FI128398B - Rope-handling system, special purpose craft, use of the rope-handling system and guiding pole - Google Patents

Abstract

The disclosure relates to a ropehandling system, which is characterized in that it comprises a guiding pole (1) that is convertible between an operating configuration and a storage configuration, the guiding pole comprising pivotable arms (11) forming a Y fork (12) in the extended position of the guiding pole. The system further comprises lineengaging means (13) releasably attachable at the base of the arms (14) and connectable to an attachment rope (3), wherein the line-engaging (13) means comprises a line trap (131) for catching a monkey-fist (51) of a heaving line (5) when the heaving line is directed between the arms (11) of the Y fork (12) from a vessel. The disclosure further relates to a special purpose craft and to a guiding pole.

Description

ROPE-HANDLING SYSTEM, SPECIAL PURPOSE CRAFT, USE OF THE ROPE-HANDLING SYSTEM AND GUIDING POLE

TECHNICAL FIELD

The current disclosure relates to a rope handling system, to a special purpose craft and to a guiding pole.

BACKGROUND

Special purpose crafts may be used for various tasks on sea, in harbors, as well as in inland waters. For example tugboats are used for assisting other vessels in various situations, typically requiring maneuvering in restricted waters. Tugboats can either tow the assisted vessel or push it. When towing, the tugboat and the assisted vessel are normally connected by a towline. The length of the towline may be regulated by a towing winch on the tugboat. The towline is connected to a bollard on the assisted vessel. The tasks performed by special purpose crafts may range from ice breaking to waterway maintenance, including various situations that might necessitate the attachment of a vessel to another through a rope. A similar

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system	can also	be used	for	mooring	a	vessel	at	a
berth.	The usual manner	to	connect	a	vessel	to	a
special	purpose	craft or	to	a berth	is	to throw	a

heaving line from the vessel being attached on the deck of the special purpose craft or on the berth, re30 spectively. A crew member on the special purpose craft then picks the heaving line and ties it to an end of the towline. The heaving line and the connected towline are then heaved to the vessel, released from each other, and the towline is secured to a bollard or oth35 er structures of the vessel. At berth the heaving line may already be connected to a mooring line of the ves sei, and a member of the mooring crew, also called a linesman, picks the heaving line and heaves the mooring line, along with the heaving line, to berth. Then, the heaving line is released form the mooring line, and the mooring line is secured to a bollard or other structures of the berth.

The manual arrangement has drawbacks, for example that a crew member is needed to be present on the deck of the special purpose craft. In harsh weath10 er, the working conditions can be uncomfortable, or even hazardous. Additionally, the heaving line has a weight attached to its end to facilitate throwing, and being hit by the weight can injure a person on deck or on berth.

Document WO2017/167892 discloses a tugboat comprising a crane or a robot arm for handling a towing line, the crane or robot arm being provided with a grasping tool for grasping a towing line.

Document US 2006/0102060 Al relates to an au20 tomatic system for taking up and handling a connecting towrope between a tugboat and a towed vessel. The system comprises a fastening carriage which moves on guides around the deck of the tugboat.

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SUMMARY

A rope-handling system according to the current disclosure is characterized in that it comprises a guiding pole that is convertible between an operating configuration and a storage configuration, the 30 guiding pole comprising pivotable arms forming a Y fork in the operating configuration of the guiding pole and line-engaging means releasably attachable at the base of the arms and connectable to an attachment rope. The line-engaging means comprises a line trap 35 for catching a monkey-fist of a heaving line when the

20185301 PRH 05 -11- 2018 heaving line is directed between the arms of the Y fork from another vessel.

The special purpose craft according to the current disclosure is characterized in that it com5 prises a rope-handling system according to the current disclosure .

The use of the rope-handling system according to the present disclosure for attaching a vessel to a special purpose craft or to a land structure is also 10 disclosed.

A guiding pole according to the present disclosure is characterized in that the guiding pole is convertible between an operating configuration and a storage configuration, the guiding pole comprising 15 pivotable arms forming a Y fork in the operating configuration of the guiding pole; and a structure for releasably attaching a line-engaging means configured to catch a monkey-fist at the base of the arms.

BRIEF DESCRIPTION OF THE DRAWINGS

The accompanying drawings, which are included to provide a further understanding of the current disclosure and constitute a part of this specification, illustrate embodiments of the disclosure and together 25 with the description help to explain the principles of the current disclosure. In the drawings:

Fig. 1 displays an embodiment of the ropehandling system according to the current disclosure with the guiding pole in a storage configuration.

Fig. 2 displays the rope-handling system according to the current disclosure in an operating configuration with an attachment rope attached to the line-engaging means.

Fig. 3 displays the attachment rope being 35 drawn to a vessel.

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Fig. 4 displays another embodiment of the current rope-handling system with the guiding pole in the storage configuration.

Fig. 5 displays yet another embodiment of the current rope-handling system and a guiding pole, with the guiding pole in an operating configuration on a berth.

Fig. 6 displays an embodiment of the lineengaging means according to the present disclosure.

DETAILED DESCRIPTION

Reference will now be made in detail to the embodiments of the present disclosure, examples of which are illustrated in the accompanying drawings.

The description below discloses some embodiments in such a detail that a person skilled in the art is able to utilize the method and apparatus based on the disclosure. Not all steps of the embodiments are discussed in detail, as many of the steps will be 20 obvious for the person skilled in the art based on this specification.

For reasons of simplicity, item numbers will be maintained in the following exemplary embodiments in the case of repeating components.

In one aspect, a rope-handling system is disclosed. In another aspect, a special purpose craft comprising the automatic rope-handling system according to the present disclosure is disclosed. In yet an30 other aspect, use of the rope-handling system for attaching a vessel to a special purpose craft or to a land structure is disclosed.

In yet another aspect, a guiding pole for catching a heaving line is disclosed. The guiding pole 35 according to the present disclosure is characterized in that the guiding pole is convertible between an operating configuration and a storage configuration. The

20185301 prh 05 -11- 2018 guiding pole comprises pivotable arms forming a Y fork in the operating configuration of the guiding pole; and a structure for releasably attaching a lineengaging means configured to catch a monkey-fist at 5 the base of the arms.

The rope-handling system according to the present disclosure is characterized in that it comprises a guiding pole that is convertible between an 10 operating configuration and a storage configuration, the guiding pole comprising pivotable arms forming a Y fork in the operating configuration of the guiding pole. The arms are typically mounted at the end of the guiding pole which is designed to be the upper end in 15 use.

The rope-handling system further comprises line-engaging means releasably attachable at the base of the arms and connectable to an attachment rope, wherein the line-engaging means comprises a line trap 20 for catching a monkey-fist of a heaving line when the heaving line is directed between the arms of the Y fork from a vessel.

The rope-handling system may remove or reduce the need of a crew member on the deck of the special 25 purpose craft when a vessel is being connected by an attachment rope. The rope-handling system is designed to catch the heaving line thrown from the vessel by the Y fork of the guiding pole. The Y fork is thus positioned so that it can catch the heaving line. A 30 heaving line is a line or a suitable rope thrown from a vessel to another vessel or to land in order to move a rope (such as a towline or a mooring line) between the vessels or between land and a vessel. The rope is attached to the heaving line, and the heaving line is 35 heaved to the direction in which the rope is meant to be moved. Oftentimes, and attachment rope is retrieved with the help of a heaving line. The structure and po

20185301 PRH 05 -11- 2018 sitioning of the line-engaging means may further allow connecting the attachment rope with the heaving line without further devices or manual steps.

In embodiments where a mooring line is moved 5 from a vessel to be moored to land for mooring, the mooring line may first be attached to the heaving line. This attachment is done suitably far away from the end with the monkey-fist, so that the monkey-fist can be flung to the Y fork on land. For example, the 10 attachment of the mooring line can take place at the opposite end of the heaving line from the monkey-fist. When the heaving line is caught by the line trap, the heaving line may be released from the line-engaging means to be heaved to land. In such an embodiment, it 15 is possible that the line-engaging means is not attached to an attachment rope on the land side.

Alternatively, a winch may be used to reel in the heaving line. As the heaving line is followed by the mooring line, the mooring line would then be posi20 tioned suitably for being attached to a bollard or the like. In such embodiments, the system may comprise a winch with an attachment rope to reel in the heaving line. The winch may be suitably configured to take in the line-engaging means and a length of the heaving 25 line.

One of the advantages of the current system and the special purpose craft is that hazards relating to connecting a vessel to another vessel or to land structures may be reduced. The line-engaging means 30 could hit a person catching the heaving line, exposing such persons to injury. In embodiments relating to special purpose crafts, the weather conditions may make the deck an unstable working area, adding to the hazards .

A further advantage of the system and its use is that many types of vessels can be connected with it. No modifications are needed on the assisted ves

20185301 PRH 05 -11- 2018 seis to improve the efficiency of attachment to a special purpose craft or to a berth.

In the current disclosure, the term vessel, or an assisted vessel, is used to describe a seagoing 5 vessel that is attached to a special purpose craft, such as a tugboat, or to land structures, such as a berth.

The term attachment rope is used for a towline, or other line used to connect a special purpose 10 craft, for example a tug, with an assisted vessel, and for a mooring line used for connecting a vessel to land structures .

By the guiding pole being convertible between storage configuration and an operating configuration 15 is meant that the guiding pole can be repeatedly transferred between the storage configuration and the operating configuration.

The current rope-handling system may be used by first extending or pivoting the guiding pole to a 20 sufficient height and opening the arms of the Y fork.

At this point, the line-engaging means is positioned at the base of the arms of the guiding pole, and is attached to the attachment rope. In this position, when the heaving line is flung from a vessel towards 25 the Y fork, the monkey-fist of the heaving line will pass through or above the Y fork and the heaving line will land on either of the arms and slide downwards to the base of the arms. When the heaving line is tightened, the monkey-fist at the end of the heaving line 30 will move upwards and be guided to enter the line trap of the line-engaging means. The line-engaging means is releasably attached to the Y fork so that when the heaving line is pulled further, the line-engaging means becomes disconnected from the guiding pole and 35 follows the heaving line to the vessel.

When the heaving line is pulled back to the vessel, the line-engaging means is released from the

20185301 PRH 05 -11- 2018 guiding pole and, along with the attachment rope attached to it, is pulled to the vessel, where the attachment rope can be attached to the vessel.

The rope-handling system according to the present disclosure comprises a guiding pole and lineengaging means, but additional components may be included .

For example, a winch may be responsible for 10 releasing the attachment rope in order for it to be heaved to the vessel. The winch may also reel in the attachment rope to a suitable length for towing or mooring. The winch may hold the attachment rope at a desired length during towing or other connection of a 15 special purpose craft and an assisted vessel. The winch may reel the attachment rope back to the special purpose craft at the end of towing. In embodiments in which the rope-handling system is located on land structures, the winch may be movable or stationary.

The attachment rope may be detachable from the winch so that a regular bollard may be used for longer-term mooring of the vessel.

The winch may be covered by a housing which protects the winch. One winch may comprise one or two 25 drums. If a winch comprises two drums, each of the drums may be covered by its own housing, or the two drums may share a housing. A winch housing may additionally be formed into or comprise structures that help aligning the attachment rope suitably for the 30 other components of the current rope-handling system.

An attachment rope may also be comprised in the system according to the present disclosure. Many designs for an attachment rope are known to the skilled person, who is able to select a suitably 35 structured attachment rope for different applications.

An attachment rope typically has a loop or another type of attaching means at its free end to facilitate

20185301 PRH 05 -11- 2018 the attachment of the attachment rope to the vessel being connected to the special purpose craft or to the land structures. Additionally, the deck structures of a special purpose craft may be designed to support, or 5 to co-operate with, the rope handling system according to the present disclosure. For example the main deck may contain support structures for the guiding pole.

In the operating configuration, the guiding 10 pole extends above a supporting surface. The supporting surface means a solid surface surrounding the guiding pole in the operating configuration. The guiding pole may be attached to the supporting surface. Alternatively, the guiding pole may be attached to 15 other structures, especially structures under the supporting surface. The supporting surface may be, for example a deck of a special purpose craft, a winch housing or an extension thereof. Supporting surface can also be a berth, pier or other solid surface 20 available in a harbor or elsewhere on land.

The guiding pole according to the present disclosure may be retractable/extendable. In one embodiment, the guiding pole is convertible between the 25 operating configuration and the storage configuration by retracting and extending the guiding pole relative to a supporting surface. The guiding pole being retractable/extendable means that that the portion of the guiding pole which makes contact with the heaving 30 line can be moved vertically in relation to the supporting surface between a retracted position and an extended position. Depending on the embodiment, the complete guiding pole may move, for example if the guiding pole is made of one rigid piece. For example, 35 a leg portion of the guiding pole may be rigid. Alternatively, the portions of the guiding ole making contact with the heaving line (i.e. the upper part) may

20185301 PRH 05 -11- 2018 move vertically, while some parts of the guiding pole remain stationary. For example, the guiding pole may be telescopic. In the extended position, the upper end of the guiding pole is higher than in the retracted 5 position. In the retracted position, the guiding pole may be entirely under the supporting surface. However, in some embodiments, the guiding pole may be designed to remain partially above the supporting surface also in the retracted position. In one embodiment of the 10 system, the guiding pole is retractable completely under the supporting surface.

The supporting surface may be a deck of a special purpose craft, or a surface of a land structure. By a deck of the special purpose craft is herein 15 meant the outer surface of the special purpose craft above which other structures such as the deckhouse are positioned. Depending on the specifics of the special purpose craft, the deck may comprise surface on a single height. Alternatively, the deck may comprise sur20 faces on more than one height. The overall plane of a deck is typically substantially horizontal, but deviations commonly occur for practical reasons, such as for improving water run-off from the deck. When the guiding pole according to the present disclosure is 25 retracted under the deck, it means that the guiding pole is retracted under any part of the deck. Alternatively, the guiding pole may be retracted under the main deck, the main deck meaning the overall level of the deck.

In embodiments relating to land structures, the supporting surface may be the surface present in harbor, such as a berth, pier, or the like. It may contain additional structures, for example metal plating, for attaching the guiding pole onto the support35 ing surface. The current system can be used additionally outside of harbors. For example in channels, especially at locks, the current rope-handling system

20185301 PRH 05 -11- 2018 may be utilized. The system can also be used at various smaller-scale landing places where personnel is not necessarily always present.

In one embodiment of the system, the guiding pole is convertible between the operating configuration and the storage configuration by tilting the guiding pole. Tilting guiding pole may be advantageous in situations where the space under the supporting 10 surface, especially under the deck of a special purpose craft, is limited. Such situations may arise, for example when the system according to the present disclosure is retrofitted into an existing special purpose craft. Designing the railings to contain support 15 structures for the guiding pole may have advantages in tilting embodiments, for example if it is not possible to attach the guiding pole sufficiently rigidly to the support surface or under it.

Tilting may be effected at the base of the 20 leg portion or above the base. The leg portion may comprise more than one tilting position.

In one embodiment of the system, the guiding pole comprises a leg portion with a base end and a 25 distal end, and the pivotable arms are attached to the distal end opposite to each other, and wherein the arms extend in the same direction with the leg portion in the storage configuration, and open away from each other when the guiding pole is converted to the oper30 ating configuration.

In embodiments where the guiding pole is on a special purpose craft, it is typically possible to operate the guiding pole from the bridge of the special purpose craft so that a crew member is not needed on 35 the deck to set up the rope-handling system according to the present disclosure for receiving the heaving line. On land, such as in a harbor, the configuration of the guiding pole can be converted from separate controls. The controls may be stationary or portable. On land, the guiding pole may be converted manually, as the working environment is more sheltered and sta5 ble than on a special purpose craft. In one embodiment of the system, the configuration of the guiding pole is convertible remotely. By a remotely convertible configuration of the guiding pole is in the current disclosure meant a guiding pole that can be operated 10 from outside the special purpose craft, or through an at least partly wireless system. Such an embodiment may be implemented as a part of a remotely controllable special purpose craft, or as a part of an autonomous special purpose craft. In one embodiment, the 15 special purpose craft according to the present disclosure is remotely-controllable or autonomous.

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The guiding pole according to the present disclosure may comprise a rigid leg portion. The guid20 ing pole may comprise metal, such as aluminum or steel. It can also be made at least partly of composite material, such as plastic, plastic composite, carbon fiber etc. It is possible to construct the leg portion and the arms of different materials, each of 25 which may be independently selected from materials having suitable properties. For example, the leg portion may be made of metal, such as steel, and the arms may comprise carbon fiber.

The leg portion may be attached to machinery 30 which allows the guiding pole to be moved upwards and downwards relative to the supporting surface. The leg portion may comprise structures that take part in converting the configuration of the guiding pole. For example a rack-and-pinion type of engagement between the 35 guiding pole and the lifting machinery can be envisaged in extendable and retractable embodiments. In em

20185301 PRH 05 -11- 2018 bodiments where the guiding pole is tiltable, a hinge with a locking mechanism may be present.

The conversion between an operating configuration and a storage configuration may be implemented 5 with an electric motor, hydraulic system. Also other types of systems are known in the art. An engine on the special purpose craft or a separate motor, such as an electric motor, can be used for powering the conversion of the guiding pole's configuration.

The lifting machinery may allow turning the guiding pole around its longitudinal axis. The lifting machinery itself may be used to turn the guiding pole. Alternatively, the guiding pole may be turnable independently of the lifting machinery. Such embodiments 15 may be advantageous in facilitating the aiming of the heaving line from the a vessel. A turnable guiding pole may be used to position the Y fork suitably relative to the vessel. This may be especially advantageous in stationary embodiments. The possibility to 20 turn the guiding pole may have advantages also in embodiments on a special purpose craft. Especially in rough weather, being able to turn the guiding pole in addition to or instead of adjusting the position of the special purpose craft may be useful.

The leg portion may comprise a base end, which is the lower end of the guiding pole when the guiding pole is mounted on the supporting surface. The leg portion may also comprise a distal end, which is 30 the upper end of the guiding pole when the pole is mounted on the supporting surface. When the guiding pole is converted to the operating configuration, the base end may be lifted on the level of the supporting surface or even above it. However, it is possible that 35 the base end remains below the supporting surface even in the operating configuration of guiding pole. The level which the base end reaches depends on the spe

20185301 PRH 05 -11- 2018 cific embodiment in question, for example on the machinery that is used for converting the guiding pole between operating configuration and storage configuration .

The guiding pole comprises pivotable arms. When the arms pivot away from each other, they form an

Y fork. This is referred to as opening of the arms. The arms may comprise two ends, an attachment end and a free end. The arms are in contact with the leg portion through the attachment end. The arms may be connected to the leg portion through pivoting means. The pivoting means may be a hinge that is designed to allow the pivoting of the arms away from each other to a 15 predetermined extend, so that the desired angle of the

Y fork is achieved. The pivoting means may be a separate or an integral piece of the guiding pole. The pivoting means are located at or near the base of the arms, which is the position where the line trap is lo- cated.

The pivoting means may function passively,

i.e. so that the weight of the arms causes the opening of the arms. The pivoting means may comprise resistance means that contribute to smooth and con25 trolled opening of the arms, avoiding unwantedly fast opening of the arms. The pivoting means may alternatively function actively, i.e. so that the arms open and close only when desired. Actively functioning arms open and close independently of the extending and re30 tracting of the guiding pole. Thus in the actively functioning embodiments of the pivoting means the arms may remain closed even when the guiding pole is extended, and open only when the pivoting means are activated. In other words, the operation configuration 35 can be finalized independently of lifting the leg portion .

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The free end of each arm may comprise additional components. For example lights can be mounted on the free ends of the arms to improve the visibility of the Y fork under foggy or dark conditions.

When the arms extend in the same direction as the guiding pole, they form an extension of the leg portion. In other words, they are folded against each other side by side.

The arms form an Y fork in the operating con10 figuration. The angle of the fork may vary, and may be in the range of 50 to 120 degrees. For example, an angle of 60 to 100 degrees, such as 60, 70, 80 or 90 degrees may be used.

The length of the leg portion, as well as the 15 arms depends on the size and typical use of the system according to the present disclosure. Practical aspects determine the suitable lengths and the ratio between the length of the leg portion and the length of the arms. In some embodiments, the arms may be of differ20 ent length. For example, the guiding pole may measure 2 - 4 m in height, for example 3 or 3.5 m, in the operating configuration. It is alternatively possible, that the leg portion of the guiding pole measures 2 4 m, such as 3 m, in height in the operating configu25 ration. The ease of use of the system may benefit from a higher guiding pole, but the space available under or on the supporting surface may limit the dimensions of the guiding pole.

In one embodiment of the system, the guiding pole is mounted on the deck of a special purpose craft. The system according to the present disclosure may increase the versatility of such special purpose crafts. The system can also be retrofitted to existing crafts, increasing their usability.

In one embodiment of the system, the guiding pole is positioned on the bow side of a towing winch.

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In case there are more than one winch, an alternative is that the guiding pole is positioned on the bow side of at least one of them. It may also be possible to position the guiding pole on the bow side of all of 5 the winches.

By a special purpose craft is in this disclosure meant any vessel that may assist other vessels by towing. The primary task of the special purpose craft does not necessarily need to be the assistance of oth10 er vessels. There are a number of types of special purpose crafts for various tasks. In one embodiment, the special purpose craft is a harbor tug, an escort tug, an ocean-going tug, an ice breaker, a supply vessel, an anchor handler or a workboat. The special pur15 pose craft according to the present disclosure may have the advantage that while it is capable of automating the connection between the heaving line and the attachment rope, the crowding of the deck is not increased. Therefore, the special purpose craft may be 20 usable for more variable tasks, possibly also involving people, machinery or goods being present on the deck. This is due to the guiding pole being concealed under the deck, or stowed at the side of the deck in the storage configuration. Also, a lowered guiding 25 pole does not hamper the visibility from the bridge of the special purpose craft.

In one embodiment of the system, the guiding pole is mounted on a land structure, such as on a 30 berth. This may improve the efficiency of mooring vessels. Especially at a harbor the number of personnel present may be reduced. Additionally, by suitably positioning more than one of the systems according to the present disclosure, it may be possible to simulta35 neously attach the vessel at a corresponding number of positions .

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It may be possible to conceal the complete rope-handling system according to the present disclosure under the supporting surface. Such embodiments would not increase the obstacles for work conducted at 5 the harbor, such as loading and unloading the vessel while providing the benefits of automation.

The rope-handling system according to the present disclosure further comprises line-engaging 10 means. The line-engaging means is able to make contact with both the attachment rope and the heaving line. In other words, it comprises the structures which catch the heaving line, as well as connections to the attachment rope. The line-engaging means further com15 prise the elements for positioning it suitably for receiving the heaving line in order to catch it. The line-engaging means is releasably attachable to the guiding pole. Since, once landed on the Y fork of the guiding pole, the heaving line slides down on the low20 est position between the pivotable arms, i.e. at the base of the arms, this is also a suitable position for the line-engaging means.

By a heaving line is meant a line that is used to retrieve the attachment rope from the special 25 purpose craft or from the berth by flinging it from a vessel. The heaving line may comprise weight at the end which is travels to the special purpose craft or to the berth to increase the flight distance and to improve aiming accuracy of the heaving line. Such a 30 throwing weight may be called a monkey-fist. The weight can be a ball-like knot of the same name, or any suitably sized and weighted object, such as a sandbag, attached to the end of the heaving line. The diameter of a monkey-fist may be 5-15 cm, for example 35 1-10 cm.

The line-engaging means comprises a line trap, which is the structure catching the monkey-fist.

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When a heaving line resting on the Y fork is pulled towards the vessel, or conversely, if the distance between the special purpose craft or the berth and the vessel increases, the monkey-fist will move upwards 5 substantially along the leg portion of the guiding pole towards the base of the Y fork (and thus towards the line-engaging means) and will eventually be caught by the line trap of the line-engaging means.

The rope-handling system according to the present disclosure may be usable in a broad range of height difference between special purpose crafts or berths and vessels. In situations where the heaving line is received by the Y fork from a similar height, the heaving line will run substantially horizontally between the Y fork and the vessel, and the heaving line naturally lies at the base of the Y fork. In case the vessel is a large container ship, for example, the heaving line is thrown from a position that is much 20 higher than the Y fork. In such a situation, the direction of the heaving line when it is being pulled towards the vessel may significantly deviate from horizontal, and even approach vertical. However, in such a situation, adjusting the distance between the Y fork 25 and the vessel may be used to adjust the running direction of the heaving line. Alternatively, the height of the leg portion or the angle between the arms of the guiding pole may be adjusted. Also the shape of the line trap can be adjusted so that the angle of the 30 heaving line can be taken into account.

The line trap may be structured in many ways.

For example, it may comprise a partially closed channel having an opening extending along the length of 35 the channel, the opening being wider in the direction from which the monkey-fist approaches the line trap, so that the monkey-fist will enter the channel. At the

20185301 PRH 05 -11- 2018 end of the channel, the opening is small enough that the monkey-fist cannot exit the channel, but the heaving line still fits through the opening. The channel may be funnel-shaped, tapering towards its end.

In one embodiment of the system, the line trap for catching the monkey-fist of the heaving line comprises a recess for receiving the monkey-fist and a groove opening into the recess for guiding the heaving line .

It is further possible to secure the heaving line in place in the line trap by locking means. In one embodiment of the system, the line trap comprises locking means for releasably securing the monkey-fist to the line trap. This avoids the unintended release 15 of the monkey-fist while the attachment rope is heaved to the vessel, in case the heaving line or the attachment rope slackens and the orientation of the lineengaging means relative to the attachment rope and/or the heaving line changes. Various unidirectional gates 20 and clips are known in the art to this effect.

The line-engaging means is releasably attachable to the base of the Y fork. When the rope-handling system according to the present disclosure is ready to receive a heaving line, the line-engaging means is at25 tached to the guiding pole with the line trap positioned to capture the monkey-fist of the heaving line. When the heaving line is pulled, after it has been caught by the line trap, the line-engaging means is released from the guiding pole, and it continues to be 30 pulled towards the assisted vessel. Since also the attachment rope is attached to the line-engaging means, it will also follow towards the assisted vessel.

The release of the line-engaging means from the guiding pole may be passive, i.e. it does not re35 quire any structural changes in the line-engaging means nor in the guiding pole structures to which the line-engaging means has been attached. In an embodi20

20185301 prh 05 -11- 2018 ment, the line-engaging means is attached to a hook that opens to the direction in which the heaving line is being pulled. Alternatively, the line-engaging means and/or the guiding pole may comprise a structure 5 that resists the release of the line-engaging means from the guiding pole. In such a case, reversible shape change, for example, may be needed to release the line-engaging means from the guiding pole. This can be brought about by various bendable lip or notch 10 solutions. Also electric release mechanisms are possible .

In one embodiment, the special purpose craft according to the current disclosure comprises two or 15 more rope-handling systems. In many situations, the special purpose craft according to the present disclosure comprises one rope-handling system. Two or more rope-handling systems are, however, possible. The advantage of having more than one rope-handling systems 20 on one special purpose craft is that more than one heaving line may be received at the same time, allowing the attachment of more than one attachment rope simultaneously. Even if only one attachment rope is attached at a given time, differently positioned guid25 ing poles may allow the special purpose craft to approach the other vessel from various directions, providing more flexibility to the special purpose craft and making it more efficient.

DETAILED DESCRIPTION OF THE DRAWINGS

Figure 1 illustrates an embodiment of the current rope-handling system when the guiding pole 1 is in the storage configuration. In the embodiment of 35 fig.l, the guiding pole 1 is retractable and extendible. The embodiment comprises two guiding poles 1, and a winch comprising two drums, each being provided with

20185301 PRH 05 -11- 2018 an attachment rope 3 and corresponding to each guiding pole. The winch is located under a winch housing 4 and therefore not visible in the figure.

Fig. 1 displays the positioning of the rope5 handling system according to the present disclosure in the bow portion of a tugboat. The deck 21 of the tugboat is partially visible. The deck 21 has two elevations, the main deck being lower than the supporting surface 2 on which the guiding poles 1 are mounted. In their retracted position (i.e. in the storage configuration) , the guiding poles 1 are hidden under the supporting surface 2. Such an arrangement may be advantageous for example in situations in which the ropehandling system is retrofitted into an existing spe15 cial purpose craft. Such a structure with a continuous winch housing 4 and supporting surface 2 as in fig. 1 may be used also in embodiments in which there is only one guiding pole 1.

The attachment rope 3 is shown running from an opening of the winch housing 4 to the guiding pole

1. The line-engaging means 13 is positioned at the end of the attachment rope 3 adjacent to the guiding pole

1.

Figure 2 displays the rope-handling system according to the present disclosure when one guiding pole 1 is in an extended position. The Y fork 12 is ready to receive a heaving line 5. In other words, the guiding pole 1 is in the operating configuration. The guiding pole 1 comprises a leg portion 16, and its base end 161 and distal end 162 are visible. The leg portion 16 is one rigid piece moving upwards and downwards relative to the supporting surface 2.

As the guiding pole is in the operating con35 figuration, in fig. 2 the pivotable arms 11 have been opened. The arms 11 are positioned so that they pivot away from each other when the guiding pole 1 is in the

20185301 PRH 05 -11- 2018 operating configuration. The attachment ends 111 of the arms are close to each other at the base of the arms 14 and connected to the distal end 162 of the leg portion through pivoting means 15. The free ends 112 5 of the arms form the boundaries between which the heaving line 5 falls to be caught by the line-engaging means 13 (not visible in fig. 2).

The attachment rope 3 remains connected to the line-engaging means 13 and has been pulled out10 wards as the guiding pole 1 has been extended.

Fig. 2 also displays a heaving line 5 being slung from the vessel (not shown). A monkey-fist 51 is visible at the end of the heaving line 5. The monkeyfist 51 will land on the tugboat. The heaving line 5 15 will be pulled until the monkey-fist 51 is caught in the line trap 131 of the line-engaging means 13.

Figure 3 depicts the rope-handling system of figures 1 and 2, where the line trap 131 of the line20 engaging means 13 has caught the monkey-fist 51 (not visible) of the heaving line 5. The heaving line 5 pulls the line-engaging means 13 and the attachment rope 3 along with it towards the vessel. In this situation, the tugboat is relatively close to a larger 25 vessel being assisted (not shown), since the attachment rope 3 is pulled almost directly upwards by the heaving line 5. The figure shows how the opening of the winch housing 4 is formed to smoothly guide the attachment rope 3.

The guiding pole 1 is simultaneously being retracted. This means that it is already being returned to the storage configuration. The base end 161 of the leg portion 16 is already below the supporting surface 2, and the distal end 162 is being lowered to35 wards the supporting surface 2. The Y fork 12 is still open, but the arms 11 will close, i.e. pivot back to wards each other, as the guiding pole 1 moves under the deck 21.

20185301 PRH 05 -11- 2018

In figure 4, another exemplary embodiment of the rope-handling system according to the present disclosure is depicted. The system of fig. 4 comprises two tiltable guiding poles 1, which are depicted schematically. The attachment ropes 3 have been omitted.

In fig. 4, the two guiding poles 1 positioned parallel 10 to each other on a supporting surface 2 are in the storage configuration. They may be supported by the railings 6, which may have an adaptation to receive and hold the guiding pole 1. The tiltable guiding poles 1 may be lifted automatically, so that they can 15 be operated from the deck of the special purpose craft, for example. They may also be lifted manually, in which case they are locked in place.

The guiding poles 1 of in fig. 4 comprise a leg portion 16 having a base end 161 and a distal end 20 162. Pivoting means 15 for the arms 11 are shown. When the tiltable guiding poles 1 have been lifted, the arms 11 may be opened manually or automatically, to bring the guiding pole 1 into operating configuration.

Figure 5 depicts a rope-handling system according to the present disclosure on land in a harbour. The system comprises two guiding poles 1, each comprising a pivoting means 15 and arms 11 as described above. The first guiding pole 1 is in the op30 erating configuration with arms 11 open, and a heaving line 5 is being thrown into the Y fork 12. The second guiding pole 1 is in the storage configuration. The guiding poles 1 are extendible and retractable between the operating configuration and the storage configura35 tion.

The attachment rope 3, which in this case is a mooring line, or a winch are not shown. However, the

20185301 PRH 05 -11- 2018 system may function similarly to the devices presented in connection with figures 1 to 3, and the construction of such devices is within the knowledge of the skilled person.

The system according to figure 5 may alternatively be used so that the mooring line comes from the vessel to bee moored, and the mooring line is attached to the opposite end of the heaving line 5 than the monkey-fist 51. The monkey-fist 51 can be released 10 manually from the line-engaging means 13. The heaving may take place manually, or through a device, such as a winch or a vehicle, as is known in the art.

The guiding poles 1 comprise a leg portion 15 16, which is attached from its base end 161 to the supporting surface 2. The supporting surface 2 is an elevated assembly on a berth 22. In this embodiment, the distal end of the guiding pole 162 and the pivoting means 15 remain above the supporting surface 2 in 20 the retracted position, i.e. in the storage configuration .

In the embodiment of fig. 5, the supporting surface 2 comprises a guiding pole cover 23 for each guiding pole 1 extending above the supporting surface 25 2. The guiding poles 1 are retractable under the supporting surface 2. The guiding pole covers 23 may extend through the supporting surface 2 as one piece, or as a separate piece. The guiding pole covers 23 may protect the guiding poles 1 against weather condi30 tions, rope wrap around or possible collisions by vessels .

Figure 6 depicts an embodiment of the lineengaging means 13 in more detail. An attachment rope 3 35 is attached at one end of the line-engaging means 13.

The line trap 131 is formed as a recess 1311 and a

20185301 PRH 05 -11- 2018 groove 1312 opens into the recess and directs the heaving line 5 appropriately.

In fig. 6, the monkey-fist 51 is shown positioned at the entrance of the recess 1311. The line5 engaging means 13 is attached to the guiding pole 1 through contact means 132. In the embodiment of fig. 6, the contact means 132 are notches on each side of the line-engaging means 13. The guiding pole 1 is equipped with a receptacle shape that can receive the 10 contact means 132 of the line-engaging means 13. In other words, the contact means 132 is designed to correspond to a receptacle shape on the guiding pole 1 to releasably attach the line-engaging means 13 to the guiding pole 1.

In addition to the features visible in fig.

6, the line-engaging means may comprise additional directing aids, such as additional grooves or indentations to help guide the monkey-fist 51 into the line 20 trap 131.

It is obvious to a person skilled in the art that with the advancement of technology, the basic idea of the rope-handling system, the special purpose 25 craft and the use may be implemented in various ways.

The embodiments are thus not limited to the examples described above; instead they may vary within the scope of the claims.

The embodiments described hereinbefore may be used in any combination with each other. Several of the embodiments may be combined together to form a further embodiment. A rope-handling system, a special purpose craft or a use, to which the disclosure is related, may comprise at least one of the embodiments 35 described hereinbefore.

Claims (17)

A rope handling system, characterized in that it comprises a guide post (1) interchangeable between a drive configuration and a storage configuration, wherein the guide post comprises pivoting arms (11) forming a Y-fork (12) in the guide post drive configuration; a rope attachment means (13) removably attachable to the base of the arms (14) and attachable to the attachment rope (3); wherein the rope attachment means (13) comprises a rope retainer (131) for securing the throwing strap (5) to the monkey ankle (51) when the throwing strap is guided between the arms (11) of the Y-fork 15 (12) from the vessel. The system according to claim 1, wherein the control post (1) is interchangeable between the drive configuration and the storage configuration by retracting and pushing the control post (1). 20 out relative to the support surface (2). A system according to claim 2, wherein the guide post (1) is fully retractable below the support surface (2). The system according to claim 1, wherein the control post (1) is interchangeable between the drive configuration and the storage configuration by tilting the control post. A system according to any one of the preceding claims, wherein the configuration of the control post (1) 30 radios are interchangeable from a distance. A system according to any one of the preceding claims, wherein the guide post (1) comprises a leg portion (16) having a base end (161) and a distal end (162), and the pivoting arms (11) are attached to the distal end opposite each other, and wherein the arms extend in the same direction as the divider portion in the storage configuration and open away from each other 5 when the control post is changed to the drive configuration. A system according to any one of the preceding claims, wherein the rope retainer (131) for gripping the monkey ankle (51) of the throwing strap (5) comprises a well (1311) for receiving the monkey ankle and a groove (1312) opening in the pit for guiding the throwing strap. 20185301 PRH 05 -11- 2018 A system according to any one of the preceding claims, wherein the rope retainer (131) is 15 secures a locking means for releasably securing the monkey ankle (51) to the rope retainer. A system according to any one of the preceding claims, wherein the guide post (1) is mounted on a ground structure, such as a pier. 20 (21). A system according to any one of claims 1 to 8, wherein the steering column (1) is mounted on the deck (22) of a special vessel. A system according to claim 10, wherein the guide post (1) is located on the bow side of the towing winch (4). A special vessel (6) comprising as its rope handling systems according to claim 10 or 11. 30 A special vessel (6) according to claim 12, comprising two or more rope handling systems. A special vessel (6) according to claim 12 or 13, wherein the special vessel is a tug, such as a harbor tug, escort tug, offshore tug, or icebreaker, support vessel, anchor handling vessel or work vessel. A special vessel (6) according to any one of claims 12 to 14, wherein the special vessel is remotely controlled or autonomous. Use of a rope handling system according to any one of claims 1 to 11 for securing a vessel to a special vessel or an onshore structure. 17. Guide post (1) for gripping the throwing strap (5), characterized in that the guide post 15 is interchangeable between a drive configuration and a storage configuration, the handlebar comprising pivoting arms (11) forming a fork (12) in the handlebar drive configuration; and a structure for releasably attaching the rope attachment means (13) adapted to attach the monkey ankle (51) to the base (14) of the arms.