KR102095380B1 - Apparatus for installing mooring line of marine structure and Method for installing mooring line of marine structure - Google Patents

Abstract

Provided are an apparatus for installing a mooring line of a marine structure and a method for installing a mooring line of a marine structure. The apparatus for installing a mooring line of a marine structure includes: a plurality of floating bodies spaced apart from each other to float on the sea surface and having at least one slot part into which an end portion of a mooring wire connected to the sea surface is inserted to be fixed; a connecting chain connecting the floating bodies; and a coupling module fixing the mooring wire to the slot part.

Description

Apparatus for installing mooring line of marine structure and Method for installing mooring line of marine structure}

The present invention relates to an installation device and an installation method of a mooring line, and more specifically, a mooring line installation device and a mooring line installation method of an offshore structure capable of safely, promptly and conveniently proceeding with the installation process. It is about.

Vessels travel on the sea, but may stay at a specific point in the sea as needed. For example, in the case of special purpose ships (drill ships, offshore structures, etc.) that perform operations such as crude oil mining at sea, they often stay at the site for a relatively long time and perform work.

However, it is not easy to maintain a fixed position for a long time due to the nature of the ship floating on the sea. The influence of the current and the weather conditions at sea, which change from time to time, are the main reasons for changing the ship's position. Even if a hull propulsion device or posture control device is used, there may be limitations in maintaining a constant position at sea.

For this reason, a technique of connecting a wire equipment or the like between the ship and the seabed to moore the ship is used. A mooring line is a kind of fixed structure formed by using wire equipment or the like to moore a ship, and consists of a number of wires (eg, Korean Patent Registration No. 10-0943457, etc.).

However, there are various problems, such as the installation or dismantling of the mooring line, which is not easy, and the installation time is delayed. In particular, the conventional installation method that requires lifting of mooring wires and diving equipment such as ROV repeatedly moves between the ship and the sea floor has low work efficiency, requires additional manpower such as operation of diving equipment, As there was a possibility that predictability would decrease and safety accidents would increase, more effective technical alternatives were needed.

Republic of Korea Registered Patent Publication No. 10-0943457, (2010. 02. 22)

The technical problem of the present invention is to solve this problem, and provides a mooring line installation apparatus and a mooring line installation method of an offshore structure that can safely, quickly and conveniently proceed with the installation process of the mooring line. Is to do.

The technical problem of the present invention is not limited to the problems mentioned above, and other technical problems not mentioned will be clearly understood by those skilled in the art from the following description.

The mooring line installation apparatus of the offshore structure according to the present invention is spaced apart from each other on the sea surface, and a plurality of floating bodies formed with at least one slot portion to which the ends of the mooring wires connected to the sea bottom are inserted and fixed; A connecting chain connecting between the floating bodies; And a coupling module fixing the mooring wire to the slot.

The floating body may be dispersedly disposed around the mooring point of the offshore structure moored by the mooring wire.

The floating body is disposed radially around the mooring point and the connection chain is arranged in a ring shape around the mooring point, wherein at least one of the connection chains between the floating bodies is removed to remove the marine structure. A moving passage of may be formed.

It is connected to the end of the mooring wire may further include a locking ring floating on the sea surface.

The slot portion is formed by indentation of the side of the floating body and extends in the vertical direction so that the mooring wire can be inserted into the side of the floating body or released from the side.

The coupling module may include at least one locking bar that penetrates the mooring wire and is fixed to an upper portion of the slot portion to support the load of the mooring wire at at least one point.

Floating in the water and supporting the mooring wire with buoyancy may further include a buoyancy support for dispersing the load acting on the floating body.

The method of installing a mooring line of an offshore structure according to the present invention is at least floating to surround the mooring point of the offshore structure that is separated from each other by the mooring wire spaced apart from each other at sea level, and at least the end of the mooring wire connected to the sea bottom is inserted and fixed. Mooring of an offshore structure by a mooring line installation device including a plurality of floating bodies formed with one slot portion, a connecting chain connecting between the floating bodies, and a coupling module fixing the mooring wire to the slot portion. A line installation method comprising: (a) moving the offshore structure to the mooring point; And (b) connecting the mooring wire to the marine structure by moving the marine structure from the mooring point to the floating body.

In the step (b), the mooring wires may be connected by repeating the process of connecting the mooring wires first from any one of the plurality of floating bodies and moving to the other to connect the other mooring wires.

According to the present invention, the installation of the mooring line of the offshore structure made at sea can be carried out very quickly and conveniently. In particular, the mooring line of offshore structures can be installed very easily and quickly on the sea level without relying on difficult tasks such as lifting mooring wires from the seabed. In addition, even when the mooring line is dismantled and recovered, it is also possible to easily and quickly work on the sea level, minimizing excessive underwater work with a high risk of accident, and stably installing and dismantling the mooring line. Through this, the stability, speed, and convenience of the installation process can be secured, and various synergistic effects such as an increase in work efficiency and a decrease in work time can be obtained together.

1 is a perspective view of a mooring line installation device for offshore structures according to an embodiment of the present invention.
FIG. 2 is a plan view of the mooring line installation device of FIG. 1.
3 is a front view of the mooring line installation device of FIG.
FIG. 4 is a partially enlarged view showing a part of the mooring line installation device of FIG. 1 in an enlarged scale.
5 to 9 are views sequentially showing a method of installing a mooring line of an offshore structure according to an embodiment of the present invention.

Advantages and features of the present invention and methods for achieving them will be clarified with reference to embodiments described below in detail together with the accompanying drawings. However, the present invention is not limited to the embodiments disclosed below, but may be implemented in various different forms, and only the present embodiments allow the disclosure of the present invention to be complete and the ordinary knowledge in the art to which the present invention pertains. It is provided to fully inform the possessor of the scope of the invention, and the invention is only defined by the claims. Throughout the specification, the same reference numerals refer to the same components.

Hereinafter, with reference to FIGS. 1 to 9, the mooring line installation apparatus and the mooring line installation method of the marine structure according to an embodiment of the present invention will be described in detail. For the sake of brevity and clarity, first, the mooring line installation apparatus for offshore structures will be described in detail with reference to FIGS. 1 to 4, and then the mooring line installation method for offshore structures will be described in detail.

1 is a perspective view of a mooring line installation device of an offshore structure according to an embodiment of the present invention, Figure 2 is a plan view of the mooring line installation device of Figure 1, Figure 3 is a front view of the mooring line installation device of Figure 1, FIG. 4 is an enlarged partial view showing a part of the mooring line installation device of FIG.

1 to 4, the mooring line installation device 1 (hereinafter, the mooring line installation device) of the offshore structure of the present invention floats the mooring wire A on the sea surface (see C in FIG. 3) to position it. To maintain. The mooring line installation device (1) floats a plurality of mooring wires (A) in the mooring point area to form a connection point for easy access to offshore structures, and the offshore structures (see B in Figs. By moving these connection points along C), the connection operation with the mooring wire (A) can be carried out very conveniently and quickly. The mooring line installation device (1) can be withdrawn from the sea area when the connection is completed, and can be used very conveniently even when dismantling by relocating the mooring wire (A) to the sea area when it is separated or recovered from the offshore structure (B). .

The mooring line installation device 1 is configured as follows. The mooring line installation device (1) of the offshore structure is floating apart from each other on the sea surface (C), and a plurality of floating bodies formed with at least one slot portion (110) fixed by inserting and fixing the end portions of the mooring wire connected to the sea bottom surface It includes (100), a connecting chain (200) connecting between the floating body (100), and a coupling module (120) for fixing the mooring wire (A) to the slot part (110). According to an embodiment of the present invention, the floating body 100 may be distributedly disposed surrounding the mooring point of the marine structure moored by the mooring wire (A), and the distance between the floating body 100 by the connection chain 200 By adjusting and maintaining the above, it is possible to form a connection point to which the offshore structure is easily accessible, as described above, at an appropriate location on the sea level (C). Hereinafter, the configuration and effect of the present invention will be described in more detail with reference to each drawing.

The floating body 100 may float at sea level (see C in FIG. 3) with buoyancy as shown in FIGS. 1 to 4. The floating body 100 can be manufactured by utilizing suitable materials and efficient structural design to have sufficient buoyancy. For example, the floating body 100 may use a material having sufficient hardness but having a density lower than that of seawater, and a ballast tank capable of forcibly entering and leaving fluid may also be included therein. The floating body 100 may be formed in a block shape as shown, but need not be limited as such, and the appearance or implementation method may be variously changed. The floating body 100 may be formed in various ways within a limit capable of floating on the sea level C by canceling the load of the mooring wire A by buoyancy.

The mooring wire (A) is a structure that is connected to an offshore structure at sea to form a mooring line, and may be made of, for example, refractory wire. The mooring wire (A) may include a part of the chain (see Aa in FIG. 4), etc. as necessary, and the material or the forming method may be variously changed. The mooring wire (A) may be connected to, for example, an offshore structure (see B in FIGS. 5 to 9) above the sea level (C) and an undersea surface to maintain the offshore structure in a mooring position. The mooring wire (A) may be connected to different points of the offshore structure to provide traction in different directions and form a mooring line to maintain the position of the offshore structure. One end of the mooring wire (A) may be installed on the sea floor, and the other end may be connected to the offshore structure to provide traction. The installation process of the mooring line will be described in more detail below.

The floating body 100 may be formed with a slot 110. 1 to 4, the slot portion 110 is formed on the outer surface of the floating body 100, the mooring wire (A) is fixed to the end portion is inserted into the slot portion 110 or the slot portion 110 ). In particular, as shown in FIG. 4, a plurality of slot portions 110 may be formed on the side of the floating body 100, and a plurality of mooring wires A may be arranged side by side in each slot portion 110 to be inserted. You can. That is, the slot 110 is a structure outside the floating body 100 into which the mooring wire A is inserted or discharged, and serves to more firmly support the floating body 100 by receiving the end of the mooring wire A. You can. In addition, the slot unit 110 may also serve to help the connection operation with the offshore structures more easily when the mooring line is installed by exposing the set of aligned mooring wires A to the sea level C. The slot portion 110 may be formed, for example, by indenting the side of the floating body 100 and extending vertically to the side of the floating body 100 to be exposed over the sea level C as shown. . The mooring wire A may be inserted into the side of the floating body 100 on which the slot portion 110 is formed or may be detached from the side.

The coupling module 120 may serve to fix the mooring wire (A) to the slot portion 110 or to detach it from the slot portion 110. The coupling module 120 may be formed in each of the plurality of slots 110 as shown in FIG. 4. The coupling module 120 is, for example, formed of a structure that can be fixed by pressing the mooring wire (A) inserted into each slot portion 110, or is formed of a structure capable of supporting a load, or It may be implemented in various ways, such as one or more different fixing structures are formed in a complex. As an example, the coupling module 120 includes a locking bar 121 that penetrates the mooring wire (A) and is fixed to the top of the slot portion 110 to support the load of the mooring wire (A). can do. The number of the locking bars 121 may be provided in one or a plurality, and the number of installations and the installation positions may be appropriately changed as necessary, such as when the size of the floating body 100 is sufficiently large. The locking bar 121 can support the load of the mooring wire (A) at at least one point, and thus, it is possible to distribute and support the load of the mooring wire (A) at different points by placing a plurality of them at different points. Do. The locking bar 121 can be coupled through a chain (Aa) formed at the end of the mooring wire (A), and if the mooring wire (A) includes a chain (Aa) structure as in this embodiment, this fixing method It can be effective. The engaging bar 121 may be coupled to a driving device, for example, and driven by a sliding method, or may be driven by a folding method using a hinge. By operating the locking bar 121, the mooring wire A can be fixed or the fixed state can be released. However, it is not necessary to understand in a limited manner as described above, and in addition, it is effectively fixed to the end of the mooring wire A inserted in the slot portion 110 and also combined in various forms that can be released from the slot portion 110 by releasing the fixed state. The module 120 may be formed.

Although not shown, a mooring wire (A) in the slot portion 110, such as a holder or a lifting device that can change the position of the holder by holding one side of the mooring wire (A) inside the slot portion 110 A structure that can further adjust the position of the may be included. If necessary, the mooring wire (A) is inserted into the slot part (110), fixed and discharged again, and connected directly to the offshore structure, so that the offshore line of the offshore structure can be installed very quickly and conveniently. As shown in Figures 1 to 4, the end of the mooring wire (A) inserted into the slot portion 110 can be connected to the hook ring 130 floating on the sea surface (C), and the hook ring 130 ), The mooring wire (A) can be very easily combined with the hull. The engaging ring 130 may be formed of a buoyant body and float on the sea surface C, and may be connected to the end of the mooring wire A through a connecting body 131 such as a wire. The connection method of the mooring wire A using the locking ring 130 is also described in more detail below.

The mooring line installation device 1 may include a plurality of floating bodies 100 as shown in FIGS. 1 to 3. In particular, the floating body 100 is arranged radially around the mooring point of the offshore structure and the connection chain 200 is arranged in a ring shape around the mooring point, and at least one connection between the floating body 100 is connected. The chain can be removed to form a moving passage for offshore structures. That is, as shown, a plurality of floating bodies 100 and the connecting chain 200 are arranged in a form surrounding the mooring point, but some of them may be formed in an open structure without forming the connecting chain 200. At this time, the ring shape does not necessarily mean a circular shape, and may mean a shape surrounding the mooring point by connecting the floating body 100 radially arranged around the mooring point. Since some of the connection chains are removed, for example, a plurality of floating bodies 100 and the connection chains 200 may be arranged in a U-shaped form. The connecting chain 200 is connected between the plurality of floating bodies 100 as illustrated to adjust the distance of the floating bodies 100 by tension, and thus, the plurality of floating bodies 100 disposed at different positions It is possible to maintain a defined formation while minimizing distance fluctuations. If necessary, it is also possible to additionally install a posture control device under the floating body 100.

The mooring line installation device 1 may include a buoyancy support portion 300 that floats underwater and supports the mooring wire A with buoyancy to disperse the load acting on the floating body 100. 1 to 3, the buoyancy support unit 300 is formed of an underwater floating fluid floating in the water, and can offset and disperse the load of the mooring wire A by buoyancy. Through this, the above-mentioned floating body 100 and the slot portion 110 can reduce the limit load, etc. that must be withstood to fix the mooring wire (A), and the buoyant support portion 300 is used to mooring wire (A) in the water. It is possible to more easily adjust the arrangement of the. The buoyancy support unit 300 may be formed to be capable of controlling buoyancy, including, for example, a ballastable structure, but need not be limited as such, and may be implemented in various ways that can float in the water. Although not shown, it is possible to further form a connection wire or the like connecting the buoyancy support unit 300 and the floating body 100 as necessary.

The mooring line installation apparatus 1 of the present invention can maintain and maintain the mooring wire (A) floating on the sea surface (C) as shown in FIGS. 1 to 3 through the above-described structural features, and also, a plurality of floating bodies A plurality of mooring wires A may be dispersedly disposed at different positions around the mooring point with (100). In addition, through this, it is possible to form an easily accessible connection point for offshore structures to induce the mooring line installation process to proceed more smoothly. The mooring line installation device 1 of the present invention can more conveniently and quickly install the mooring line of an offshore structure. Hereinafter, the mooring line installation method of the present invention will be described in more detail through examples described below.

Hereinafter, a description of a method for installing a mooring line of an offshore structure will be made with reference to FIGS. 1 to 9 as a whole. For the sake of brevity and clarity, the description of the above-described components is not repeated, but is replaced by the above-described description. Hereinafter, the description of the mooring line installation method and the description of the above-described mooring line installation device may be cross-referenced within the limits that do not contradict.

5 to 9 are views sequentially showing a method of installing a mooring line of an offshore structure according to an embodiment of the present invention.

1 to 9, a method for installing a mooring line of an offshore structure according to an embodiment of the present invention (hereinafter, a method for installing a mooring line) may include the following steps. The mooring line installation method of offshore structures is floating around the mooring points of offshore structures (see B in Figs. 5 to 9) that are separated from each other at sea level (see Fig. 3C) and moored by the mooring wire (A). , A plurality of floating bodies 100 having at least one slot 110 to which the ends of the mooring wires A connected to the sea bottom are inserted and fixed, and a connecting chain 200 connecting between the floating bodies 100 And, in the method of installing the mooring line of the offshore structure by the mooring line installation device (1) of the offshore structure comprising a coupling module 120 for fixing the mooring wire (A) to the slot 110, (a) Moving the marine structure (B) to a mooring point; And (b) moving the marine structure (B) from the mooring point to the floating body 100 to connect the mooring wire (A) to the marine structure (B). That is, the mooring line installation method of the present invention is a method that can be performed using the above-described mooring line installation device, and the specific processes will be described in more detail below.

First, the mooring wire A can be floated by configuring the mooring line installation device 1 as described above. For example, as described above, one end of the mooring wire A installed on the sea bottom surface may be suspended at the sea level (see FIG. 3C) by combining the other end of the mooring wire A with the floating body 100. This state may be a state as illustrated in FIGS. 1 to 3 described above. This process can be performed by combining the other end of the mooring wire (A) with the slot portion 110 formed on the outer surface of the floating body 100 floating on the sea surface (C) to float, thereby forming the arrangement It may be the same as the arrangement of the mooring line installation device 1 of Figures 1 to 3 described above. Therefore, the detailed description in this regard is replaced by the above description. In this way, the floating body 100 and the mooring wire A are directly combined to float, and the terminal position of the mooring wire A and the overall arrangement of the plurality of mooring wires A are properly adjusted, and the mooring wire using slots The alignment effect of (A) can also be obtained.

Thereafter, as shown in FIGS. 5 to 9, the offshore structure (B) is moved to the mooring point (which may be an area surrounded by the mooring line installation device 1), and the offshore structure (B) is moved from the mooring point. Move to the floating body 100 to connect the mooring wire (A) to the offshore structure (B). That is, by connecting the offshore structure (B) to the other end of the mooring wire (A) at sea level (see C in FIG. 3), it is possible to provide traction to at least one side of the offshore structure (B) and the mooring wire (A) It is possible to limit the movement of the offshore structure (B) with the traction force of. By providing this traction force symmetrically based on the rotational center of the offshore structure B (ie, the center of gravity), the offshore structure B can be moored more stably and maintain its position. The connection of the mooring wire (A) and the offshore structure (B) is all done on the sea level (C), and the offshore structure (B) actively moves the connection point where the end of the mooring wire (A) is located and quickly mooring Lines can be formed. In particular, the offshore structure (B) is repeatedly connected to the other mooring wire (A) by first connecting the mooring wire (A) from any one of the plurality of floating bodies (100) and mooring wire (A). You can connect them all. Hereinafter, this process will be described in more detail.

As shown in FIG. 5, the offshore structure (B) may first access any one of the plurality of floating bodies 100 distributed around the sea area of the mooring point. The arrangement of the floating body 100 may be determined in accordance with the shape of the offshore structure B, and accordingly, for example, as shown in the drawing, the arrangement of the U-shape on which the access path of the offshore structure B is formed may be formed. You can. The specific method of forming this arrangement has been described above. In particular, the marine structure (B) is made of a rectangular hull having a symmetrical structure, not a general streamlined hull. This arrangement is very useful. As such, the offshore structure (B) is approached to the floating body (100), and the mooring wire fixed to the floating body (100) can be directly connected by moving it to the offshore structure (B) on the sea surface (C). Offshore structures (B) may be moved by propulsion by a self-propelled device, or may be moved by a traction method connected to a tow line (which may be one or more).

The mooring wire (A) can be more conveniently connected to the offshore structure (B) by using the above-described engaging ring portion (130). That is, while being connected to the mooring wire (A), the hook hook (see 130 in FIG. 4) floating on the sea surface (C) can be hooked to the offshore structure (B) to pull the mooring wire (A) into the ocean. It can be easily combined by moving to the structure (B) side. At this time, the fixed state of the above-described coupling module 120 is released, and the mooring wire A can be easily discharged from the slot part 110. The mooring wire (A) is coupled to various types of fixed structures formed on the outer surface of the hull and can be connected to the marine structure (B).

Then, as shown in Figure 6, the offshore structure (B) can be connected to the mooring wire (A) on one side and move to the other floating body (100) side. Since the movement occurs within the watershed of the mooring point, the movement interval may be relatively short, for example, moving diagonally as shown to connect the mooring wire (A) symmetrically to the opposite side of the center of gravity of the offshore structure (B). I can do it. The distance between the floating bodies 100 can be appropriately adjusted as needed, and through this, the moving distance of the offshore structure B can be appropriately reduced. The connection method of the mooring wire A may be substantially the same as the aforementioned method. In this way, the offshore structure (B) can be reciprocally moved between the floating bodies, and the mooring wire (A) can be symmetrically connected to opposite sides of the center of gravity of the offshore structure (B).

Thereafter, as illustrated in FIG. 7, the connection process of the mooring wire A may also be performed symmetrically with respect to the other side of the offshore structure B. The direction of movement of the offshore structure (B) is exemplary and can be changed depending on the situation. In any such case, after connecting the mooring wire (A) to one side of the offshore structure (B), the mooring wire (A) is symmetrically connected to the other side of the other side of the center of gravity by symmetrically connecting the mooring wire (A). ) To maintain the traction provided by the balance as much as possible. As described above, if the distance between the floating bodies 100 is adjusted, the moving distance of the marine structures B can be greatly reduced, and thus the marine structures B are moved between the floating bodies on the sea level C and quickly mooring wires. (A) can be connected.

Afterwards, as shown in FIG. 8, by repeating this process, the entire number of mooring wires A fixed to each floating body 100 can be fastly and conveniently fastened to the offshore structure B. Through this, as shown in FIGS. 8 and 9, a mooring line composed of a plurality of mooring wires (A) can be formed to stably moore the marine structure (B) to a desired point. As illustrated in FIG. 9, after the installation process is completed, the entire mooring line installation device 1 can be withdrawn from the sea, and unnecessary interference can be eliminated through the installation. In addition, if the installed mooring line is to be dismantled again, it is also possible to remove the mooring line very quickly and conveniently by rearranging the mooring line installation device 1 and proceeding with the above-described installation process in reverse.

Although the embodiments of the present invention have been described with reference to the accompanying drawings, those skilled in the art to which the present invention pertains may be implemented in other specific forms without changing the technical spirit or essential features of the present invention. You will understand. Therefore, it should be understood that the embodiments described above are illustrative in all respects and not restrictive.

1: Mooring line installation device for offshore structures
100: floating body 110: slot
120: coupling module 121: jam bar
130: hook portion 131: connecting body
200: connection chain 300: buoyancy support
A: Mooring wire Aa: Chain
B: Offshore structures C: Sea level

Claims (9)

A plurality of floating bodies spaced apart from each other on the sea surface and formed with at least one slot portion to which the ends of the mooring wires connected to the sea bottom are inserted and fixed;
A connecting chain connecting between the floating bodies; And
It includes a coupling module for fixing the mooring wire to the slot portion,
The floating body is distributedly arranged around the mooring point of the offshore structure moored by the mooring wire, but is radially arranged around the mooring point,
The connecting chain is arranged in a ring shape around the mooring point, but at least one of the connecting chains between the floating bodies is removed to form a mooring line installation device for a marine structure in which a moving passage of the marine structure is formed. delete delete According to claim 1,
Mooring line installation device of the offshore structure further connected to the end of the mooring wire, the hook portion floating in the sea surface. According to claim 1,
The slot portion is formed by the indentation of the side of the floating body and extends in the vertical direction, the mooring line installation device of the offshore structure where the mooring wire is inserted into or detached from the side of the floating body. According to claim 1,
The coupling module is installed on the mooring line of the offshore structure including at least one locking bar that penetrates the mooring wire and is fixed to the upper portion of the slot to support the load of the mooring wire at at least one point. According to claim 1,
A mooring line installation device for offshore structures further comprising a buoyancy support that floats in the water and supports the mooring wire with buoyancy to distribute the load acting on the floating body. A plurality of floating bodies formed with at least one slot portion which is spaced apart from each other on the sea surface and is distributed and floating around the mooring points of the marine structures moored by the mooring wires, and inserted and fixed at the ends of the mooring wires connected to the sea bottom. , A connecting chain connecting between the floating bodies, and a coupling module for fixing the mooring wire to the slot, wherein the floating body is disposed radially around the mooring point, and the connecting chain is the mooring point. A mooring line installation of an offshore structure by a mooring line installation device disposed in a ring shape with respect to, but at least one of the floating chains between the floating bodies is removed to form a movement passage for the offshore structure. In the way,
(a) moving the offshore structure to the mooring point; And
(b) moving the marine structure from the mooring point to the floating body, thereby connecting the mooring wire to the marine structure. The method of claim 8,
In step (b), the mooring of the offshore structure connecting all of the mooring wires by repeating the process of connecting the mooring wires to one of the plurality of floating bodies first, and then moving the other to the other mooring wires. How to install the line.

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