Abstract
The invention relates to a platform arrangement (110) mounted to a stern portion of a marine vessel (100). The platform arrangement comprises at least one first platform section (111) with a first transverse pivot joint (113) mounted adjacent a transom (105); at least one propulsion unit (101) mounted to a lower surface of the first platform section (111), wherein the at least one propulsion unit (101) and its first platform section (111) are tiltable between a drive position and an upwards tilted position. A second platform section (112) is located in front of the at least one first platform section (111), which second platform section (112) has a second transverse pivot joint (114) mounted adjoining the first transverse pivot joint (113) of a corresponding first platform section (111). The first and second platform sections (112) are foldable relative to each other about their respective first and second pivot joints (113; 114). The invention further relates to a vessel comprising the platform arrangement.
Claims
1. A platform arrangement mounted to a stern portion of a marine vessel, characterized in that the platform arrangement comprises: at least one first platform section with a first transverse pivot joint mounted adjacent a transom; at least one propulsion unit mounted to a lower surface of the first platform section, wherein the at least one propulsion unit and the first platform section are tiltable between a drive position and an upwards tilted position.
2. A platform arrangement according to claim 1, characterized in that the platform arrangement further comprises a second platform section located in front of the at least one first platform section, which second platform section has a second transverse pivot joint mounted adjoining the first transverse pivot joint of a corresponding first platform section; wherein the first and second platform sections are foldable relative to each other about their respective first and second pivot joints.
3. A platform arrangement according to claim 1, characterized in that the at least one first platform section is arranged to extend rearwards from the first transverse pivot joint when the at least one propulsion unit is in its drive position.
4. A platform arrangement according to claim 1, characterized in that the at least one first platform section is arranged to be angled about the first transverse pivot joint for trim adjustment when the at least one propulsion unit is in its drive position.
5. A platform arrangement according to claim 1, characterized in that the first and second platform sections form a continuous longitudinal deck portion when the at least one propulsion unit is in its drive position.
6. A platform arrangement according to claim 5, characterized in that the at least one first platform section is arranged to be angled upwards and forwards relative to the first transverse pivot joint when the at least one propulsion unit is displaced to its tilted position.
7. A platform arrangement according to claim 6, characterized in the second platform section is arranged to be angled upwards and rearwards relative to the second transverse pivot joint when the at least one propulsion unit is displaced to its tilted position.
8. A platform arrangement according to claim 7, characterized in that the angled first and second platform sections form a transverse seating unit when the at least one propulsion unit is in its tilted position.
9. A platform arrangement according to claim 8, characterized in that individual first and second platform sections form a transverse seating unit for each propulsion unit when that propulsion unit is in its tilted position.
10. A platform arrangement according to claim 8, characterized in that each of the first and the second platform sections forming a transverse seating unit are individually adjustable.
11. A platform arrangement according to claim 1, characterized in that the first and second pivot joints are arranged in parallel.
12. A platform arrangement according to claim 1, characterized in that the first and second pivot joints are arranged coaxially.
13. A platform arrangement according to claim 1, characterized in that the first platform section is folded upwards to an angle of 90-180° from the drive position for servicing of the at least one propulsion unit.
14. A platform arrangement according to claim 13, characterized in that the at least one propulsion unit is an electric motor.
15. Marine vessel characterized in that the marine vessel is provided with a platform arrangement according to claim 1.
Description
BRIEF DESCRIPTION OF THE DRAWINGS
[0024] With reference to the appended drawings, below follows a more detailed description of embodiments of the invention cited as examples. In the drawings:
[0025] FIG. 1 shows a side view of a schematically illustrated vessel comprising a platform arrangement;
[0026] FIG. 2 shows the platform arrangement in FIG. 1 in an alternative configuration;
[0027] FIG. 3 shows an enlarged view of a seating unit indicated in FIG. 2;
[0028] FIG. 4 shows the platform arrangement in FIG. 1 in a further alternative configuration;
[0029] FIG. 5 shows a schematic plan view of a schematically illustrated vessel comprising a platform arrangement;
[0030] FIG. 6 shows a schematic perspective view of a split platform arrangement; and
[0031] FIG. 7 shows a schematic perspective view of a partially folded seating unit for a split platform arrangement.
DETAILED DESCRIPTION OF EXAMPLE EMBODIMENTS OF THE INVENTION
[0032] FIG. 1 shows a side view of a schematically illustrated marine vessel 100 comprising a marine propulsion unit 101. The marine propulsion unit 101 is mounted to a platform arrangement 110 mounted to a stern portion 106 of the vessel 100. The platform arrangement 110 comprises a first platform section 111 and a second platform section 112, which in FIG. 1 are arranged to form a continuous longitudinal deck portion. The first platform section 111 is attached to the stern portion 106 by a first transverse pivot joint 113 mounted adjacent a transom 105 forming a transverse rear portion of the vessel hull 109. The second platform section 112 is located in front of the first platform section 111 and is attached to the stern portion 106 by a second transverse pivot joint 114 mounted adjoining the first transverse pivot joint 113 of the first platform section 111. In this configuration, the first platform section 111 forms a substantially horizontal rear platform section, extending rearwards past the transom 105, and the second platform section 112 forms a substantially horizontal front platform section. The platform configuration in FIG. 1 is used when the marine propulsion unit 101 is in its drive position, in which it is used to propel the marine vessel 100. Alternatively, when the propulsion unit 101 is not being operated, this platform configuration can be used as a swim platform.
[0033] The propulsion unit 101 in FIG. 1 is an electric drive unit comprising at least one electric motor (not shown) arranged within a drive housing 102 that is mounted to a lower surface 115 of the rear platform section 111. The marine propulsion unit 101 can be connected to an inboard battery pack (not shown) via suitable wiring. The battery pack is preferably located below the waterline of the vessel hull 109 where it can act as ballast and contribute to the stability of the vessel 100. The drive housing 102 is connected to a gearbox housing 103 provided with a set of propellers 104. FIG. 1 shows a drive unit 101 with pushing propellers, but the use of pulling propellers are also possible within the scope of the invention. In order to steer the vessel, the propulsion unit 101 is provided with an interface 107 mounted between the drive housing 102 and the lower surface 115 of the first platform section 111. The interface 107 allows for rotation of the propulsion unit 101 relative to the first platform section 111.
[0034] Although the example in FIG. 1 only shows one propulsion unit it is possible to use two or more units within the scope of the invention. The number of propulsion units is limited by the size of the platform arrangement and the vessel to which it is mounted.
[0035] FIG. 2 shows a schematic perspective view of the platform arrangement 110 in FIG. 1 adjusted into an alternative configuration. In the example shown in FIG. 2, the first platform section 111 is arranged to be angled upwards and forwards relative to the first transverse pivot joint 113 when the propulsion unit 101 (indicated in dashed lines) is being displaced in the direction of the arrow A, from its drive position upwards into a tilted position indicated by the propulsion unit 101′. The first platform section 111 can be angled upwards separately from or together with the second platform section 112. The second platform section 112 can be angled upwards and rearwards relative to the second transverse pivot joint 114 at the same time as, or after, the propulsion unit 101′ is displaced to its tilted position.
[0036] In their respective angled positions, the angled first and second platform sections 111, 112 form a transverse seating unit when the propulsion unit 101′ is in its tilted position. The angled first and second platform sections 111, 112 are individually adjustable by a user into desired seating positions, in the same way as a reclining chair. For instance, when used as a seat, the first platform section 111 can be folded steplessly upwards to an angle α of 80° from a horizontal plane to form a backrest, while the second platform section 112 can be folded steplessly upwards to an angle ß of 45° from a horizontal plane to form a leg rest when deploying the seating unit. As shown in FIG. 2, the second platform section 112 is preferably divided into first and second subsections 112a, 112b connected by a third transverse pivot joint 116. This allows the first subsection 112a and the second subsection 112b, supporting the thigh and lower leg respectively, to be adjusted into a desired position. As shown in FIG. 2, the second subsection 112b can be angled downwards relative to the first subsection 112a into a substantially horizontal position, or lower if desired. The relative angles of the transverse seating unit can be selected freely by the user, within the limits of a number of controllable actuators connected to the different sections of the seating unit.
[0037] FIG. 3 shows an enlarged view of the seating unit indicated in FIG. 2. As in FIG. 2, the propulsion unit 101 (indicated in dashed lines) has been displaced from its drive position upwards into a tilted position indicated by the propulsion unit 101′. The first platform section 111 has been folded upwards an angle α from a horizontal plane to form a backrest, as indicated by the arrow A.sub.1. The first subsection 112a of the second platform section 112 has been folded upwards an angle ß from a horizontal plane to form a leg rest when deploying the seating unit, as indicated by the arrow A.sub.2. The first and second subsections 112a, 112b dividing the second platform section 112 are angled relative to each other about the third transverse pivot joint 116, which subsections can provide individual support for the thigh and lower leg respectively. The second subsection 112b is folded about the third transverse pivot joint 116 as indicated by the arrow A.sub.3. The angle of the first platform section 111 is controlled by a schematically indicated actuator 121. Similarly, the angle of the first subsection 112a of the second platform section 112 is controlled by a schematically indicated actuator 122. A non-exhaustive list of suitable actuators for this purpose comprises electric, hydraulic or pneumatic actuators. The actuators can be mounted in a number of different ways, depending on parameters such as the load to be supported, available space and the required stroke of the actuator. Larger installations can also require multiple actuators for each platform section. FIG. 3 shows one possible arrangement where a pair of upright actuators 121, 122 is connected to a lower surface of the respective platform section 111, 112a. Alternatively, electric motors can act on the respective platform section about their respective hinges. A further alternative can involve actuators arranged in the longitudinal direction of the vessel, which actuator can act on cantilevered sections of the respective platform section 111, 112a. Cantilevered sections of the respective platform section 111, 112a would extend past the respective pivot joint 113, 114 in a downward angled direction towards one or more actuators. The angle of the second subsection 112b relative to the first subsection 112a can be controlled by a mechanical linkage or a further actuator (not shown).
[0038] In addition, the actuator 121 used for maneuvering the first platform section 111 can also be operated to angle the first platform section 111 about the first transverse pivot joint for trim adjustment, or tilt trim, of the propulsion unit 101 when it is in its drive position and operated to propel the vessel. The trim adjustment about the first transverse pivot joint 113 is schematically indicated by the arrow T in FIG. 1. The angular adjustment required for trim adjustment is performed separately from the second platform section 112 by using the same actuator(s) implementing a tilt displacement.
[0039] FIG. 4 shows a schematic perspective view of the platform arrangement 110 in FIG. 1 adjusted into a further alternative configuration. In the example shown in FIG. 4, the first platform section 111 is arranged to be angled upwards and forwards relative to the first transverse pivot joint 113 to an angle of 90° from a horizontal position. In this way, the propulsion unit 101 would be moved from a vertical drive position (shown in dashed lines) to a second position where the propulsion unit 101″ can be serviced. According to a further example, the first platform section 111 can be arranged to be angled upwards and forwards up to 180°, indicated by the arrow A.sub.4, from the initial horizontal position as shown in FIG. 1. In the latter example, the propulsion unit 101′″ (indicated in dashed lines) would be upside-down and the first platform section 111 would rest on top of the second platform section 112. By allowing the first platform section 111 to be angled in a stepless manner or into a number of fixed positions, such as 90° or 180°, the propulsion unit is easily accessible for service or removal/exchange. Tilting the first platform section 111 into such a service position can be possible using the same actuator(s) as for the tilting action into a backrest position (see FIG. 2). If the actuator(s) have a limited range that does not permit tilting up to or past 90°, then it can be necessary to disconnect the actuator and perform the displacement manually.
[0040] FIG. 5 shows a schematic plan view of a marine vessel 100 comprising a platform arrangement 110 as shown in FIG. 1. The platform arrangement 110 comprises a first platform section 111 and a second platform section 112, which in FIG. 5 are arranged to form a continuous longitudinal deck portion. The first platform section 111 is attached to the stern portion 106 by a first transverse pivot joint 113 mounted adjacent a transom 105 forming a transverse rear portion of the vessel hull 109. The second platform section 112 is located in front of the first platform section 111 and is attached to the stern portion 106 by a second transverse pivot joint 114 mounted adjoining the first transverse pivot joint 113 of the first platform section 111. The second platform section 112 is divided into first and second subsections 112a, 112b connected by a third transverse pivot joint 116, which subsections provide individual support for the thigh and lower leg respectively, if positioned in a seating position. The platform arrangement 110 comprises a propulsion unit 101, which in this example is an electric drive unit comprising at least one electric motor (not shown) arranged within a drive housing (see FIG. 1) that is mounted to the lower surface of the rear platform section 111.
[0041] FIG. 6 shows a schematic perspective view of a split platform arrangement; and FIG. 6 shows a marine vessel comprising two marine propulsion units 201, 202. The first and second propulsion units 201, 202 are attached side-by-side to a platform arrangement 210 mounted to a stern portion of the vessel in the same way as described above. The platform arrangement 210 is split in the longitudinal direction and comprises a pair of first platform sections 211 and a pair of second platform sections 212, which in FIG. 6 are arranged to form a continuous longitudinal deck portion. The pair of first and second platform sections 211, 212 are identical and are mounted mirrored side-by-side. The first platform sections 211 are attached to the stern portion 106 by two first transverse pivot joints 213 mounted in-line adjacent the transom that forms a transverse rear portion of the vessel hull 109. The second platform sections 212 are located in front of the first platform sections 211 and are attached to the stern portion by two second transverse pivot joints 214 mounted adjoining the first transverse pivot joints 213 of the first platform sections 211. In this configuration, the first platform sections 211 form a substantially horizontal rear platform section, extending rearwards past the transom, and the second platform sections 212 form a substantially horizontal front platform section. The platform configuration in FIG. 6 is used when the marine propulsion units 201, 202 are in their drive positions, in which they are used to propel the marine vessel. Alternatively, when the propulsion units 201, 202 is not being operated, this platform configuration can be used as a swim platform.
[0042] FIG. 7 shows a schematic perspective view of a partially folded seating unit for a split platform arrangement. FIG. 7 shows a schematic perspective view of the platform arrangement 210 in FIG. 6 partially adjusted into an alternative configuration. In the example shown in FIG. 7, the left first platform section 211 is angled upwards and forwards relative to its corresponding first transverse pivot joint 213 when the first propulsion unit 201 has been displaced from its drive position upwards into a tilted position, in the same way as described for FIG. 2. The left first platform section 211 has been angled upwards together with the corresponding left second platform section 212. The second platform section 212 has been angled upwards and rearwards relative to its corresponding second transverse pivot joint 214 at the same time as, or after, the propulsion unit 201 is displaced to its tilted position.
[0043] In their respective angled positions, the angled left-hand side first and second platform sections 211, 212 form an individual transverse seating unit when the first propulsion unit 201 is in its tilted position. The angled first and second platform sections 211, 212 are individually adjustable by a user into desired seating positions in a similar way as that described for the single seating unit in FIGS. 2 and 3. For instance, when used as a seat, the first platform section 211 can be folded steplessly upwards to an angle α of 80° from a horizontal plane to form a backrest, while the second platform section 212 can be folded steplessly upwards to an angle ß of 45° from a horizontal plane to form a seat and leg rest when the seating unit is deployed. The second platform section 212 as shown in FIG. 7 is preferably divided into first and second subsections 212a, 212b connected by a third transverse pivot joint 216. This allows the first subsection 212a and the second subsection 212b, supporting the thigh and lower leg respectively, to be adjusted into a desired position. As shown in FIG. 2, the second subsection 212b can be angled downwards relative to the first subsection 212a, but not into a substantially horizontal position, as indicated in FIGS. 2 and 3. In the example shown in FIGS. 6 and 7, the forward ends of the respective second platform sections 212 are instead connected to longitudinal rails 231, 232 in the deck section underneath the respective second platform section 212. In this way, the first and second subsections 212a, 212b of each seating unit are angled together when the forward end of a second platform section 212 is displaced in a rearward direction into a desired position.
[0044] The right-hand side first and second platform sections can be displaced to form a transverse seating unit in the same way as the left-hand side first and second platform sections 211, 212 described above. The relative angles of the transverse seating units can be selected freely by the user, within the limits of a number of controllable actuators connected to the different sections of the seating units. Each side-by-side seating unit is provided with a set of maneuvering actuators as described for FIG. 3 above.
[0045] It is to be understood that the present invention is not limited to the embodiments described above and illustrated in the drawings; rather, the skilled person will recognize that many changes and modifications may be made within the scope of the appended claims.
