper end of the transverse member 25 as a first embodiment of the present invention. 2A, the wave damping plate 30 is disposed at the same height as the upper end of the transverse member 25, assuming that the guide array 20 is pivoted about the hinge 22. As shown in Fig. In this case, the wave damping plate 30 is connected at the same height as the upper end of the inclined portion 26 of the transverse member 25 without any gap. The wave damping plate 30 and the inclined portion 26 can be formed of a single iron plate. This is advantageous for application to the relatively small size web 10, but is not limited thereto.

In the second embodiment of the present invention, the wave damping plate (30) is fixed at a position corresponding to the lower end of the transverse member (25) to maintain a clearance therebetween. 2B, when the guide array 20 is assumed to be rotated around the hinge 22, the wave damping plate 30 is formed at the same height as the lower end of the transverse member 25, Respectively. Since the wave damping force is increased by the clearance between the guide array 20 and the transverse member 25, it is advantageous for the size of the door frame 10 which is larger than that of FIG.

At this time, in any of the above embodiments, the baffle damping plate 30 may be formed in an arcuate shape maintaining a height at the center from both ends.

On the other hand, the specifications of the plurality of wave damping plates 30 arranged in the guide array 20 need not always be the same and can be applied differently over the upper and lower portions. For example, the height and thickness of the wave damping plate 30 are increased toward the lower end close to the hinge portion 22, and the height and thickness are decreased as the distance to the upper end is increased.

As a modification of the present invention, the wave damping plate (30) further comprises variable means capable of rotating around the hinge (42) corresponding to the wave power. 3 illustrates a state in which the wave damping plate 30 is rotated about the hinge portion 42 as indicated by reference numeral 30 '. The variable means can be selectively applied to at least a part of the wave damping plate (30) arranged in the guide array (20), in particular, the wave damping plate (30) at the lower end.

The variable means includes a stopper 44 provided to limit the rotation range of the wave damping plate 30 and a torsion spring 46 mounted on the hinge portion 42 so as to convert the wave force into an elastic force. . The stopper 44 is fixed to the guide array 20 to limit the rising and falling range of the wave attenuation plate 30. [ The torsion spring 46 buffers by the elastic force in the process of the upward rotation of the wave damping plate 30 by the wave force.

As shown in FIGS. 1B and 4A, when the shear flow in the vertical direction by the seawater 12 flowing in the grid structure of the guide array 20 in the conventional case progresses at a speed equal to or higher than a predetermined speed, Acting as shear force 15. On the other hand, as shown in FIG. 4B, the wave attenuating plate 30 of the guide array 20 attenuates the waves of the shear flow, thereby enhancing the durability of the lock portions 23 and the like.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit and scope of the invention. It is therefore intended that such variations and modifications fall within the scope of the appended claims.

10: Sphere 12: Seawater
15: shear force 20: guide array
21: longitudinal member 22: hinge portion
23: lock portion 25: lateral member
26: inclined portion 30: wave attenuation plate
Variable means 42:
44: stopper 46: torsion spring

Claims (5)

A mechanism for damping the wave power of a guide array installed in a door frame, comprising:
A guide array 20 formed in a lattice structure using the longitudinal member 21 and the transverse member 25 and rotatably installed on the door frame 10; And
And a wave damping plate (30) fixed to the transmission path of the wave in the guide array (20). The method according to claim 1,
Wherein the wave damping plate (30) is fixed at a position connected to the inclined portion (26) at the upper end of the transverse member (25). The method according to claim 1,
Wherein the wave damping plate (30) is fixed at a position corresponding to a lower end of the transverse member (25) to maintain a clearance therebetween. The method according to claim 1,
Wherein the wave damping plate (30) further comprises variable means capable of rotating around the hinge (42) in response to the wave power. The method of claim 4,
Wherein the variable means comprises a stopper (44) provided so as to limit a rotation range of the wave damping plate (30), and a torsion spring (46) mounted on the hinge portion (42) so as to convert the wave force into an elastic force Detector of the guide array.

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