Lifeboat release and retrieval system (LRRS)

Abstract

A lifeboat hook assembly comprising a hook-shaped beak (5) and a release mechanism (6), said hook shaped beak (5) is rigidly connected to a lifeboat (2) at one end, said hook shaped beak (5) having a downwardly oriented shoulder (18) against which a loop (17) is adapted to rest so that the lifeboat is suspended in said loop (17), said release mechanism (6) is coupled to the hook-shaped beak (5) and is adapted to move relative to the hook-shaped beak (5) between a locked position (8a, 10a) wherein the loop is prevented from escaping from the shoulder (18), and a releasing position (8e, 10e) wherein the loop (17) is allowed to escape from the shoulder (18), an actuator (11) is coupled to the release mechanism (6) and is adapted to move the release mechanism (6) between the locked position (8a, 10a) and the releasing position (8e, 10e). The invention being distinctive in that said hook shaped beak (5) or said release mechanism has a first guide slot (7) and a second guide slot (9), said other of said hook shaped beak (5) or release mechanism (6) has a first guide pin (8) and a second guide pin (10), said first guide pin (7) being adapted to engage with the first guide slot (8), said second guide pin (10) being adapted to engage with the second guide slot (9).

Claims

1. A lifeboat hook assembly comprising: a hook-shaped beak; a release mechanism comprising a wedge; wherein said hook-shaped beak is rigidly connected to a lifeboat at one end, said hook-shaped beak having a downwardly oriented shoulder against which a loop rests when the lifeboat is suspended in said loop; wherein said release mechanism is coupled to the hook-shaped beak and is adapted to move relative to the hook-shaped beak between a locked position and a released position; wherein the release mechanism is self-locking in the locked position; wherein, in the locked position, the loop is prevented from escaping from the downwardly oriented shoulder; wherein, in the released position, the loop is allowed to escape from the downwardly oriented shoulder; an actuator is coupled to the release mechanism and is adapted to move the release mechanism between the locked position and the released position; wherein said hook-shaped beak or said release mechanism comprises a first guide slot and a second guide slot; and wherein said other of said hook-shaped beak or release mechanism comprises a first guide pin and a second guide pin being arranged within respective guide slots, said first and second guide pin being movable within the respective guide slots between the locked position and the released position, wherein the first guide slot has a curved shape causing the first guide pin to move along a curve so that a movement of the release mechanism follows a rotary path between the locked position and the released position.

2. The lifeboat hook assembly according to claim 1, wherein the release mechanism comprising an edge facing the wedge of the release mechanism is adapted to push the loop away from the shoulder when the release mechanism is moved to the released position.

3. The lifeboat hook assembly according to claim 2, wherein the edge forms an integrated part of the release mechanism.

4. The lifeboat hook assembly according to claim 1, wherein a first end of the first guide slot has an undercut.

5. The lifeboat hook assembly according to claim 1, wherein the actuator is moveable in a direction along a plane parallel with a main axis of a hook arrangement.

6. The lifeboat hook assembly according to claim 1, wherein the second guide slot is shaped as an elongated slot extended along a plane parallel with a main axis of a hook arrangement with a curved second end.

7. The lifeboat hook assembly according to claim 1, wherein the actuator is hydraulic.

8. The lifeboat hook assembly according to claim 1, wherein one hook assembly is arranged on the lifeboat.

9. The lifeboat hook assembly according to claim 1, wherein two hook assemblies are arranged at each end of the lifeboat for simultaneous operation.

10. The lifeboat hook assembly according to claim 1, wherein guide slots are formed in the hook-shaped beak.

11. The lifeboat hook assembly according to claim 1, wherein the lifeboat hook is actuated by a linear solenoid actuator.

12. The lifeboat hook assembly according to claim 1, wherein the hook assembly further comprises a first safety bore arranged on top of the hook-shaped beak for engaging with a securing element.

13. The lifeboat hook assembly according to claim 12, wherein the hook assembly further comprises a second safety bore mechanism arranged on the release mechanism for engagement with a lever for manually rotating the release mechanism.

14. The lifeboat hook assembly according to claim 13, wherein a lever is engaged with the second safety bore of the release mechanism and a corresponding second safety bore of the hook-shaped beak in order to secure the release mechanism in one position.

Description

FIGURES

(1) The invention will now be explained in detail with reference to the accompanying drawings, in which:

(2) FIG. 1A is an overview of the lifeboat in emergency situations with a hook arrangement attached to a wire or cable for lowering the lifeboat.

(3) FIG. 1B is a side view of the lifeboat connected to a hook arrangement at a bow and a stern.

(4) FIG. 1C is a side view of the lifeboat released from the hook arrangement at the bow and the stern.

(5) FIG. 2 shows the hook with release mechanism attached to the fall.

(6) FIG. 3a shows an isometric view of the structure of the release mechanism.

(7) FIG. 3b shows an isometric view of the hook in a released position.

(8) FIG. 3c shows an isometric view of the hook in a secured position.

(9) FIGS. 4-8 show the different steps of the guide pins from a closed securing position of the hook to an open release position, viewed schematically from the side,

(10) FIGS. 8-9 show the reverse handling of the lifeboat when the hook of the lifeboat is retrieved back to the fall, viewed from the side.

(11) FIG. 10 shows the hook-shaped beak of the hook without the release mechanism, viewed from the side.

(12) FIGS. 11a-b show the hook attached to the wires or chain in different directions viewed from the side.

(13) FIG. 12 shows schematically the hydraulic system for releasing the release mechanism in a free fall lifeboat with one hook.

(14) FIG. 13 shows schematically the hydraulic system for releasing the release mechanism in a conventional lifeboat arrangement with two hooks.

(15) FIG. 14 shows an isometric view of the lifeboat hook attached to a lifting chain.

(16) FIG. 15 shows an isometric view of the actuator system arranged beneath the lifeboat deck.

(17) FIGS. 16a and 16b show an isometric view of the hook, viewed from both sides of the hook.

(18) FIG. 17 shows an isometric view of the hook-shaped beak without the release mechanism.

(19) FIGS. 18 and 19 show an isometric view of the piston arrangement in detail.

(20) FIG. 20 shows an isometric view of a hook arranged on a freefall lifeboat.

(21) FIG. 21 shows an isometric view of the fastening arrangement of the hook in FIG. 20, viewed from the inside of the lifeboat deck.

(22) FIGS. 22-23 show an isometric view of the hydraulic arrangement connected to the piston arrangement.

(23) FIG. 24 shows a linear solenoid that could be used to operate the hook arrangement.

(24) FIG. 25 shows lifeboat with the linear solenoid and the hook arrangements.

DETAILED DESCRIPTION

(25) The term upper and lower in the description must be interpreted in the broadest sense and is defined in view of the orientation of the parts in the appended drawings. These parts could have other orientations than defined when the invention is in use.

(26) The main axis of the hook-arrangement is defined as a line extending from the first part of the hook-shaped beak 5a to the second part of the hook shaped beak 5b. This line is perpendicular to the lifeboat deck 14. In FIG. 2 this is a substantially vertical line.

(27) FIG. 1A shows a lifeboat 2 suspended from a loop or chain link 17 attached to a lowering arrangement or fall, such as a davit and a tackle 4. One end of the tackle 4 is attached to a ship, platform or other devices that requires a lifeboat 2. At the other end there is arranged a chain assembly 3 with a loop, such as a chain link 17 at the free end. A wire or other arrangement suitable for securing the lifeboat 2 to the tackle 4 is also possible suspension arrangements. The chain link 17 is releasable connected to the lifeboat 2 through a hook assembly 1. The hook assembly 1 is attached to the lifeboat 2. There could be arranged only one hook arrangement 1 at the rear end of the lifeboat 2, if the lifeboat is a freefall lifeboat. As shown in FIGS. 1B-1C, there could also be arranged two similar hook arrangements 1, 1 at each of the front and rear end of the lifeboat 2. In special cases, also more than two hook arrangements are possible. Each of the hook arrangements 1, 1 are attached to separate sets of tackle 4 and chain 3 arrangement.

(28) FIG. 1A shows a lifeboat 2 with two hook assemblies 1, 1. The two hook assemblies may be arranged at each end of the lifeboat for simultaneous operation. The lifeboat is hanging from just one of the hooks 1, the other hook 1 is released from the chain link 17.

(29) The Figure shows an emergency position of the lifeboat where the lifeboat traditionally would have fallen into to the sea.

(30) FIG. 2 shows the hook assembly 1 attached to the chain link 17 in detail. The hook assembly 1 comprises a hook-shaped beak 5 and a release mechanism 6.

(31) A first part of the hook-shaped beak 5a is situated above a lifeboat deck 14; a second part of the hook-shaped beak 5b is situated below the lifeboat deck 14.

(32) Both the first part of the hook shaped beak 5a and the second part of the hook shaped beak 5b are rigidly connected to the lifeboat 14.

(33) The second or lower part of the hook-shaped beak 5b is attached to the lifeboat 2 through fixing means that are known per se. The second part of the hook-shaped beak 5b has two through holes 13a adapted to be connected to the fixing means 15 with bolts and nuts.

(34) The fixing means could take many different shapes; some of the possible shapes are illustrated in FIGS. 2-9. In general, the upper part of the fixing means has openings 13a corresponding with the through holes 13a of the second part of the hook-shaped beak 5b.

(35) In FIG. 2 the fixing means is a bar 15a with through holes 13a that is connected directly to the hook-shaped beak 5b.

(36) In FIGS. 4 and 5 the fixing means comprises a bar 15b connected to a bracket 15c. The bracket 15c has openings 13a that corresponds with the through holes 13a of the hook-shaped beak 5b.

(37) In FIG. 6 the fixing means comprises of a bracket 15d and several bars 15e fixedly connected to the bracket 15d.

(38) In FIG. 7 there are arranged two similar bars with brackets 15f, 15g. The brackets 15f, 15g have openings that correspond with the through holes 13a of the second part of the hook-shaped beak 5b, and are connected at each of the sides of the hook-shaped beak 5b.

(39) The through holes 13a are vertically aligned with the chain link as the arrows in FIG. 2 indicates.

(40) The first part of the hook shaped beak and the second part of the hook shaped beak are both coupled to the lifeboat deck 14 through fixing means known per se, for instance through bolts or similar as shown in FIGS. 3b and 3c.

(41) FIGS. 2-7 show a cylinder 28 attached to the lifeboat deck 14. The cylinder 28 could be supported by a bracket arranged between the cylinder 28 and the second part of the hook shaped beak 5b to support the cylinder (not shown) or a bracket 29 arranged between the hook shaped beak 5b and conduits 30 supplying hydraulic fluids to the cylinder 28. This embodiment is illustrated in the drawings. The cylinder 28 is in this embodiment fixedly attached to the lifeboat 2.

(42) The cylinder 28 is a part of a hydraulic piston arrangement 11 or actuator. There is arranged a piston 31 within the cylinder 28, the piston 31 is adapted to move within the cylinder 28 depending on the amount of hydraulic fluid forced into the cylinder 28. The piston 31 is attached to the release mechanism 6 as shown in FIG. 2. The movement of the piston 31 leads therefore to a movement of the release mechanism 6.

(43) The hydraulic cylinder is fixed to the release mechanism and have a possibility of 1 mm lateral movement in the fixings of the piston rod to the release mechanism. This prevents strain on the piston rod. The clearance is illustrated in FIG. 2.

(44) Other power transmission arrangements suitable for the arrangement are also possible instead of the hydraulic piston arrangement 11. It is for instance possible to use a wire or similar to push the release mechanism to the release position.

(45) There are shown two conduits 30 in the FIG. 2 to supply a hydraulic fluid into the cylinder 28 and also the return of the hydraulic fluid from the cylinder 28.

(46) FIG. 2 shows the first part of the hook-shaped beak 5a, with a shoulder 18 arranged on the hook-shaped beak 5a. The shoulder 18 has horizontal, gently sloping length, which ends in a tip 32. The shoulder 18 has a length that is larger than the cross-sectional diameter of the chain link 17. The shoulder 18 is arranged so that it makes it possible for the hook-shaped beak 5a, 5b to hang from the chain link 17 without any devices securing the chain link 17 (provided the hook-shaped beak is oriented substantially vertical). In order to obtain this, the chain link 17 must be arranged resting only on the shoulder 18, as shown in FIG. 2, not both on the shoulder 18 and the release mechanism 6 as shown in FIG. 4. In FIG. 4 the lifeboat 2 would drop if the release mechanism is moved away from the shoulder tip 32.

(47) The release mechanism 6 having a wedge 12c enclosing the chain link 17 when the hook arrangement is in a closed position. A tip of the wedge 19 is in this position close to the shoulder tip 32 of the beak 5.

(48) FIGS. 2 and 4 show the different hanging positions of the hook 1 relative to the chain link 17.

(49) FIG. 2 shows a hanging position where only the shoulder 18 is in contact with the chain link 17, and there is no strain on the wedge 12c.

(50) FIG. 4 shows another possible position of the hook 1 and chain link 17. In this position, the hook 1 has been pivoted relative to the chain link 17, and the chain link 17 is arranged on the tip of the shoulder 32. The small distance between the tip of the wedge 19 and the tip of the shoulder 32 secures the chain link 17 within the cavity of the hook 1.

(51) The FIG. 2 also shows slots 7 and 9. A first guide slot 7 and a second guide slot 9 are arranged on the first part of the hook-shaped beak 5a, the first guide slot 7 is situated above the second guide slot 9 at a distance spaced apart from the second guide slot 9.

(52) In addition to the guide slots 7, 9 there could be arranged a first safety bore 22 at the top or near the top of the first part of the hook-shaped beak 5a and a second safety bore mechanism 16a, 16b between the guide slots 7, 9 on the first part of the hook-shaped beak 5a. The first safety bore 22 is adapted to receive a shackle 39 or similar arrangement and could be used as a safety device during maintenance of the hook 1. This is further described in relation to FIG. 9.

(53) The second safety bore mechanism 16a, 16b is adapted to receive a pin or a suitable tool (not shown) acting as a fuse for manually preventing movement of the release mechanism 6.

(54) The release mechanism 6 shown in FIG. 2 is further described with reference to FIGS. 3a-c. The release mechanism 6 is designed with two parallel plates 12a, 12b. The plates 12a, 12b are arranged one on each side of the first part of the hook-shaped beak 5a and are provided with guide pins 8, 10. These guide pins 8, 10 extends between the plates 12a, 12b and are adapted to engage the guide slots 7, 9 in the beak. The guide pins 8, 10 are adapted to move within the guide slots 7, 9. A first guide pin 8 is adapted to move within the first guide slot 7, a second guide pin 10 is adapted to move within the second guide slot 9.

(55) An opposite arrangement is also possible, where the slots are arranged on each of the plates 12a, 12b. The guide pins could in this embodiment extend from the first part of the hook-shaped beak 5a at both sides (not shown).

(56) A piston connector 34 is arranged between the plates 12a, 12b at the lower part of the plates 12a, 12b and is adapted to engage with the piston 31.

(57) The guide pins 8, 10 and the piston connector 34 are connected to a guide pin bracket 35 arranged on the outside of one of the release plates 12a, 12b as shown in FIG. 3a. This guide pin bracket 35 secures the guide pins and the piston connector 34 in the arrangement. The bracket is adapted to engage with grooves in the guide pins to secure the guide pins and the piston connector 34.

(58) The second safety bore mechanism 16a, 16b comprising a plate safety bore 16b at each of the plates 12a, 12b. These plate safety bores 16b are adapted to correspond with a beak safety bore 16a on the hook-shaped beak 5. These second safety bore mechanism 16a, 16b are adapted to receive a cotter bolt or similar pin to manually prevent movement of the release mechanism 6 in relation to the beak 5.

(59) It is also possible to place sticks or levers 101 into each of the plate safety bores 16b and manually rotate the release mechanism 6.

(60) FIGS. 3a-3c also show the wedge 12c arranged between the two plates 12a, 12b. The wedge 12c is situated as an extension of the outer leg in a U-shaped part 12d of the release mechanism 6. The inner leg is defined as an edge 20. A tip 19 of the wedge 12c is adapted to be arranged near the tip 32 of the shoulder 18 when the hook 1 is in the locked position. The locked position is shown in FIG. 3c. The position is also schematically shown in FIGS. 2 and 3. In this position the chain link 17 is secured within a cavity 21 defined by the U-shaped part of the release mechanism 6 and the shoulder 18.

(61) A releasing position of the hook 1 is shown in FIG. 3b. In this position, the wedge tip 19 is moved a distance away from the shoulder tip 18. This position is also schematically shown in FIGS. 8 and 9.

(62) The actuator or hydraulic piston arrangement 11 is arranged on the opposite side of the release mechanism 6 from the wedge 12c. The piston 31 is connected to the release mechanism through the piston connector 34.

(63) FIG. 2 shows the hook in the locked position as described earlier. The first guide pin 8 is in this position defined to have a position 8a arranged in the first end 7a of the guide slot 7. The second guide pin 10 is defined to have a position 10a in the first end 9a of the second guide slot 9. In this locked position the inner wall 20 of the hook-shaped beak 5 is congruent with the edge 20 at the inner side of the cavity 21.

(64) FIGS. 2 and 4 show the hook arrangement in the locked position where the chain link is held in a secured position within the hook arrangement 1.

(65) FIGS. 5, 6 and 7 show a first, a second and a third intermediate position between the locked position and the releasing position of the hook arrangement 1.

(66) To achieve these positions the actuator or piston arrangement 11 will force the release mechanism 6 towards a released position. In each of this positions, the guide pins 8, 10 are moved from the first end 7a, 9a of the guide slots 7, 9 (shown in FIGS. 2 and 4) towards a second end 7b, 9b of the guide slots (shown in FIG. 8). The wedge 12c is moved down and away from the shoulder tip 32 through these position. In the first intermediate position, the guide pins 8, 10 have the positions 8b, 10b in the guide slots 7, 9 as shown in FIG. 5.

(67) In the second intermediate position, the guide pins 8, 10 have the positions 8c, 10c in the guide slots 7, 9 as shown in FIG. 6.

(68) In the third intermediate position, the guide pins 8, 10 have the positions 8d, 10d in the guide slots as shown in FIG. 7.

(69) FIGS. 8 and 9 show the hook 1 in the released position. In this position the first guide pin 8 is arranged at the second end of the guide slot 7b in a position defined as 8e. The second guide pin 10 is arranged at the second end of the second guide slot 9b in a position defined as 10e.

(70) In the released position, there is a gap 33 from the shoulder tip 32 to the tip of the wedge 19. The gap 33 is larger than the chain link 17 so that the chain link 17 can escape from the hook arrangement 1.

(71) When the release mechanism 6 rotates towards the released position, the edge 20 at the inside of the U-shaped part of the release mechanism 6 moves towards the shoulder tip 32. The edge 20 pushes the chain link 17 towards the shoulder tip 32 and thereby releases the hook arrangement and thus the lifeboat 2 from the chain link 17.

(72) The FIGS. 2-9 show that the hook-shaped beak 5 has the same position in all figures. It is the movement of the release mechanism 6 that causes the different positions of the hook 1.

(73) The hydraulic piston 31 applies a vertical force on the end or beneath the release mechanism 6. The release mechanism 6 is then forced by the actuator or piston arrangement to move a distance. The guide pins 8, 10 are forced to move along the geometry of the guide slots 7, 9 so that the movement of the release mechanism is rotary like.

(74) This is shown in FIGS. 5, 6 and 7 as the first, second and third intermediate positions 8b, 8c, 8d of the guide pin 8, between the locked position 8a and the releasing position 8e. The first guide slot 7 has a curved shape, for instance as shown in the FIG. 4-8.

(75) As shown in FIG. 4 there is an undercut at the end 7a of the first guide slot 7.

(76) A tangential line 26 in the upper contact point 25a between the first guide slot 7 and the first guide pin 8, has in this position a negative angle in relation to a vertical line through the same contact point 25a. When the first guide pin 8 is moved within the first guide slot 7 the angle between the vertical line and the tangential line is decreasing until the angle is zero in a position between the locked position 8a and the first intermediate position 8b. The angle will increase in the positions after this. This means that the force has to be largest in the beginning to force the first guide pin 8 out of the locked position 8a until the defined angle is zero.

(77) The movements of the first guide 8 in the vertical and horizontal directions are illustrated in the FIGS. 5-8. From the locked position 8a to the first intermediate position 8b, the first guide pin 8 and the piston 31 is moved a distance approximately 20 mm in the vertical direction, but the displacement is only approximately 1.5 mm in the horizontal direction.

(78) From the first intermediate position 8b to the second intermediate position 8c, the first guide pin 8 is moved a distance approximately 20 mm in the vertical direction and the displacement is approximately 12-13 mm in the horizontal direction.

(79) From the second intermediate position 8c to third intermediate position 8d, the piston 31 and the first guide pin 8 is moved a distance approximately 20 mm in the vertical direction and a further displacement of approximately 14, 5 mm in the horizontal direction.

(80) From the third position 8d to the releasing position 8e, the first guide pin 8 and the piston 31 is moved a distance 8 mm in the vertical direction and a further displacement of approximately 14.5 mm in the horizontal direction.

(81) In this embodiment the movement from 0-40 mm of the piston rod 31 in the vertical direction the chain link 17 is secured in the hook arrangement 1.

(82) The movement of the piston rod 31 from 40-55 mm in the vertical direction is defined as a release phase. When the piston rod has moved from 55 mm to 70 mm the hook arrangement is in open and the chain link is released from the hook arrangement 1.

(83) The displacements lengths above are just illustrative examples of how the horizontal displacement increases towards the releasing position and that the force is large in the beginning and is decreasing towards the released position. The displacement in the horizontal direction is small in the beginning but increasing towards the released position.

(84) Other shapes of the first guide 7 slot or the second guide slot 9 and actuator arrangements will give other displacements in the horizontal and vertical direction.

(85) The second guide pin 10 correspondently moves along the second guide slot 9 from the secured position 10a through the first, second and third positions 10b, 10c, 10d to the releasing position 10e. The different positions are shown in FIGS. 4-8.

(86) The second slot 9 is shaped as an elongated substantially vertical slot and slightly curved at a second end 9b facing the first guide slot 8. When the actuator 11 is moving the release mechanism 6 upwards, the second guide pin 10 tends to move in the same direction as the actuator 11 but is forced to move along the surface of the second guide slot 9.

(87) After the lifeboat has been released from the chain link 17, the reversed operation can be performed to retrieve the chain link 17 in the hook 1 and lift the lifeboat 2 back to the initial position.

(88) This operation is shown in FIGS. 8 and 9. A rope or wire 41 could be attached to the chain link 17 as an assistance rope. The rope 41 extends via a pin 40 to a mechanism (not shown) that is pulling the rope 41 until the chain link 17 is positioned within the cavity 21. The mechanism could be mechanical or electrical or just hand force to pull the chain 3 back towards the hook arrangement 1.

(89) The rope or wire is preferably arranged in the hook arrangement and the chain link before the lifeboat is released to obtain an easy retrieval of the lifeboat.

(90) The wire or rope could also act as a coupling between the mother ship and the lifeboat after the lifeboat has been released.

(91) The rope 41 could be arranged in different ways between the chain link 17 and the hook 1. The rope 41 could be arranged in a multiple different ways to the hook arrangement like tied with a knot directly to the chain link 17 as shown in FIG. 8 or attached to a pin 40 on one side of the hook 1, the rope 41 extends in this case through the chain link 17 and back to a pin (not shown) arranged on the opposite side of the hook 1. The pins 40 could be attached to the beak 5, the release mechanism and arranged on a bow shaped device arranged on the outside of the wedge 12c (not shown). This prevents accidents like crushing when the chain link 3 is moved back into the cavity 21 as well as it helps guiding the chain link 21 into a suitable position towards the cavity 21.

(92) FIG. 10 shows a maintenance position where the release mechanism 6 and the actuator are removed. In this position, there is no securing of the chain link 17 and it is possible that the chain link 17 could slip from the shoulder 18. To prevent the lifeboat from falling, there is arranged a wire 42, also referred to as a securing element, between the ship and the shackle 15.

(93) FIG. 11a and FIG. 11b show an example of different hanging positions of the lifeboat with hook arrangement 1. In FIG. 11a the shoulder 18 and release mechanism 6 is facing upwards and the release mechanism 6 is actively securing the chain link 17 in the cavity 21.

(94) In FIG. 11b the shoulder 18 and release mechanism 6 is facing downward and the chain link 17 is resting only on the shoulder 18. The release mechanism 6 is passively securing the chain link 17 within the cavity 21.

(95) FIG. 12 shows schematically the actuator system arranged in a free fall lifeboat with one hook. A tank 50 or reservoir is filled with hydraulic fluid. The container is connected to a hydraulic pump 51 and emergency hydraulic pump 52 in case of failure of one of the hydraulic pumps. The pumps can be operated both electrically and by manual pumping, using handles 53. The hydraulic fluid flows through a pressure gauge and an automatic three-way valve to the cylinder 31. The increasing fluid pressure in the cylinder is pressing the piston 31 away (upwards) from the bottom of the cylinder. There are three zones in the cylinder. When the cylinder has a small amount of hydraulic fluid in the cylinder (below the piston), the hook is in the secured position. When the amount of hydraulic fluid exceeds a certain level in the cylinder, the hook is in the releasing phase (intermediate positions). When the amount of hydraulic fluid exceeds this level, the hook is in the released position. The hook can be brought back to the secured, locked position by letting the hydraulic fluid back into the hydraulic tank 50. In this process, the hydraulic tank 50 supplies one hook assembly 1, like in a free-fall lifeboat.

(96) FIG. 13 shows another actuator system for a conventional lifeboat with two hooks, schematically. It has a similar structure as the actuator system in FIG. 11, but supplies two hooks simultaneously so that both hook assemblies release the chain links simultaneously.

(97) FIGS. 14-17 shows different isometric views of the lifeboat hook arrangement 1.

(98) FIG. 14 shows the hook arrangement 1 attached to the lifeboat 2. The lowering arrangement 4 is via the chain link 17 held in a secured position within the hook arrangement 1. The hook 1 is fixed to the lifeboat deck 14 through bolts.

(99) FIG. 15 shows the second part of the hook-shaped beak 5b with fixing means 15a and the cylinder 28 connected to the underside/inside of the lifeboat deck 14.

(100) FIGS. 16a and 16b show an isometric view of the hook, viewed from opposite sides, in a locked position. The piston arrangement 31 could rest on guide columns to protect the cylinder 28 but also to prevent unintentional hooking of the release mechanism in the locked position (not shown). A guide column could also be an integrated part of the release mechanism as shown in the FIGS. 16a, 16b.

(101) There could also be arranged a separate bow shaped device for guiding the chain link back to the hook and preventing accidents as an embodiment of the invention. This is not shown in the Figures.

(102) FIG. 17 shows the hook-shaped beak 5 without the release mechanism 6. It shows the first safety bore 22 and the second safety bore mechanism 16a, 16b. It also shows the first guide slot 7 and second guide slot 9. A transverse plate 5c of the hook-shaped beak is fixedly connected to the lifeboat deck 14. At the underside of the lifeboat deck, the second part of the hook-shaped beak is arranged. There are arranged through holes 13a in the second part of the beak to connect fixing means 15a-15g as shown in FIGS. 4-7 to the beak 5.

(103) FIGS. 18 and 19 show the actuator or piston arrangement 11 in further detail. The piston arrangement in FIG. 18 is secured to the lifeboat through bolts.

(104) FIGS. 20 and 21 show the hook of a freefall lifeboat arrangement, viewed from the outside and the inside of the lifeboat deck 14. The hook arrangement is in this embodiment of the invention attached vertical to the life boat 2 while in the FIGS. 14 and 15 the hook arrangement is arranged horizontally on the lifeboat 2.

(105) FIGS. 22-23 show the hydraulic arrangement connected to the piston arrangement.

(106) FIG. 24 shows a linear solenoid 100 which is another arrangement that could be arranged in connection with the piston to operate the hook. The linear solenoid is an electromechanical unit that converts electrical energy to a linear mechanical movement. The current through the winding creates a magnetic field that creates attractive force between a movable piston and a stop point.

(107) By removing the force from the magnet, the current through the coil is eliminated and the piston moves back to the resting position. The linear solenoid 100 is connected to the piston through the conduits 30 and is preferably arranged on the lifeboat as shown in FIG. 25.

(108) In this Figure, there are arranged two hook arrangements 1 on the bow and aft of the lifeboat 2. As described earlier, the lifeboat 2 could also have only one hook arrangement 1 at the bow or aft of the lifeboat.

(109) There could be other arrangements to operate the hook 1, these being embodiments of the invention.

(110) The lifeboat hook arrangement of the invention can comprise any features as described or illustrated herein, in any operative combination, each such operative combination is an embodiment of the lifeboat hook arrangement of the invention.