JP4220759B2 - Floating body fluctuation reducing device and floating body provided with the same - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a floating body sway reduction device and a floating body for reducing swaying due to incident waves in a floating structure applied as a floating pier, floating warehouse, floating parking lot, work ship, oil production platform, etc. .
[0002]
[Prior art]
When installing floating piers, floating parking lots, etc. on the water, or when carrying out various work by stopping work vessels, these floating structures such as floating piers, floating parking lots, work vessels, etc. Since it is upset, it is necessary to reduce this upset.
Various wave-dissipating devices have been proposed as devices for reducing the fluctuation of the floating structure, but the applicant has already proposed in Patent Document 1 and Patent Document 2 below. In the floating body sway reduction device described in Patent Document 1, a vertical plate that penetrates the water surface is provided on the wave upper side of the floating body to reduce the swing of the floating body. Moreover, in the wave-resistant large floating body described in Patent Document 2, wave-dissipating structures having different shapes of L shape and inverted L shape are alternately arranged in the width direction on the wave upper side of the large floating body, and the floating body is shaken. I try to reduce it.
[0003]
[Patent Document 1]
Japanese Patent Application No. 10-328019 [Patent Document 2]
Japanese Patent Application No. 2000-12790 [0004]
[Problems to be solved by the invention]
However, although the above-described floating body sway reduction device can employ the respective structures to significantly reduce the sway of the floating body, it has the following problems. That is,
(1) In the case of a floating body that moves like a ship or a work ship, or in a floating body that is towed to the site, the added sway reduction device becomes a fluid resistance, which hinders movement.
(2) The vibration reduction device preferably has a shape corresponding to the wave condition of the sea area where the floating body is installed. However, in the case of a floating body that moves like a ship or a work ship, the vibration reduction device Since the conditions are different, it is difficult to sufficiently exert the effect of the fluctuation reducing device.
[0005]
This invention is made | formed in view of the said situation, (1) It does not become a hindrance at the time of movement of a floating body, (2) It can respond flexibly to different wave conditions, The floating body sway reduction device For the purpose of provision.
[0006]
[Means for Solving the Problems]
The present invention employs the following means in order to solve the above problems.
That is, the floating body vibration reduction device according to claim 1 is provided in a floating body vibration reduction device provided on a side of the floating body main body floating on the water, between the vibration reduction device and the floating body main body, An attachment / detachment unit that fixes or separates the relative position between them is provided, and the vibration reduction device includes a small floating body having a floating chamber sealed inside, and a vertical that is supported so as to be submerged under the small floating body. A board or a horizontal board is provided.
According to the floating body sway reduction device of the first aspect of the present invention, (1) when the floating body body is moved, the sway reduction device is separated in advance at the attaching / detaching portion and then moved to reduce the water resistance. Thus, the power required to move the floating body can be reduced. And after a floating body main body arrives at a moving destination, a rocking | fluctuation of a floating body by a wave can be reduced now by attaching a vibration reduction apparatus via an attachment / detachment part. In addition, (2) for example, by providing a plurality of vibration reduction devices of different shapes, selecting the optimal one from these, and connecting to the floating body through the attachment / detachment section, the wave conditions of the sea area where this floating body is installed It becomes possible to respond flexibly to.
[0008]
Floating body motion suppression device according to claim 2, in motion suppression device for floating according to claim 1, wherein the detachable portion, and a concave portion both formed on the floating body and the motion suppression device, which fitted to each of the Luo recess, characterized by comprising a fitting member for connecting therebetween.
According to the motion suppression device for floating according to the claim 2, for instance when mounting against existing floating body with respect to its floating body, only form a concave portion, to connect the motion suppression device become able to.
[0009]
According to a third aspect of the present invention, there is provided a floating body including the floating body fluctuation reducing device according to the first or second aspect and a floating body main body.
According to the floating body described in the third aspect , since the fluctuation reducing device is provided, (1) it can be removed when the floating body is moved, so that it is possible to prevent the movement from being hindered. In addition, (2) since the vibration reduction device having a shape suitable for the wave condition can be selected and attached to the floating body, it is possible to flexibly cope with different wave conditions.
[0010]
The floating body according to claim 4 is the floating body according to claim 3 , wherein either one or both of the vertical direction and the horizontal direction when connecting these to the fluctuation reduction device and the floating body main body are connected. An uneven fitting portion for matching the relative positions is provided.
According to the floating body described in the fourth aspect , the connection work of the fluctuation reducing device to the floating body can be more reliably and rapidly performed.
[0011]
DETAILED DESCRIPTION OF THE INVENTION
Embodiments of a floating body sway reduction device and a floating body including the same according to the present invention will be described below with reference to the drawings, but the present invention is not limited to these embodiments.
The floating body of each embodiment is configured to include a floating body main body that floats on water, and a fluctuation reducing device that reduces the fluctuation of the floating body main body.
Examples of the floating body include a floating pier floating on the water, a floating warehouse, a floating parking lot, a work ship, and an oil production platform. In each embodiment, as shown in FIG. The case of the floating body 1 having a plurality of floating chambers (not shown) sealed inside will be described as an example.
In the following description, the longitudinal direction of the floating body 1 is the front-rear direction (the X direction in FIG. 1; the rear side of the paper is the front side, the front side of the paper is the rear side), and the width direction perpendicular to the longitudinal direction is the left-right direction. (Y direction in FIG. 1) and the case where the incident wave W flows into the right side surface 1a (wave upper side) will be described as an example.
[0012]
First, an embodiment as a first reference example of the present invention will be described with reference to FIGS. 1 and 2.
The fluctuation reducing device 11 of the present embodiment is disposed on the wave-side side of the floating body 1 that floats on the water, and is provided so as to be submerged in a state of protruding substantially directly below the right side surface 1a of the floating body 1. It has been. The floating body 10 and the sway reduction device 11 constitute a floating body 10.
[0013]
The sway reduction device 11 includes a rectangular plate-like vertical plate 13 that is parallel to the right side surface 1a, and a plurality of attachment / detachment fitting portions 14 that fix or separate relative positions between the vertical plate 13 and the floating body 1. (Detachable part).
The vertical plate 13 is a rectangular flat plate that is long in the longitudinal direction (X direction) of the floating body 1, and a plurality of penetrating portions 15 through which water can flow are provided on the upper end support side. These penetrating portions 15 are spaces formed between a plurality of stays 16 that support the vertical plate 13, and allow drainage of water at a connection portion between the vertical plate 13 and the floating body 1.
[0014]
As shown in FIG. 2, the attachment / detachment fitting portion 14 includes a plurality of vertical grooves 17 formed on the floating body 1 side, and the stays fitted on the vertical grooves 17 provided on the vibration reduction device 11 side. 16 and a lid 18 (see FIG. 1) covering the top of each vertical groove 17.
Each longitudinal groove 17 is a longitudinal groove having a length L1 formed in the right side surface 1a, and has a T-shape when viewed in plan. These vertical grooves 17 include an opening 17a formed in the upper portion and a bottom surface 17b formed in the lower portion.
[0015]
Each stay 16 is a rod-like support member fixed to the inner surface of the vertical plate 13 corresponding to the position of each vertical groove 17 and protrudes from the upper edge of the vertical plate 13 directly above in the vertical direction. In the state, they are arranged at predetermined intervals in the longitudinal direction. Further, the portion from the upper end of the stay 16 to the length L1 downward has a T-shaped shape in which a cross-sectional shape perpendicular to the longitudinal direction is fitted into the vertical groove 17.
Each lid 18 is, for example, a plate that is bolt-fixed to the upper surface 1b of the floating body 1 and is detachable from the upper surface 1b by attaching / detaching a bolt (not shown).
[0016]
Therefore, each stay 16 is inserted into each longitudinal groove 17 from above, and then bolted so as to close each opening 17 a with each lid 18, thereby completing the mounting of the sway reduction device 11. On the other hand, when removing the sway reduction device 11, it is performed by pulling out each stay 16 from each longitudinal groove 17 toward the upper direction after removing each lid 18.
[0017]
According to the floating body 10 including the fluctuation reducing device 11 of the present embodiment, when the incident wave W hits the right side surface 1a of the floating body 1 and tries to swing, the fluctuation reducing device 11 is a resistor in water. Thus, rolling of the floating body 10 is suppressed.
Further, in the fluctuation reducing device 11, when the incident wave W hits the floating body 1, a part of the incident wave W passes through each through portion 15. Since this water flow reduces the wave force acting on the floating body 1 as much as the incident wave W is not blocked as compared with the case where each through portion 15 is not provided, the rolling of the floating body 1 is further suppressed.
[0018]
According to the floating body sway reduction device 11 of the present embodiment described above, the attachment / detachment fitting portion 14 is provided between the floating body 1 and (1) when the floating body 1 is moved, the floating body 1 is shaken. Since the reduction device 11 can be separated, it is possible to prevent the reduction device 11 from being hindered during movement. In addition, (2) by preparing the vertical plate 13 and the through portion 15 having different shapes, and selecting the optimum shape of the sway reduction device 11 and connecting it to the floating body 1, different wave conditions can be obtained. It becomes possible to respond flexibly.
Moreover, according to the sway reduction device of the present embodiment, it is only necessary to provide the vertical groove 17 on the floating body 1 side, so that it can be easily attached to an existing floating body.
[0019]
It is also possible to employ a configuration in which the vertical plate 13 can be swung in water by providing a hinge 19 in the middle of the stay 16 in the longitudinal direction as in the modification shown in FIG. By allowing the swinging by rotating at the hinge 19, it becomes possible to prevent the bending moment due to the fluid force acting on the vertical plate 13 from being transmitted to the stay 16.
[0020]
Next, an embodiment as a second reference example of the present invention will be described with reference to FIG. Since this embodiment corresponds to a modification of the embodiment as the first reference example, only the difference will be described below, and the rest is the same as the embodiment as the first reference example. The description is omitted because it is the same.
[0021]
As shown in the figure, the fluctuation reducing device 21 of this embodiment is particularly characteristic in that a horizontal plate 22 is provided instead of the vertical plate 13.
The horizontal plate 22 is a rectangular flat plate that is long in the longitudinal direction (X direction) of the floating body 1, and a plurality of penetrating portions through which water can pass are provided on the upper surface side. These penetrating portions are spaces formed between a plurality of stays 24 that support the horizontal plate 22, and allow water to drain at a connection portion between the horizontal plate 22 and the floating body 1.
[0022]
Each stay 24 is a substantially triangular plate-shaped support member fixed to the upper surface of the horizontal plate 22 corresponding to the position of each vertical groove 17, and in a state of protruding from the upper surface in the vertical direction, They are arranged at predetermined intervals in the longitudinal direction. Further, the edge measuring portion of the stay 24 facing the right side surface 1a has a T-shaped shape in which the cross-sectional shape of the portion from the upper end to the length L1 is fitted into the vertical groove 17 downward. There is no.
[0023]
Therefore, each stay 24 is inserted into each longitudinal groove 17 from above, and then bolted so as to close each opening 17 a with each lid 18, thereby completing the mounting of the fluctuation reducing device 21. On the other hand, when removing the sway reduction device 21, it is performed by pulling out each stay 24 from each longitudinal groove 17 in the upward direction after removing each lid 18.
[0024]
According to the floating body 10 provided with the fluctuation reducing device 21 of the present embodiment as described above, when the incident wave W hits the right side surface 1a of the floating body 1 and tries to swing, the fluctuation reducing device in water. 2 1 becomes a resistor and suppresses rolling of the floating body 10.
Furthermore, in this sway reduction device 21, when an incident wave W hits the floating body 1, a part of the incident wave W passes through each through portion. This water flow can reduce the wave force acting on the floating body 1 as much as the incident wave W is not blocked as compared with the case where there is no through portion. Further, the water flow forms a vortex after passing through each of the penetrating portions, and this vortex serves as a resistance to suppress the swing of the horizontal plate 22, and thus attenuates the swing of the floating body 1. Therefore, it is possible to further suppress rolling of the floating body 1.
[0025]
According to the floating body fluctuation reducing device 21 of the present embodiment described above, it is possible to obtain the same effect as that of the first embodiment as the first reference example .
[0026]
Next, an embodiment of the present invention will be described with reference to FIG. The present embodiment describes only the differences from the embodiment as the first and second reference example below, and other, similar to the embodiment as the first and second reference example The explanation is omitted as it is.
[0027]
As shown in the figure, the sway reduction device 31 of this embodiment includes a plurality of small floating bodies 32 and a new detachable fitting portion 33 instead of the detachable fitting portion 14 (detachable portion). This is particularly characteristic.
Each small floating body 32 is formed in a rectangular parallelepiped shape with a steel plate and has a floating chamber (not shown) sealed inside. These small floating bodies 32 suspend and support the vertical plate 13 below them by a plurality of stays 34.
Each stay 34 is fixed to each side surface of each small floating body 32 so that one of the stays 34 protrudes directly below. Further, the inner side surface of the vertical plate 13 is below the stay 34. It is fixed. At this time, a penetrating portion 35 capable of passing water is formed between the upper edge of the vertical plate 13 and the lower surface of each small floating body 32.
[0028]
Detachable fitting portion 33, formed in said floating body 1 and the longitudinal grooves 17 (concave portions), and the longitudinal groove 36 formed in each of the motion suppression device 31 side small floating body 32 (concave portions), these A connecting member 37 (fitting member) that is fitted in each of the longitudinal grooves 17 and 36 to connect the two and the lid 18 is provided.
Each longitudinal groove 36 is a longitudinally long groove having a length L1 formed on the surface of each small floating body 32 facing the right side surface 1a, and has a T-shape in plan view. . These vertical grooves 36 include an opening 36a formed in the upper portion and a bottom surface 36b formed in the lower portion.
The connecting member 37 is a vertically long member having a length L1 in which a cross-sectional shape perpendicular to the longitudinal direction forms an H shape that fits in both the longitudinal grooves 17 and 36 at the same time.
[0029]
Therefore, after each small floating body 32 is brought close to and further brought into contact with the floating body 1 so that the relative positions between the vertical grooves 36 and the vertical grooves 17 coincide with each other, the vertical grooves 36 and the vertical grooves 17 are then contacted. On the other hand, each connecting member 37 is inserted from above, and then the bolts are fixed so as to close the openings 17a and 36a with the lids 18, whereby the mounting of the fluctuation reducing device 31 is completed. On the other hand, when removing the fluctuation reducing device 21, after removing the lids 18, the connecting members 37 are pulled out from the vertical grooves 17 and 36 in the upward direction.
[0030]
According to the floating body sway reduction device 31 of the present embodiment described above, it is possible to obtain the same effects as those of the first and second embodiments.
As shown in the modification of FIG. 6, it is possible to adopt a configuration in which a horizontal plate 42 is used instead of the vertical plate 13 and this horizontal plate 42 is fixedly supported on the lower surface of each small floating body 32. It is.
[0031]
In addition, in one embodiment of the present invention from the first and second reference embodiments, the vibration reduction device is provided only on the right side surface 1a of the floating body 1. However, the present invention is not limited thereto, and the right side surface 1a is not limited thereto. And the structure provided in both of the left side surface 1c may be adopted. Furthermore, it is good also as what is provided in either one or both before and behind in a longitudinal direction (X direction) as needed. In this case, it is possible to reduce the pitching swing of the floating body 1. Furthermore, it is good also as what provides each shaking reduction apparatus in both the width direction (Y direction) and a longitudinal direction (X direction).
[0032]
Moreover, when using the fluctuation reduction apparatus provided with the small floating body 32 as in the embodiment of the present invention , for example, as shown in FIG. 7, the connection between the floating body 1 and each small floating body 32 is performed. It is desirable to provide the uneven | corrugated fitting part 50 for the vertical direction relative position adjustment, the interference member 51, and the tension | pulling apparatus 52. FIG.
That is, in the vertical cross section, the concave portion 50a is formed in one of the floating body 1 or each small floating body 32, and the convex portion 50b that fits into the concave portion 50a is formed on the other side, and the concave portion 50a and the convex portion 50b The concave / convex fitting portion 50 is configured. According to the concave / convex fitting portion 50, when the small floating bodies 32 are approached and fixed to the floating body 1, the vertical relative positions can be easily and accurately fixed. Therefore, the connection work of the fluctuation reducing device (each small floating body) to the floating body 1 can be performed more reliably and quickly.
[0033]
Further, by providing the interference member 51 in one or both of the concave portion 50a and the convex portion 50b, it is possible to loosen an impact when the small floating bodies 32 are fixed to the floating body 1.
Further, as the pulling device 52, for example, a structure in which a winch mechanism is provided in either one or both of the small floating bodies 32 and the floating body 1 and the two are approached by winding the wire 52a is used. It becomes possible to make each small floating body 32 approaching and fixing to 1 easier.
[0034]
More preferably, for example, as shown in FIGS. 8A and 8B, in addition to the uneven fitting portion 50, the horizontal relative position adjustment at the time of connection is made between the floating body 1 and each small floating body 32. It is desirable to provide a concave / convex fitting portion 60 for use.
That is, as shown in FIG. 8A, in plan view, the concave portion 60a is formed in one of the floating body 1 or the small floating body 32, and the convex portion 60b that fits into the concave portion 60a is formed on the other side. These concave and convex portions 60a and convex portions 60b constitute the concave-convex fitting portion 60. According to the concave / convex fitting portion 60, when the small floating body 32 is approached and fixed to the floating body main body 1, it is possible to easily and accurately fix the relative positions in the horizontal direction in addition to the vertical direction. Become. Therefore, the connection work of the fluctuation reducing device (small floating body 32) to the floating body 1 can be performed more reliably and quickly. In the example of the figure, the integral body formed by connecting the small floating body 32, on its lower surface, securing the horizontal plate 42 via a support reinforcing member 6 2. Although not shown, the interference member 51 may also be provided in the concave / convex fitting portion 60 so as to relax the impact when the small floating bodies 32 are fixed to the floating body 1.
[0035]
FIGS. 9A and 9B are also provided with an uneven fitting portion 50 for adjusting the vertical relative position during connection and an uneven fitting portion 60 for adjusting the horizontal relative position. Instead of the plate 42, the vertical plate 70 is accommodated integrally in the small floating body 32, and after fixing, the vertical plate 70 is protruded downward. The vertical movement of the vertical plate 70 is performed by pulling a stay 71 fixed to the vertical plate 70 with a wire 72.
[0036]
FIGS. 10A and 10B are also provided with an uneven fitting portion 50 for adjusting the vertical relative position during connection and an uneven fitting portion 60 for adjusting the horizontal relative position. Instead of the plate 42, the vertical plate 70 is accommodated integrally in the small floating body 32, and after fixing, the vertical plate 80 is rotated in the horizontal direction from the extension direction by an expansion / contraction device 81 such as a hydraulic cylinder or a hydraulic cylinder. It is the composition which makes it.
[0037]
【The invention's effect】
According to the floating body sway reduction device of the first aspect of the present invention, the detachment part is provided between the floating body and (1) the sway reducing device can be separated from the floating body when the floating body is moved. Since it is possible, it becomes possible to prevent obstruction at the time of movement. Further, (2) by selecting an optimally configured shake reduction device and connecting it to the floating body, it becomes possible to flexibly cope with different wave conditions.
[0039]
Further, according to the floating motion suppression device according to claim 2, removable portion, and a concave portion both formed on the floating body and motion suppression device, the engaging member for connecting the two fitted thereto It becomes possible to attach easily also to the existing floating body by setting it as the fitting structure provided with.
[0040]
Moreover, according to the floating body of Claim 3 , it becomes possible to prevent (1) obstruction at the time of the movement of a floating body main body by having provided the fluctuation reduction apparatus. In addition, (2) it is possible to flexibly cope with different wave conditions.
[0041]
Moreover, the floating body of Claim 4 can perform the connection operation | work of the fluctuation reduction apparatus with respect to a floating body main body more reliably and rapidly by providing the uneven | corrugated fitting part in the connection location.
[Brief description of the drawings]
FIG. 1 is a perspective view showing a first embodiment of a floating body provided with a floating body fluctuation reducing device of the present invention.
FIG. 2 is a perspective view of a joint portion with a floating body, showing the sway reduction device.
FIG. 3 is a perspective view showing a modified example of the vibration reduction device.
FIG. 4 is a diagram showing a second embodiment of the floating body sway reduction device of the present invention, and is a perspective view of a joint portion with the floating body.
FIG. 5 is a diagram showing a third embodiment of the floating body sway reduction device of the present invention, and is a perspective view of a joint portion with the floating body.
FIG. 6 is a perspective view showing a modified example of the vibration reduction device.
FIG. 7 is a longitudinal sectional view showing a joint portion between the floating body fluctuation reducing device of the present invention and the floating body.
8A and 8B are diagrams illustrating another example of the joint portion, where FIG. 8A is a plan view and FIG. 8B is a cross-sectional view taken along line AA in FIG.
FIGS. 9A and 9B are diagrams showing another example of the joint portion, where FIG. 9A is a plan view and FIG. 9B is a cross-sectional view taken along line BB in FIG.
10A and 10B are diagrams showing another example of the joint portion, where FIG. 10A is a plan view and FIG. 10B is a cross-sectional view taken along the line CC of FIG.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 ... Floating body main body 10 ... Floating bodies 11, 21, 31 ... Shake reduction device 14 ... Detachment fitting part (detachment part)
16 ... Stay (convex part)
17 ... Vertical groove (first recess, second recess)
36 ... Vertical groove (second recess)
37 ... Connecting member (fitting member)
50, 60 ... uneven fitting part

Claims (4)

In the floating body sway reduction device provided for the side of the floating body that floats on the water,
An attachment / detachment portion for fixing or separating a relative position between the fluctuation reducing device and the floating body main body is provided,
Fluctuation of a floating body , characterized in that the vibration reduction device includes a small floating body having a floating chamber sealed inside, and a vertical plate or a horizontal plate supported so as to be submerged under the small floating body. Reduction device. In the floating body sway reducing device according to claim 1,
The detachable part includes a concave part formed in both the floating body main body and the sway reduction device, and a fitting member that fits into each of the concave parts and connects the two together. Sway reduction device.   A floating body comprising the floating body fluctuation reducing device according to claim 1 or 2 and a floating body main body. The floating body according to claim 3,
The connecting portion between the fluctuation reducing device and the floating body is provided with a concave and convex fitting portion that matches the relative position of either one or both of the vertical direction and the horizontal direction when connecting them. Floating body.

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