JP5840194B2 - Mooring device for floating structure - Google Patents

Description

  The present invention relates to a mooring device for a floating structure moored to a mooring pile or a mooring guide rail, and more particularly, to prevent oysters and other marine organisms from attaching to mooring piles and mooring guide rails mooring a floating structure. It is related with the thing provided with the device which can do.

  When floating structures are moored to mooring piles or mooring guide rails, if oysters or other marine organisms adhere to the mooring piles or mooring guide rails, it often happens that the marine structures cannot follow water level fluctuations. Persons are forced to clean the deposits several times a year.

  That is, when oysters or other marine organisms adhere to the mooring pile or the mooring guide rail, the above situation occurs because the roller of the mooring device does not roll smoothly with respect to the mooring pile or the mooring guide rail.

  In order to prevent such a situation from occurring, a hollow annular float unit is loosely fitted to the mooring pile or mooring guide rail, and the float unit moves up and down, rotates, etc. by the waves, so that the mooring pile Alternatively, there is one in which oysters and other marine organisms adhering to the mooring guide rail can be efficiently removed to protect the mooring pile or mooring guide rail from corrosion or the like (for example, see Patent Document 1).

Japanese Patent No. 3320351 (refer to FIG. 5, FIG. 6, abstract, etc.).

  This float unit is constantly rubbed against the surface of the mooring pile or mooring guide rail in the normal tidal area, and can suppress the occurrence and attachment of oysters and other marine organisms on the surface, but the most tidal difference is At the time of low tide in the big summer tide, oysters and other marine organisms are generated and attached to the parts that are not normally touched by the float unit because it falls only at that time, so the float unit can be easily caught. There was an inconvenience.

This is because the float unit is made of polyethylene resin or other polyolefin-based thermoplastic resin, and has a small overall weight and low buoyancy. This is because once caught by marine life, it cannot rise even if the water level rises.
The object of the present invention is to eliminate such drawbacks.

In order to achieve the above object, in the present invention, a double-layered plate that can be attached along the lower surface of the mooring device to the mooring device of a floating structure that can follow the fluctuation of the water level along the mooring pile or mooring guide rail. A plurality of slits are formed in the vicinity of a hole having the same shape as the cross-sectional shape of the mooring pile or mooring guide rail respectively formed on the two-layered plate body, with the upper and lower positions shifted. Oyster and other marine organism adhesion prevention devices are directly attached.

  Oyster and other marine organism attachment prevention devices can be directly attached to the mooring device of the floating structure and can be located outside the mooring pile or mooring guide rail. Thus, since the oysters and other marine organism adhesion prevention devices are directly attached to the mooring device of the floating structure having a large mass, the oysters and other marine organisms adhering to the mooring pile or the mooring guide rail are removed from the floating structure. It can be scraped off using the large buoyancy of objects.

  In particular, by integrating an oyster or other marine organism adhesion prevention device with a mooring device for a floating structure, there is an advantage that the buoyancy body used in the conventional case becomes unnecessary. In addition, there is an advantage that maintenance is facilitated by integrating an oyster or other marine organism adhesion prevention device with a mooring device for a floating structure.

Furthermore , when the mooring device of the floating structure moves up and down along the mooring pile or the mooring guide rail following the fluctuation of the water level, when the water level falls, the hole of the plate body located on the upper side of the two stacked plates The vicinity is turned up by a plurality of slits, and conversely, when the water level rises, the vicinity of the hole in the lower plate of the two stacked plates is turned down by the plurality of slits. Therefore, in any case where the floating structure mooring device moves up and down along the mooring pile or mooring guide rail following the fluctuation of the water level, oysters and other marine organisms adhering to the mooring pile or mooring guide rail are removed. Can be skillfully scraped off.

Incidentally, Colt蠣other marine anti-biofouling apparatus, since a plate of two-ply which may be attached along the lower surface of the anchoring device of the floating structure, the lower surface of the anchoring device of large floating structure of the mass, as appropriate With this fixing tool, it is possible to attach oysters and other marine organism adhesion prevention devices very easily. Therefore, in order to scrape oysters and other marine organisms adhering to the mooring pile or mooring guide rail, it is possible to attach oysters and other marine organism adhesion prevention devices to the lower surface of the mooring device of the floating structure very easily. The maintenance is also very advantageous.

  It is preferable that the mooring device for a floating structure is provided with a slide shoe that can be positioned near the outside of the hole. In this way, even if the floating structure mooring device moves up and down along the mooring pile or mooring guide rail following the fluctuation of the water level, the floating structure can be moved by the slide shoe located near the outside of the hole. The mooring device will not interfere with the mooring pile or mooring guide rail and cause damage.

  According to the first aspect of the present invention, since the oyster and other marine organism adhesion prevention devices are directly attached to the mooring device of the floating structure having a large mass, the oyster and other oysters adhered to the mooring pile or the mooring guide rail Marine organisms can be scraped off using the large buoyancy of the floating structure.

  In particular, by integrating an oyster or other marine organism adhesion prevention device with a mooring device for a floating structure, there is an advantage that the buoyancy body used in the conventional case becomes unnecessary. In addition, there is an advantage that maintenance is facilitated by integrating an oyster or other marine organism adhesion prevention device with a mooring device for a floating structure.

Furthermore , when the mooring device of the floating structure moves up and down along the mooring pile or the mooring guide rail following the fluctuation of the water level, when the water level falls, the hole of the plate body located on the upper side of the two stacked plates The vicinity is turned up by a plurality of slits, and conversely, when the water level rises, the vicinity of the hole in the lower plate of the two stacked plates is turned down by the plurality of slits. Therefore, in any case where the floating structure mooring device moves up and down along the mooring pile or mooring guide rail following the fluctuation of the water level, oysters and other marine organisms adhering to the mooring pile or mooring guide rail are removed. Can be skillfully scraped off.

Since the oyster and other marine organism adhesion prevention devices are composed of double-layered plates that can be attached along the lower surface of the floating structure mooring device, an appropriate amount is attached to the lower surface of the large floating structure mooring device. the fixture, oysters Ki out to mount the other marine anti-biofouling device very simply, for scraped off oyster other marine organisms adhering to mooring piles or anchoring guide rail, the anchoring device of the floating structure It is possible to attach oysters and other marine organism adhesion prevention devices to the bottom surface of the slab very easily, and its maintenance is also very advantageous.

According to the invention of claim 2 , even if the mooring device of the floating structure moves up and down along the mooring pile or mooring guide rail following the fluctuation of the water level, the sliding shoe located near the outside of the hole The mooring device of the floating structure does not interfere with the mooring pile or mooring guide rail and cause damage.

It is the whole top view which shows an example which moored the mooring apparatus of the floating structure by this invention to the mooring pile. FIG. It is a top view which expands and shows a part of FIG. FIG. 4 is a front view showing a part of FIG. It is an end elevation which follows the VV line of FIG. It is a top view which shows an example in case an oyster other marine organism adhesion prevention apparatus consists of a plate.

Embodiments for carrying out the present invention will be described with reference to the drawings.
Here, as shown in FIG. 1 and FIG. 2, two floating piers a ₁ and a ₁ as a floating structure A are erected on the seabed G using a floating structure mooring device 1 according to the present invention. The mooring piles B and B are moored respectively, and one floating pier a ₂ is connected between the two floating piers a ₁ and a _1, and one floating pier is connected to one floating pier a _1. The present invention will be described in detail below by taking as an example a case where the pier a ₃ is connected and one floating bridge D is bridged between the floating pier a ₃ and the existing revetment C.

As shown in detail in FIG. 3, the mooring device 1 has a planar rectangular frame 1 a, and this frame 1 a is attached to the floating pier a ₁ . And inside this flame | frame 1a, it arrange | positions so that three rollers 1b, 1b, 1b which can be contact | abutted and pressed against the mooring pile B may become equal intervals with respect to one mooring pile B planarly Has been. Further, as shown in FIGS. 2 and 4, floats 2 and 2 are provided on the lower surface of the frame 1 a of the floating pier a ₁ , and as shown in FIG. 2 on the lower surface of the floating pier a ₃ , An appropriate number of floats 2 'are attached. Further, although not shown, a float is similarly attached to one floating pier a ₂ connected between the two floating piers a ₁ and a ₁ .

Therefore, the floating piers a ₁ , a ₂ , a ₃ can be levitated on the water or the sea by the buoyancy of these floats 2, 2 ′ and a float (not shown), and the mooring pile B Since the three rollers 1b, 1b, 1b roll on the outer surface, the floating piers a ₁ , a ₂ , a ₃ can be smoothly moved up and down along the mooring pile B.

Note that three rollers 1b, 1b, among 1b, (4, appearing to the right) one roller 1b which is located closer to the floating piers _{a 1} in the frame 1a, the other two rollers 1b , 1b. On the contrary, the other two rollers 1b and 1b are at a higher position than the one roller 1a at the lower position, as shown in FIG.

On the other hand, the lower surface of the Floating Pier a ₁ frame 1a, as shown in FIGS. 3 and 4, the mooring piles oysters and other marine anti-biofouling device E having the same shape of the hole and the cross-sectional shape of the B is It is attached directly. That is, the oyster or other marine organism adhesion preventing device E can be directly attached to the frame 1a of the mooring device 1 of the floating structure A, and can be loosely fitted to the mooring pile B through the hole and positioned outside thereof. Thus, since the oyster and other marine organism adhesion preventing device E is directly attached to the frame 1a of the mooring device 1 of the floating structure A having a large mass, the oyster and other marine organisms adhering to the mooring pile B can be removed. The large floating force of the floating structure A can be used to scrape off.

  In particular, by integrating the oyster and other marine organism adhesion preventing device E with the mooring device 1 of the floating structure A, there is an advantage that the buoyancy body used in the conventional case becomes unnecessary. Further, by integrating the oyster and other marine organism adhesion preventing device E with the mooring device 1 of the floating structure A, there is also an advantage that maintenance becomes easy.

As the oyster and other marine organism adhesion preventing device E, here, it is made of, for example, synthetic rubber, and has a hole 3a having the same shape as the cross-sectional shape of the mooring pile B. Two plate bodies 3 that can be fitted are overlapped, and a plurality of plate bodies 3, 3 a formed in the two-layer plate bodies 3, 3 are arranged in the vicinity of holes 3 a, 3 a having the same cross-sectional shape as the mooring pile B. The case where the slits 3b and 3b are formed by shifting the vertical position is illustrated. That is, as shown in FIG. 6, a plurality of slits 3b indicated by the solid line in the upper plate body 3 and a plurality of slits 3b indicated by the dotted line in the lower plate body 3 are provided. The slit 3b is formed by shifting the vertical position.

  In such a case, when the mooring device 1 of the floating structure A moves up and down along the mooring pile B following the fluctuation of the water level, when the water level falls, The vicinity of the hole 3a of the upper plate 3 is turned up by the plurality of slits 3b, 3b. Conversely, when the water level rises, the lower plate 3 of the two stacked plates 3, 3 The vicinity of the hole 3a is turned downward by a plurality of slits 3b and 3b. Therefore, in any case where the mooring device 1 of the floating structure A moves up and down along the mooring pile B following the fluctuation of the water level, the oysters and other marine organisms adhering to the mooring pile B are skillfully scraped off. be able to.

Thus, two-ply plate bodies 3 as oysters and other marine anti-biofouling device E to the lower surface of the frame 1a of the Floating Pier a _1, 3 is provided, the plate of the two-ply through the hole 3a Since the bodies 3 and 3 are loosely fitted to the mooring pile B, the oysters and other marine organisms adhering to the outer surface of the mooring pile B are scraped off using the large buoyancy of the floating structure A. Can do. The plate body 3 can have a thickness of about 8 mm, for example.

In addition, since the oyster and other marine organism adhesion prevention devices are composed of two stacked plates that can be attached along the lower surface of the floating structure mooring device, the lower surface of the mooring device 1 of the floating structure A having a large mass, by an appropriate fixture, oysters and other marine anti-biofouling device is two-ply plate bodies 3, 3 Ki de be attached very easily, and oysters and other adhering to mooring piles B or anchoring guide rails In order to remove marine organisms, the plate body 3 can be attached to the lower surface of the mooring device 1 of the floating structure A very easily, and its maintenance is also very advantageous.

  As shown in FIG. 6, if the plate body 3 is divided into two or other pieces, it is convenient to attach / remove the floating structure A to / from the lower surface of the mooring device 1.

  As the oyster and other marine organism adhesion preventing device E, in addition to the plate body 3, a number of members such as tools as tools are arranged side by side along the outer side or the peripheral edge of the hole 3a, and at the tip thereof. Oysters and other marine organisms adhering to the outer surface of the mooring pile B can be removed.

  Further, here, as shown in FIGS. 3 and 5, two slide shoes 4, 4 which can be positioned near the periphery of the hole 3a are provided between the frame 1a along the upper surface of the plate body 3. The case where it mounts facing and the inner end surface is each located in the vicinity of the periphery of the said hole 3a centering on one mooring pile B is illustrated. By providing the two slide shoes 4 and 4, even if the mooring device 1 of the floating structure A moves up and down along the mooring pile B following the fluctuation of the water level, the peripheral edge of the hole 3 a The mooring device 1 of the floating structure A will not interfere with the mooring pile B and be damaged by the slide shoes 4 and 4 located in the vicinity.

In FIG. W. L. Is the low water level, H. H. W. L. Indicates the highest tide level (maximum water level), and when the mooring device 1 of the floating structure A moves up and down along the mooring pile B following the fluctuation of the water level, the three floating piers a ₁ connected to each other are connected. a crossover bridge D of ~a ₃ and the floating piers a ₃ and 1 group are passing hung on the existing seawall C becomes to move up and down between a solid line and chain line in FIG.

  Here, the case where the mooring device 1 of the floating structure A moves up and down along the mooring pile B following the fluctuation of the water level is illustrated, but instead of the mooring pile B, the mooring guide rail (not shown) is used as the seabed. The mooring device 1 of the floating structure A may be moved up and down along the guide rail.

  Moreover, although the case where the mooring pile B was a cross-section circular shape which consists of a steel pipe etc. was illustrated here, even if the mooring pile B is a shape like H-shaped steel, it is mooring apparatus so that it may fit the shape. What is necessary is just to design the flame | frame 1a of 1, the oyster and other marine organism adhesion prevention apparatus E, the hole 3a of the plate 3, etc.

Reference numeral F in FIG. 1, a ship mooring piles installed in close to the Floating Pier a ₁ of 1 group located at the end of the Floating Pier a ₁ ~a ₃ coupled _(in Figure 1, appears at the bottom) Thus, a ship (not shown) can be moored on the ship mooring pile E.

  Here, the present invention has been described by taking a floating pier as an example of a floating structure, but the present invention can be applied to a floating structure other than a floating pier, such as a mooring device such as a pontoon, a floating trail, a floating walkway, and a connecting bridge. Can of course also be applied.

1 ... mooring device, 1a ... frame, 1b ... roller, 2,2 '... float, 3 ... plate bodies, 3a ... hole, 3b ... slit, 4 ... slide shoe, A ... floating _{construction,} a 1 ~a ₃ ... Floating pier, B ... Mooring pile, E ... Oyster and other marine organism adhesion prevention devices.

Claims (2)

The floating structure mooring device that can follow the fluctuation of the water level along the mooring pile or mooring guide rail consists of two stacked plates that can be attached along the lower surface of the mooring device. Oysters and other marine organism adhesion prevention devices, in which a plurality of slits are formed with their upper and lower positions shifted, are directly attached in the vicinity of the hole having the same shape as the cross-sectional shape of the mooring pile or mooring guide rail formed respectively. A floating structure mooring device.   The floating structure mooring device according to claim 1, further comprising a slide shoe that can be positioned near the outside of the hole.

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