JP2017154602A - Semi-sub type floating body and connection method of the same - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a semi-sub type floating body which reduces a load during stormy weather while inhibiting relative movement between floating bodies during good weather, and to provide a connection method of the semi-sub type floating body.SOLUTION: A semi-sub type floating body 1 includes: a lower hull 11 disposed in water; an upper hull 12 disposed on water; columns 13 connecting the lower hull 11 with the upper hull 12; elastic bodies 2 disposed on a side surface of the upper hull 12; a fixed pulley block 3 disposed on the upper hull 12; a movable pulley block 5 connected with the fixed pully block 3 through a cable 4; a transfer device 6 which transfers the movable pully block 5 to the semi-sub type floating body that is a connection object; and a winch 7 which adjusts a length of the cable 4.SELECTED DRAWING: Figure 1

Description

  The present invention relates to a semi-sub floating body and a semi-sub floating body connection method, and more particularly to a semi-sub floating body and a semi-sub floating body connection method capable of changing the connection state according to sea conditions and weather conditions.

  In recent years, coastal development by landfill has become difficult from the viewpoint of environmental protection, and a method of floating a large floating structure on the sea and mooring it on the seabed has already been proposed. Such a floating structure is used for, for example, an airport, a port facility, an agricultural land, an industrial land, a leisure facility, etc., and has a vast area, and is generally configured by joining a plurality of floating bodies. .

  For example, in the semi-sub floating structure described in Patent Document 1, a joint portion is disposed on a buoyant body that is submerged in water, and a horizontal jack of the other buoyant body is engaged with a guide member of one buoyant body. The floating bodies are connected to each other. Moreover, in the floating type offshore structure described in Patent Document 2, the floating bodies are connected to each other by an elastic body connecting means.

JP 2001-71991 A JP 2001-206278 A

  In a large floating structure in which a plurality of floating bodies are connected, a relative movement occurs between the floating bodies due to the influence of waves, so that a large load is generated at the connecting portion. In particular, sea conditions and weather conditions in the open ocean are severe, and as described in Patent Document 1, when floating bodies are connected by a rigid body, the severe conditions cannot be withstood.

  Further, as described in Patent Document 2, even when the floating bodies are connected by an elastic body, if the elastic force is adjusted based on the stormy weather, the connection state in good weather is insufficient, If the elastic force is adjusted based on the sky, it cannot withstand the load during stormy weather.

  Moreover, since the connection methods described in Patent Document 1 and Patent Document 2 both connect floating bodies in water, problems such as difficult connection work, time required for connection, and troublesome maintenance. Also occurs.

  The present invention has been devised in view of the above-described problems, and it is possible to reduce the load during stormy weather while suppressing the relative movement between the floating bodies during good weather, and the semi-sub floating body and the semi-sub floating body. An object is to provide a connection method.

  According to the present invention, in a semi-sub floating body including a lower hull disposed in water, an upper hull disposed on water, and a plurality of columns connecting the lower hull and the upper hull, a side surface of the upper hull An elastic body arranged in the upper hull, a portable pulley device connected to the fixed pulley device via a cable, and a semi-sub floating body to which the portable pulley device is connected There is provided a semi-sub floating body comprising a transfer device for transferring to a cable and a winch for adjusting the length of the cable.

  The fixed pulley device includes a first fixed pulley device disposed on the upper hull and on one end side of the connection surface, and a second fixed pulley device disposed on the upper hull and the other end side of the connection surface. A third fixed pulley device disposed on the lower end of the upper hull and on one end side of the connection surface, and a fourth fixed pulley device disposed on the lower end of the upper hull and the other end side of the connection surface, The portable pulley device is connected to the first portable pulley device connected to the first fixed pulley device, the second portable pulley device connected to the second fixed pulley device, and the third fixed pulley device. And a fourth portable pulley device connected to the fourth fixed pulley device.

  The elastic body may be disposed at a central portion of the connection surface.

  The transfer device may include a trolley hoist, a crane device, or a fork device.

  The lower hull may have a plurality of propulsion devices.

  The elastic body, the fixed pulley device, the portable pulley device, the transfer device, and the winch may be disposed on both the longitudinal side surface and the short side surface of the semi-sub floating body.

  In addition, according to the present invention, a semi-sub that connects a semi-sub floating body including a lower hull disposed in water, an upper hull disposed on water, and a plurality of columns connecting the lower hull and the upper hull. A method of connecting a type floating body, wherein the semi-sub type floating body is connected to an elastic body arranged on a side surface of the upper hull, a fixed pulley device arranged on the upper hull, and the fixed pulley device via a cable. A movable pulley device, a transfer device for transferring the portable pulley device to a semisub floating body to be connected, and a winch for adjusting the length of the cable, and a side surface of one semi sub floating body An approaching step of bringing the side surface of the other semi-sub type floating body into proximity, and the transfer device transfers the portable pulley device from the one semi-sub type floating body to the other semi-sub type floating body. A semi-sub, comprising: a loading step; an installation step of fixing the portable pulley device to the other semi-sub floating body; and a tension step of compressing the elastic body by tensioning the cable by the winch. A method for connecting a mold float is provided.

  The method for connecting the semi-sub floating bodies may include a relaxing step of relaxing the cable by the winch to separate the one semi-sub floating body from the other semi-sub floating body.

  According to the semi-sub type floating body and the semi-sub type floating body connection method according to the present invention described above, the fixed pulley device arranged in one semi-sub type floating body, and the portable pulley transferred and fixed to the other semi-sub type floating body By connecting the semi-sub type floating bodies to each other with a cable whose length can be adjusted, the cables can be tensioned and the semi-sub type floating bodies can be brought into close contact with each other in good weather, and the semi-sub type floating bodies can be loosened in stormy weather. They can be separated from each other. Therefore, it is possible to reduce the load during stormy weather while suppressing the relative movement between the floating bodies during sunny weather.

  Further, according to the semi-sub type floating body and the semi-sub type floating body connection method according to the present invention, since the upper hulls of the semi-sub type floating body are connected to each other, there is no need to connect the floating bodies to each other in the water. It is possible to reduce the burden, shorten the connection time, and reduce the maintenance burden.

It is a figure which shows the semi-sub type floating body which concerns on 1st embodiment of this invention, (A) is a top view, (B) is BB arrow sectional drawing in FIG. 1 (A), (C) is a front view, It is. It is a figure which shows the connection method of the semi-sub type | mold floating body which concerns on one Embodiment of this invention, (A) has shown the arrangement | positioning process and (B) has shown the approach process. It is a figure which shows the connection method of the semi-sub type | mold floating body which concerns on one Embodiment of this invention, (A) has shown the transfer preparation process, (B) has shown the transfer process. It is a figure which shows the connection method of the semi-sub type | mold floating body which concerns on one Embodiment of this invention, (A) has shown the installation process, (B) has shown the tension | tensile_strength process. It is a figure which shows a relaxation process, (A) has shown the time of a middle wave, (B) has shown the time of a big wave. It is explanatory drawing which shows an example of the connection state of a semi-sub type floating body. It is a figure which shows the semisub type | mold floating body which concerns on other embodiment of this invention, (A) has shown 2nd embodiment, (B) has shown 3rd embodiment. It is a figure which shows the semi-sub type | mold floating body which concerns on other embodiment of this invention, (A) has shown 4th embodiment, (B) has shown 5th embodiment.

  Hereinafter, a semi-sub floating body and a method for connecting the semi-sub floating bodies according to the embodiment of the present invention will be described with reference to FIGS. 1 (A) to 8 (B). Here, FIG. 1 is a diagram showing a semi-sub floating body according to the first embodiment of the present invention, (A) is a plan view, (B) is a cross-sectional view taken along the line BB in FIG. (C) is a front view.

  The semi-sub type floating body 1 according to the first embodiment of the present invention includes a lower hull 11 disposed in water and an upper hull 12 disposed on water as shown in FIGS. A plurality of columns 13 for connecting the lower hull 11 and the upper hull 12, and an elastic body 2 disposed on the side surface 12a of the upper hull 12, a fixed pulley device 3 disposed on the upper hull 12, and a fixed pulley device. 3, a portable pulley device 5 connected via a cable 4, a transfer device 6 that transfers the portable pulley device 5 to a semi-sub floating body to be connected, and a winch 7 that adjusts the length of the cable 4. It is equipped with.

  The semi-sub floating body 1 is a semi-submersible floating body, and is a semi-submersible floating body. The semi-sub floating body 1 is used, for example, in airports, harbor facilities, agricultural land, industrial land, leisure facilities and the like.

  The lower hull 11 is, for example, a buoyant body that is long in the Y direction, and is disposed on both the left and right sides in the X direction. The lower hull 11 has a ballast tank inside, and may be configured so that buoyancy can be adjusted by pouring or draining water. Moreover, the lower hull 11 may have a plurality of propulsion devices 11a (thrusters). The propulsion device 11a is, for example, a screw used for propulsion and attitude control of the semi-sub floating body 1.

  The upper hull 12 is a structure disposed above the water surface and constitutes a deck used for various purposes. The upper hull 12 may have a multi-level deck. For example, as shown in FIG. 1A, the upper hull 12 has a substantially rectangular parallelepiped shape that is long in the Y direction, and has side surfaces 12a at both ends in the longitudinal direction (Y direction), and the short direction ( Side surfaces 12b are provided at both ends in the (X direction).

  The column 13 is a substantially cylindrical column extending in the Z direction that connects the lower hull 11 and the upper hull 12. The column 13 has a smaller cross-sectional area in the horizontal direction than the lower hull 11 and the upper hull 12. Therefore, by positioning the water line of the semi-sub type floating body 1 at the column 13 portion, resistance to water can be suppressed, and swinging of the semi-sub type floating body 1 can be reduced.

  The semi-sub floating body 1 described above is not limited to the illustrated shape. For example, the number and shape of the upper hull 12 and the column 13 are arbitrary, and braces for reinforcing the strength of the semi-sub floating body 1 are used. You may have.

  The elastic body 2 is, for example, a rubber fender. The elastic body 2 functions as a cushioning material disposed between the side surfaces 12 a of the adjacent semi-sub floating bodies 1. The elastic body 2 is arrange | positioned at the center part of the connection surface (side surface 12a) by the side where the fixed pulley apparatus 3 is arrange | positioned, for example, as shown in FIG.1 (C). Here, 3 × 3 = 9 elastic bodies 2 are arranged in the vertical direction at the center of the side surface 12a in the X direction. The number and arrangement of the elastic bodies 2 are not limited to the illustrated configuration. The elastic body 2 may be one using a spring or one using atmospheric pressure or hydraulic pressure.

  The fixed pulley device 3 is, for example, a sheave block including a plurality of moving pulleys. By using the sheave block, the thickness of the cable 4 can be reduced while increasing the tension of the cable 4. However, the fixed pulley device 3 is not limited to the sheave block.

  Such a fixed pulley apparatus 3 is fixed in an accommodation space 12 c formed in the upper hull 12. The accommodation space 12c is formed on the left and right sides of the side surface 12a of the upper hull 12 as shown in FIG. 1A, for example, and the upper portion of the side surface 12a of the upper hull 12 as shown in FIG. And formed at the bottom. The front surface (surface on the side surface 12a side) of the accommodation space 12c may be always opened or may have an open / close door.

  As shown in FIG. 1C, the fixed pulley device 3 includes a first fixed pulley device 31 disposed on the upper hull 12 and on one end side of the connection surface (the right side of the side surface 12 a), and the upper hull 12. A second fixed pulley device 32 disposed on the upper side and the other end of the connection surface (left side of the side surface 12a), and a third fixed pulley disposed on the lower side of the upper hull 12 and one end side of the connection surface (right side of the side surface 12a). A pulley device 33 and a fourth fixed pulley device 34 disposed below the upper hull 12 and on the other end side of the connection surface (left side of the side surface 12a) are provided.

  Thus, by forming the accommodation spaces 12c at positions corresponding to the four corners of the side surface 12a and disposing the fixed pulley device 3 in each of the accommodation spaces 12c, the semi-sub floating bodies 1 are balanced with the elastic body 2 interposed therebetween. Can be connected. In addition, arrangement | positioning of the fixed pulley apparatus 3 is not limited to the structure shown in figure, For example, you may arrange | position to a pair of right and left, may arrange | position to a pair of upper and lower sides, and arrange | position to four places of upper and lower, right and left. Alternatively, six or more may be arranged, or an odd number may be arranged.

  The portable pulley device 5 is a pulley device that is transferred and fixed in the accommodation space 12 c of the adjacent semi-sub floating body 1. The portable pulley device 5 is a pulley device similar to the fixed pulley device 3, and is, for example, a sheave block including a plurality of movable pulleys. Cables 4 are alternately wound around the fixed pulley device 3 and the portable pulley device 5. Before the semi-sub floating body 1 is connected, it is temporarily placed in the same accommodation space 12c as the fixed pulley device 3.

  In addition, as shown in FIG. 1C, the portable pulley device 5 includes a first portable pulley device 51 connected to the first fixed pulley device 31 and a second fixed pulley device 32 connected to the first fixed pulley device 32. A second portable pulley device 52, a third portable pulley device 53 connected to a third fixed pulley device 33, and a fourth portable pulley device 54 connected to a fourth fixed pulley device 34; Yes.

  The transfer device 6 is a device that transfers the transportable pulley device 5 temporarily placed in the accommodation space 12c of the semi-sub type floating body 1 to the accommodation space 12c of the adjacent semi-sub type floating body 1 when connected. The transfer device 6 is, for example, a trolley hoist, and includes a rail 61 disposed on the ceiling portion of the accommodation space 12 c and a carriage 62 that travels on the rail 61. The rail 61 is configured to be extendable and contracted, is contracted before connection, and is extended when connected. The carriage 62 includes a hoist that can lift the portable pulley device 5. The transfer device 6 is not limited to the illustrated configuration.

  The winch 7 is connected to one end of the cable 4 and is a device that winds up or pulls out the cable 4. By adjusting the length of the cable 4 with the winch 7, the distance between the fixed pulley device 3 and the portable pulley device 5 can be adjusted. The winch 7 is arrange | positioned on the same deck as the accommodation space 12c, for example.

  As described above, the accommodation space 12 c that accommodates the fixed pulley device 3, the portable pulley device 5, and the transfer device 6 is formed on one side surface 12 a of the upper hull 12 (front in the Y direction). Further, as shown in FIGS. 1A and 1B, the portable pulley transferred from the semi-sub floating body 1 adjacent to the other side (rear in the Y direction) side surface 12a of the upper hull 12 at the time of connection. An accommodation space 12d for accommodating and fixing the device 5 is formed. The accommodation space 12d is formed at a position corresponding to the accommodation space 12c.

  Next, a method for connecting the semi-sub floating body 1 described above will be described with reference to FIGS. 2 (A) to 5 (B). Here, FIG. 2 is a diagram showing a semi-sub floating body connection method according to an embodiment of the present invention, in which (A) shows an arrangement step and (B) shows an approach step. 3A and 3B are diagrams illustrating a semi-sub floating body connection method according to an embodiment of the present invention, in which FIG. 3A illustrates a transfer preparation step and FIG. 3B illustrates a transfer step. 4A and 4B are diagrams showing a semi-sub floating body connection method according to an embodiment of the present invention, in which FIG. 4A shows an installation process and FIG. 4B shows a tensioning process. 5A and 5B are diagrams showing a relaxation process, where FIG. 5A shows a middle wave and FIG. 5B shows a big wave.

  The connection method of the semi-sub floating body 1 according to one embodiment of the present invention includes an arrangement step of placing the semi-sub floating bodies 1a and 1b to be connected on the water, and the other semi-sub floating body on the side surface 12a of the one semi-sub floating body 1a. An approach step of bringing the side surface 12a of 1b closer, a transfer step of transferring the portable pulley device 5 from one semi-sub type floating body 1a to the other semi-sub type floating body 1b by the transfer device 6, and the other semi-sub type floating body 1b. An installation process for fixing the portable pulley device 5 to the cable, a tension process for compressing the elastic body 2 by tensioning the cable 4 by the winch 7, and a cable 4 being relaxed by the winch 7 to loosen the one semi-sub floating body 1a and the other. And a relaxation step of separating the semi-sub floating body 1b.

  The placement step is a step of placing the semi-sub floating bodies 1a and 1b to be connected on the water as shown in FIG. The semi-sub floating body 1a and the semi-sub floating body 1b have the same shape and configuration as the semi-sub floating body 1 shown in FIGS. 1 (A) to 1 (C).

  The approaching step is a step of bringing the side surface 12a of the semi-sub type floating body 1a and the side surface 12a of the semi-sub type floating body 1b closer to the extent that the elastic body 2 comes into contact as shown in FIG. Specifically, the side surface 12a having the accommodating space 12c of the semi-sub floating body 1a and the side surface 12a having the accommodating space 12d of the semi-sub floating body 1b are brought close to each other. At this time, the propulsion device 11a of either the semi-sub floating body 1a or the semi-sub floating body 1b may be operated to approach, or both the semi-sub floating body 1a and the semi-sub floating body 1b may be operated to approach. You may let them. Moreover, you may make it make the semisub type | mold floating body 1a and the semisub type | mold floating body 1b approach using other means, such as a tugboat.

  In the transfer process, as shown in FIGS. 3A and 3B, the transportable pulley device 5 is transferred to the accommodating space 12d of the semi-sub floating body 1b using the transfer device 6 of the semi-sub floating body 1a. It is a process to mount. First, as shown in FIG. 3A, the rail 61 of the transfer device 6 is extended to the accommodation space 12d. Next, as shown in FIG. 3B, the carriage 62 from which the portable pulley device 5 is lifted is moved along the rail 61. Thereafter, the portable pulley device 5 is lowered from the carriage 62 onto the floor surface of the accommodation space 12d. This work is performed by a worker.

  As shown in FIG. 4A, the installation process is a process of fixing the portable pulley device 5 lowered in the accommodation space 12d to the floor surface using a jig such as a shackle. Such work is performed by a worker. Through this installation process, the semi-sub floating body 1a and the semi-sub floating body 1b are connected via the cable 4. In addition, after taking down the portable pulley apparatus 5 from the trolley | bogie 62, the rail 61 and the trolley | bogie 62 are returned in the accommodation space 12c of the semi-sub type floating body 1a.

  In the tensioning process, as shown in FIG. 4B, the cable 4 is wound around the winch 7 and is wound around the fixed pulley device 3 of the semi-sub floating body 1a and the portable pulley device 5 of the semi-sub floating body 1b. In this step, the length of the cable 4 is shortened. At this time, the side surface 12a of the semi-sub floating body 1a and the side surface 12a of the semi-sub floating body 1b approach each other, and the elastic body 2 is compressed by the side surface 12a. By this tensioning process, the semi-sub floating body 1a and the semi-sub floating body 1b can be firmly connected.

  In the connection method according to the present embodiment, since the semi-sub floating body 1a and the semi-sub floating body 1b are connected via the cable 4, relative movement is performed between the semi-sub floating body 1a and the semi-sub floating body 1b. Even if it occurs, it can be handled flexibly. Further, since the elastic body 2 is sandwiched between the side surfaces 12a of the semi-sub type floating body 1a and the semi-sub type floating body 1b, the relative motion generated between the semi-sub type floating body 1a and the semi-sub type floating body 1b by the frictional force and the elastic force. Can be reduced.

  As shown in FIGS. 5A and 5B, the relaxation process is a process of adjusting the distance between the semi-sub floating body 1a and the semi-sub floating body 1b by pulling out the cable 4. When sea conditions and weather conditions are good, the water surface is generally calm. In this case, as shown in FIG. 4 (B), it is preferable to keep the elastic body 2 in a compressed state. . On the other hand, when sea conditions and weather conditions deteriorate, the waves increase and the relative motion generated between the semi-sub floating body 1a and the semi-sub floating body 1b increases. At this time, if the tensioned state shown in FIG. 4B is maintained, a large load is applied to the semi-sub floating body 1a and the semi-sub floating body 1b.

  Therefore, in the present embodiment, the semi-sub floating body 1a and the semi-sub floating body 1b are drawn by pulling the cable 4 from the winch 7 at the time of the middle wave shown in FIG. 5A or the big wave shown in FIG. The distance is adjusted. After that, when the sea conditions and weather conditions are improved, the cable 4 can be wound up again by the winch 7 to return to the tension state shown in FIG. Thus, according to the connection method according to the present embodiment, the connection state can be arbitrarily changed according to the sea condition and the weather condition.

  Here, FIG. 6 is an explanatory view showing an example of the connection state of the semi-sub floating body. By repeating the connection method of the semi-sub floating bodies 1a and 1b described above, a plurality of semi-sub floating bodies 1a to 1c can be connected to form a large floating structure. For example, as shown in the figure, when a plurality of semi-sub floating bodies 1a to 1c are connected in the longitudinal direction, the leading semi-sub floating body 1c has no semi-sub floating body to be connected in front, so that the fixed pulley device 3. The portable pulley device 5 and the winch 7 may be omitted. Instead, the leading semi-sub floating body 1c may have a turret 15 that supports the mooring line 14 so as to be able to turn.

  Here, the case where three semi-sub floating bodies 1a to 1c are connected in the longitudinal direction is illustrated, but the number of semi-sub floating bodies 1 to be connected may be four or more, or the first semi-sub floating body The semi-sub floating body 1 having the same structure as the other semi-sub floating bodies 1b and 1c may be applied to the floating body 1a. Further, although not shown, the housing spaces 12c and 12d may be arranged on the side surface 12b in the short direction, and a plurality of semi-sub floating bodies may be connected in the short direction.

  According to the connection method of the semi-sub type floating body 1 and the semi-sub type floating bodies 1a and 1b according to the above-described embodiment, the fixed pulley device 3 arranged in one semi-sub type floating body 1a and the other semi-sub type floating body 1b are transferred. The semi-sub floating bodies 1a and 1b are connected to each other by a cable 4 whose length can be adjusted by the portable pulley device 5 that is fixed and fixed. The semi-sub floating bodies 1a and 1b can be separated from each other by loosening the cable 4 during stormy weather. Therefore, it is possible to reduce the load during stormy weather while suppressing the relative movement between the floating bodies during sunny weather.

  Moreover, according to the connection method of the semi-sub type floating body 1 and the semi-sub type floating bodies 1a and 1b according to the present embodiment, since the upper hulls 12 of the semi-sub type floating body 1 are connected to each other, the floating bodies are connected in water. There is no need to reduce the burden of connection work, shorten the connection time, and reduce the burden of maintenance.

  Next, a semi-sub floating body 1 according to another embodiment of the present invention will be described with reference to FIGS. 7 (A) to 8 (B). Here, FIG. 7 is a figure which shows the semi-sub type | mold floating body which concerns on other embodiment of this invention, (A) has shown 2nd embodiment, (B) has shown 3rd embodiment. FIG. 8 is a diagram showing a semi-sub floating body according to another embodiment of the present invention, in which (A) shows the fourth embodiment and (B) shows the fifth embodiment. In addition, about the component same as the semi-sub type floating body 1 which concerns on 1st embodiment mentioned above, the same code | symbol is attached | subjected and the overlapping description is abbreviate | omitted.

  The semi-sub floating body 1 according to the second embodiment shown in FIG. 7A is obtained by changing the position of the elastic body 2. Specifically, the elastic body 2 is disposed on the side surface 12a where the accommodation space 12d is formed. Even with such a configuration, the elastic body 2 can be held between the side surfaces 12a of the semi-sub floating bodies 1 adjacent to each other at the time of connection.

  The semi-sub floating body 1 according to the third embodiment shown in FIG. 7B includes an elastic body 2, a fixed pulley device 3, a portable pulley device 5, a transfer device 6 and a winch 7 in the longitudinal direction of the semi-sub floating body 1. These are arranged on both the side surface 12a and the side surface 12b in the short direction. According to this embodiment, a plurality of semi-sub type floating bodies 1 can be connected in both the longitudinal direction and the short direction, and a floating structure having a large area can be formed.

  The semi-sub floating body 1 according to the fourth embodiment shown in FIG. 8A is configured by configuring the transfer device 6 with a crane device. The transfer device 6 is configured by, for example, an A frame crane. At this time, from the viewpoint of workability, the upper fixed pulley device 3 and the transfer device 6 are fixed to the floor surface of the accommodation space 12c, and the lower fixed pulley device 3 and the transfer device 6 are attached to the ceiling surface of the accommodation space 12c. It may be fixed. Moreover, in order to ensure the space where the arm of a crane apparatus moves, you may comprise so that the upper surface and lower surface of the upper hull 12 can be open | released. In addition, the crane apparatus which comprises the transfer apparatus 6 is not limited to A frame crane, A jib crane etc. may be sufficient.

  In the semi-sub floating body 1 according to the fifth embodiment shown in FIG. 8B, the transfer device 6 is constituted by a fork device. The transfer device 6 transfers the portable pulley device 5 by, for example, expanding and contracting a fork on which the portable pulley device 5 is placed. In addition, although not shown in figure, the transfer apparatus 6 may be comprised with the rail which can be expanded-contracted, and the trolley | bogie which can drive | work on a rail instead of a fork device.

  The present invention is not limited to the above-described embodiments, and various modifications can be made without departing from the spirit of the present invention.

1, 1a, 1b, 1c Semi-sub floating body 2 Elastic body 3 Fixed pulley device 4 Cable 5 Portable pulley device 6 Transfer device 7 Winch 11 Lower hull 11a Propulsion device 12 Upper hull 12a, 12b Side surfaces 12c, 12d Storage space 13 Column 14 Mooring line 15 Turret 31 First fixed pulley device 32 Second fixed pulley device 33 Third fixed pulley device 34 Fourth fixed pulley device 51 First portable pulley device 52 Second portable pulley device 53 Third portable pulley device 54 Fourth portable pulley device 61 Rail 62 Cart

Claims (8)

In a semi-sub floating body comprising a lower hull disposed in water, an upper hull disposed on water, and a plurality of columns connecting the lower hull and the upper hull,
An elastic body disposed on a side surface of the upper hull;
A fixed pulley device disposed in the upper hull;
A portable pulley device connected to the fixed pulley device via a cable;
A transfer device for transferring the portable pulley device to a semi-sub floating body to be connected;
A winch for adjusting the length of the cable;
A semi-sub floating body characterized by comprising:   The fixed pulley device includes a first fixed pulley device disposed on the upper hull and on one end side of the connection surface, and a second fixed pulley device disposed on the upper hull and the other end side of the connection surface. A third fixed pulley device disposed on the lower end of the upper hull and on one end side of the connection surface, and a fourth fixed pulley device disposed on the lower end of the upper hull and the other end side of the connection surface, The portable pulley device is connected to the first portable pulley device connected to the first fixed pulley device, the second portable pulley device connected to the second fixed pulley device, and the third fixed pulley device. The semi-sub floating body according to claim 1, further comprising: a third transportable pulley device and a fourth transportable pulley device connected to the fourth fixed pulley device.   The semi-sub floating body according to claim 2, wherein the elastic body is disposed at a central portion of the connection surface.   The semi-sub floating body according to claim 1, wherein the transfer device includes any of a trolley hoist, a crane device, and a fork device.   The semi-sub floating body according to claim 1, wherein the lower hull includes a plurality of propulsion devices.   The elastic body, the fixed pulley device, the portable pulley device, the transfer device, and the winch are arranged on both the longitudinal side surface and the lateral side surface of the semi-sub floating body. The semi-sub type floating body according to claim 1. A semi-sub type floating body connection method for connecting semi-sub type floating bodies, which includes a lower hull arranged in water, an upper hull arranged on water, and a plurality of columns connecting the lower hull and the upper hull. ,
The semi-sub floating body includes an elastic body arranged on a side surface of the upper hull, a fixed pulley device arranged on the upper hull, a portable pulley device connected to the fixed pulley device via a cable, A transfer device for transferring the portable pulley device to the semi-sub floating body to be connected, and a winch for adjusting the length of the cable,
An approach step of bringing the side surface of the other semi-sub floating body closer to the side surface of one semi-sub floating body;
A transfer step of transferring the portable pulley device from the one semi-sub type floating body to the other semi-sub type floating body by the transfer device;
An installation step of fixing the portable pulley device to the other semi-sub floating body;
A tensioning step of compressing the elastic body by tensioning the cable by the winch;
A semi-sub floating body connection method comprising: 8. The method of connecting semi-sub floating bodies according to claim 7, further comprising a relaxing step of relaxing the cable by the winch to separate the one semi-sub floating body from the other semi-sub floating body.