EP2523846B1 - Tender mount - Google Patents

Description

Technical area

The invention is based on a recording and attachment of a tender on a platform at the stern of a watercraft, so that the positioning and fixing on the platform quickly and safely done by simple technical means and is designed so that the watering or catching a tender also automatically and controlled, according to the preamble of the first claim.

State of the art

Height-adjustable support means are increasingly used for the reception and attachment of tender boats, as described, inter alia, in the patent US 6,095,080 . US 4,157,596 . GB 2319014 . DE 199 63 057 C1 . WO1996 GB01177 19960517 or prior art document EP 153 248 These are different lifting techniques and recording devices for the tender. The clean positioning on the underlying platform as well as the mooring of a tender is still the work of the ship's crew.

Presentation of the invention

The invention has for its object to quickly and easily position a tender, which may also be a jet ski or a similar vehicle on a platform or a lowerable staircase which extends at the rear of a watercraft and secure at the desired location, using manual or electronic means to easily release the tender and release it easily.

The recording of a tender is not easy to solve even with slightly choppy water or some wind, since the yacht has a different roll and stamping frequency than a small tender, resp. Both vehicles have a different strong drift. Therefore, means are provided so that the driver of the tender can easily locate the lifting platform or the swinging arms in a stair configuration and safely retract there and thereby automatically stopped in the right place. The driver thus has only to press the lock, which can also be done by means of a remote control or automatically and mitauslöst the command for lifting the lifting platform, the tender was due to appropriate means in advance automatically placed in position and secured. The underlying platform or swing-out arm configuration can then safely up resp. be retracted. The tender can be longitudinally or transversely mounted at the stern or on the deck or in the garage of the vessel and parked by these means. The positioning, posture and finally the locking of the tender on the lift is done without the help of third parties and represents a further safety in this respect, because people on the lifting platform, who have to turn the Tender and lash down and where it is usually wet, lead a Risk action, especially on recreational yachts where often no professional crew is on board

According to the invention this is achieved by the features of the first claim.

The essence of the invention is to install an easily feasible, fast and accurate Tenderaufnahme with a simple attachment of a tender without ropes and straps on a lift or stairs and this without the involvement of third parties.

Further advantageous embodiments of the invention will become apparent from the dependent claims.

Brief description of the drawings

In the following, embodiments of the invention will be explained in more detail with reference to the drawings. The same elements are provided in the various figures with the same reference numerals.

Fig. 1

eine schematische Seitenansicht einer Tenderaufnahme mit klappbaren Haltemittel auf einem horizontalen Schwenkarm der an einer absenkbaren Treppe befestigt ist und einem darunterliegenden Auftriebskörper mit einem Tragflügel und auf der Tenderaufnahme liegenden Tender

Fig. 2

eine schematische Obenaufsicht auf einen Tender und eine Tenderaufnahme mit den klappbaren Haltemittel und den am Tender angebrachten Dockingmittel, als auch der unter dem Tender und am Haltemittel liegenden Lagesensoren

Fig. 3

eine schematische Obenaufsicht auf eine Tenderaufnahme mit den horizontalen Schwenkarmen die von Keilriemen mittels eines Wirkmittels angetrieben sind und dabei die Richtung des Tenders beibehalten lassen.

Fig. 4

eine schematische Seitenansicht einer Tenderaufnahme mit klappbaren Haltemittel auf einem horizontalen Schwenkarm der an einer absenkbaren Treppe befestigt ist und einem darunterliegenden Auftriebskörper und einer Gasdruckfeder

Fig. 5

eine schematische Seitenansicht einer Tenderaufnahme mit klappbaren Haltemittel auf einer absenkbaren Plattform befestigt und den Führungsstangen neben dem Tender.

Show it:

Fig. 1

a schematic side view of a Tenderaufnahme with folding holding means on a horizontal pivot arm which is attached to a lowerable stairs and an underlying buoyancy body with a wing and lying on the Tenderaufnahme tender

Fig. 2

a schematic top view of a tender and a Tenderaufnahme with the hinged holding means and attached to the tender docking means, as well as lying below the tender and the holding means position sensors

Fig. 3

a schematic top view of a Tenderaufnahme with the horizontal pivot arms which are driven by V-belts by means of an active agent while maintaining the direction of the tender.

Fig. 4

a schematic side view of a Tenderaufnahme with folding holding means on a horizontal pivot arm is attached to a lowerable stairs and an underlying buoyancy body and a gas spring

Fig. 5

a schematic side view of a Tenderaufnahme with folding holding means mounted on a lowerable platform and the guide rods next to the tender.

Only the elements essential for the immediate understanding of the invention are shown schematically.

Way to carry out the invention

Fig. 1

shows a schematic side view of a Tenderaufnahme 1, consisting of a Aufkimmhalterung 2, to which a hinged locking means 4 is attached to a rotating mechanism 3, wherein a working cylinder 5 with a spring 6 triggers a folding movement. The Aufkimmhalterung 2 is mounted on a horizontal pivot arm 7 which is attached to a lowered example stairs 8. The pivot arm 7 has an upper pivot bearing 9a and a lower pivot bearing 9b and the pivot arm 7 is actuated by means of the mounted in the staircase 8 axis 10 at which a pair of gears 11 or linkage or V-belt is actuated by a pivot motor 12. Under the staircase 8 is located on each side of the rear 20 attached to the Auftriebskörperlagem 13 buoyancy body 14, which are connected by means of telescopic connecting means 15 with the staircase 8. Under the stairs 8 or between the buoyancy bodies 14, a wing 16 is attached. The staircase 8 can be pivoted by means of a pivot bearing set 17 via the stroke H below the waterline WL, by means not shown lowering and lowering lever, wherein the pivot bearing set 17 a lowering sensor 18 is mounted to detect the Absenkwinkels and the lowering sensor 18 is connected to the controller 19 ,
The staircase 8 is advantageously mounted on the rear 20 and may also represent a platform 80 with the corresponding Absenkhebel and active agent. The pivot arms 7 have supports 21, such as rollers, so that the pivot arms do not constantly, especially in the swell, floating the weight of the tender 22 need to hold. On a pivot arm 7 or at another suitable location is a position sensor 23, which informs about in which position the pivot arms 7 are located. In the position shown here, the position sensor 23 informs the controller 19 that the staircase 8 may not be moved downwards in the direction of the arrow H. Only from a certain Ausschwenkwinketwert according to arrow W, the staircase 8 may be moved down, because under this provision, the tender 22 is resp. the pivot arm 7 according to arrow A accordingly extended to the rear and thus can not collide with the staircase 8. Before the pivot arms 7 are deflected, it is possible to start up the stairs 8 by a lifting set HS, so that the staircase 8 faces upwards and the support 21 which at the same time can also constitute a rotation lock, so that the step 8a no longer touches and therefore freely pivotable is.
If the tender 22 in the water and this should be obtained, so first the pivot arms 7 are extended in the direction of arrow A, then the stairs 8 moves down below the waterline WL. The staircase 8 has stairs 8a, which thus remain horizontal by the parallel pivot arms, not shown here, so that the pivot lever 7 also remain horizontal. The stair steps 8a are open so that water can flow into the interior of each stair step 8a, except in the area of the rotation axis 10, gear pair 11 and swing motor 12. This prevents the stairs 8a from becoming a buoyant body and lifting the stern 20 of the watercraft becomes. When lowering the stairs 8, it is even desirable that the watercraft in the tail area gains some depth, so that the stairs 8 has to be lowered less far. To keep the stairs 8a always possible horizontally by means of a Trittkompensators 24, consisting of a plate 25 which can be pivoted about the Trimmgelenk 27 by means of Trimmwirkzylinders 26 or the Trimmwirkzylinder 26 directly, z. B. so that a single pivot bearing of the pivot bearing set 17 can be moved horizontally, in this way the stairs in the Lot, respectively. hold the pivot arms 7 in the horizontal position as possible. This makes it possible, for example, to ensure a largely stable horizontal position of the staircase 8, by means of the inclusion of the controller 19, an inclination sensor and a control for the lifting method of the trimming-active cylinder 26, even in rough seas.
The buoyancy bodies 14 have the function of compensating the outboard weight of the staircase 8, the tender receiver 1 and possibly parts of the tender 22, so that the vessel remains well trimmed even with this additional weight outside of the fuselage. Furthermore, the buoyancy bodies 14 are tilted by means of the buoyant body bearings 13, for example, at the angle of the launch of the watercraft. Thus, when lowering the stairs 8 due to the connecting means 15 between the staircase 8 and buoyancy body 14, the buoyant body 14 is pivoted outwards and leads to an additional stabilization of the watercraft. Depending on the condition, the overall width of a watercraft in the rear area widened by 15% without further ado. Of course, the buoyancy bodies 14 also produce a dynamic buoyancy, without annoying traveling resistance due to the attached under the buoyancy body 14 stages 14a, as a stall. In very stern-heavy watercraft or catamarans behind the watercraft fuselage, but not under the vehicle body, on the platform 80 or stairs 8, a corresponding wing 16 are attached, which generates additional dynamic buoyancy and may be rigid or movable to on-flow. Likewise, such a wing 16 can also be fastened to the buoyancy bodies 14, paying attention to the attachment kinematics, owing to the buoyancy bodies 14 extending sideways when the platform 80 or stairway 8 is lowered. Such a wing 16 is particularly useful in the starting phase or can be nodding reduce the vehicle bug during gliding.
If the tender 22 now travels between the retaining means 4 of the lowered staircase 8, the pole rods 28 help to orient the entrance. These can also be folded away if necessary or can be sunk accordingly. The tender 22 also has on the fuselage outer side docking means 29, which ultimately serve to lock the tender 22 together with the holding means 4. The bow-side holding means 4 are either set so that the tender 22 is keilmässig stopped with respect to the continuation in the bow or the docking means 29 are in the rear area so bulging that they are stopped by the rear-side holding means 4. Inductive sensors 30 on the underside of the tender 22 or in the support arms 4 allow the sensors to send positive signals due to the correct position of the tender 22 to the support means 4, the staircase 8 being raised and the tender 22 thus raised on the pickup support 2 is seated. Thereafter, the support arms 4 close so that the tender 22 can not be lifted by the waves of the Aufkimmhalterung 2 and possibly slip, the stairs 8 is raised at the same time and the pivot arms 7 synchronously and monitored by the position sensor 23 screwed accordingly be that they do not collide with the stairs 8a. The active cylinder 5 are lockable or self-locking and have a spring 6, so that the holding means 4 always press with a bias against the tender 22. This is particularly recommended for tenders with an inflatable tube, as they breathe due to the daily temperature fluctuations: on a warm day, the shell stretches, in the cold night it contracts. The spring 6 compensated so ideally the cross section of the hose. The rotary mechanism 3 can be designed, for example, via a rocker so that the upper side of the tender hose is additionally pressurized by the curved holding means 4. The active cylinder 5 may also be mounted radially directly on the rotary mechanism 3 and make a bias voltage via a torsion spring element.
The controller 19 can ensure further operations, such as that when the transmission or engine is running, the staircase 8 can not be lowered but in the high direction the lift activation is always possible. Furthermore, the tender 22 can only be swung out when the staircase 8 is at the top, resp. no collision between the arm 7 and step 8a is possible, or that the stairs 8 can be lowered only conditionally in case the holding means 4 are closed, otherwise there is a risk that the tender is locked on diving station or that by means of a Femüberwachung the engine of Tenders, at a signaled by the lowering sensor 18 corresponding angular position of the stairs, is turned off, so that the engine of the tender 22 does not run without cooling water intake and thus overheat.
Of course, the operations can also be performed manually, with the hand-held button not shown and described here, but manual entry is not very practical when swell. Instead of inductive sensors 30 photoelectric sensors, pressure sensors and other tools for position detection can be consulted.
In addition, at least one swivel arm 7 has an additional lock 31, which can also be integrated directly in the support 21, so that when the watercraft is traveling, the swivel arms 7 are optimally locked.

Fig. 2

2 shows a schematic top view of a tender receptacle 1 with the four foldable holding means 4 and the docking means 29a attached to the tender 22, 29b, which rear side the holding means 4 fully include and bugseitig eg no docking means 29 need to be attached, the front holding means 4 the tender 22 thus only stop and center and rear of the tender 22 by means of the docking means 29a, 29b slipping away from a backwards lock. Or it is located on the rear side only the docking means 29a and the docking means 29c at the bow of the tender 22, so that in this way the tender 22 can be held. As indicated, the retaining means 4 may be straight or curved. By means of the controller 19, the opening and closing times as well as the opening angle or opening stages of the holding means 4, are fixed, so that the tender is eg held behind, while the front is fully opened and by the subsequent opening of the rear holding means 4, the tender 22 can extend elegant front, or when retracting the tender 22, the front holding means 4 are already closed, while the back allow the holding means free access. Sensors 30 at the bottom of the tender 22 resp. At the appropriate locations on the tender receptacle 1, the controller 19 indicates that the tender 22 is in the proper position and the holding means 4 can be closed. It is conceivable that such sensors 30, even light barriers, are embedded in the holding means 4 and on the trunk surface of the tender 22 complementary sensors 30a are mounted, such as passive reflectors, or metal elements so that due to the correct position of the tender 22 relative to the holding means 4 a corresponding signal is output to the corresponding sensor 30 and thus the holding means 4 are closed.
The Tenderaufnahme 1 can be fixedly connected to the lowerable platform 80, or attached to the pivot arm 7 or on a detachable from the platform 80 support surface 51 or on a carriage, not shown here with rail holding means 53 which on the platform 80 or support surface 51 or the individual Stairs of the stairs 8 are located and thus by lowering or and an extension of Tenderaufnahme 1, the Tender 22 watered or brought back on board.

Fig. 3

shows a schematic top view of a Tenderaufnahme 1 with the horizontal pivot arms 7, which are mounted on the staircase 8. The swivel arms 7 are moved by the swing motor 12, for example via the V-belt 32 before lowering the stairs 8 in the direction of arrow W. The V-belt 32 synchronizes the two pivot arms 7 and engages the toothing 11 a, which is connected to the Schwenkarmgehäusen 7 a and the axis of rotation 10. In each Schwenkarmgehäuse 7a is a rotatably mounted toothed belt pulley 33, which on the one hand receives the pivoting V-belt 34 and on the other hand, the Aufkimmhalterung 2, which is only partially shown here. In one of the steps 8a, advantageously in the last, also the rigid pulley 35 is fixed, which has a bore in which the axis of rotation 10 is inserted and thus upon pivoting of the pivot arm 7, the pivoting V-belt 34 rotates about the rigid pulley 35 and thus the Aufkimmhalterung 2 maintains its orientation.
In addition, still a connecting rod 36 can be mounted between the two pivot arms 7, so as to give a further stability of the system. Of course, instead of the V-belt 32 or Schwenkkeilriemens 34, the function via linkages or additional gears, as well as with each other communicating swing motors 12 and the like.
In a simple lowerable platform 80, the pivot arms 7 are no advantage if enough space is available and there the Aufkimmhalterungen 2 are thus mounted directly on the corresponding platform 80.

Fig. 4

shows a schematic side view of a Tenderaufnahme 1, consisting at least of a Aufkimmhalterung 2 with swivel arm 7, which are attached to the stairs 8 and including a buoyant body 14 is located. It is evident that the Tenderaufnahme 1 each left and right each Aufkimmhalterung 2 with swivel arm 7 and also left and right under the staircase 8 are each a buoyancy body 14. The buoyancy bodies 14 advantageously have a height which reaches at most as far as the waterline WL, so that no additional buoyancy is generated when the staircase 8 is lowered. The static buoyancy should be chosen so that it compensates for the extra weight of a staircase 8 and Tenderaufnahme 1 with its buoyancy. This can ensure that the staircase 8 and the Tenderaufnahme 1 in case of failure of the Hebewirkzylinders not shown here according to the Archimedean principle upwards is pressed and the staircase 8 can be locked with means in the upper position. Nevertheless, it may be that the volume is not enough to drive up the whole system, so gas spring 37 are provided, which take over this lifting task. In the normal case, that means that the lifting cylinders have to press the stairs 8 with its tender receptacle 1 in the direction of the waterline WL and gravity does not take over the reduction.

Fig. 5

shows a schematic side view of a Tenderaufnahme 1 with hinged holding means 4, which are moved by the effective cylinders 5 via the rotary mechanisms 3 and cling to the mounted on the rigid body 22b strips 38. The strips 38 are shaped so that they position the tender 22 with the holding means 4 in the axis S and at the same time hold it down with a force so that the tender 22 can not be lifted out of the tender receptacle 1 in the swell. The strips 38 can also generate depending on the design an additional dynamic buoyancy while driving or and thus an additional driving stability. The primary positioning of the tender 22 on the platform 80 by means of fixed or removable guide rods 39 or bracket 40. It requires a transversely mounted to the direction of travel of the vessel bracket 40 and a front guide rod 39 or two guide rods 39 front and at least one guide rod 39 behind the Tender in the right position to bring. The two front guide rods 39 or the guide rod 39 and bracket 40 are so to each other that the tender 22 can not pass through and this is already positioned in the entrance by means of the corresponding selected terminal point, transverse side ever. If the tender 22 is now pressed against the bracket 40 or against at least one existing guide rod 39, the tender lies quite correctly in the axis S. By closing the retaining means 4, the tender is positioned, clamped and locked exactly centrically The ends of the retaining means 4 non-slip, it needs in this version no docking means 29, which otherwise could even be applied directly to the strips 38.
It is also conceivable that the tender 22 by means of rear stop means 43 is held slipping and locked on the tender receiver 1. These pivotable stop means 43 may also have the same components as in the embodiment described above, to securely hold the tender 22.
The Tenderaufnahme 1 can be plugged into the platform 80 and moored and released accordingly and stowed when not in use, with the corresponding lines 41 are laid on the platform 80, equipped at their ends with waterproof, screw-on connectors 42, so that in the Aufkimmhalterung 2 recessed active cylinder 5, and possible sensors 30 are decoupled in an instant.

Fig. 6

shows a schematic side view of a Tenderaufnahme 1 with a rotatably mounted, forward pivoting manual holding means 44, which is mechanically operated accordingly. By means of an expansion means 45, the manual holding means 44 can be pivoted, which is connected by means of a connecting means 46 and a cross-connection means 46a with another manual holding means 44, so that by means of the confirmation of a manual holding means 44, the opposite and the front, possibly even curved, manual holding means 44 is actuated simultaneously according to arrow A - B, A'-B '.
A rotary head 47 with a cam 48 is mounted on the manual holding means 44, so that when the manual holding means 44 is pivoted, the rotating head 47 rotates about the vertical axis of the manual holding means 44 by means of an angular gearwheel or a crownwheel embodiment located therein. As indicated by arrow D and against a docking means attached to the tender 29d 29d presses, which serves to ensure that the tender 22 can not slip backwards, ie against the arrow E, from the manual holding means 44. In addition, above the cam 48 there is still material of the docking means 29d, so that the tender 22 can not move upwards either. The manual holding means 44 can be connected by means of a further connecting means 46 with a mechanical stop means 49 mounted behind the tender 22, should the tender 22 have no docking means 29d and fix the tender 22 on the tender receiver 1 in this way. The manual holding means 44 can be attached to the Aufkimmhalterung 2 or on the platform 80 or a carriage 81 by means of pivot bearing means 50. The carriage 81 is used to move the tender 22 on the staircase 8 or platform 80, eg for garage applications or further displacement applications and may be formed as a support surface 51, the Aufkimmhalterung 2 and, if necessary, a mechanical stop means 49 or and the guide rods 39 or otherwise, the carriage 81 is a frame which receives the front and rear pickup brackets 2 and has below it a rail means 52 which engages a rail holding means 53 which is mounted in the individual steps of the staircase 8 or platform 80 , The carriage 81 may also have a wheel 54, which supports the carriage 81 when moving or when releasing it from the vessel, the carriage 81 can continue to be used on land.

Of course, the invention is not limited to the embodiments shown and described.

LIST OF REFERENCE NUMBERS

1

tender recording

2

Aufkimmhalterung

3

rotating mechanism

4

holding means

5

operating cylinder

6

feather

7

swivel arm

7a

Schwenkarmgehäusen

8th

stairway

8a

steps

80

lowerable platform

81

carriage

9a

upper pivot bearing

9b

lower pivot bearing

10

axis of rotation

11

gear pair

11a

gear

12

swing motor

13

Float bearing

14

buoyancy

14a

step

15

connecting means

16

Hydrofoil

17

Rotary bearing set

18

sinking sensor

19

controller

20

Rear

21

edition

22

tender

22a

tube

22b

rigid

23

position sensor

24

Trittkompensator

25

plate

26

Trim operating cylinder

27

trim joint

28

side markers

29a, b, c, d

Dockingmittei

30

inductive sensors

30a

complementary sensors

31

barrier

32

fan belt

33

rotatably mounted toothed belt pulley

34

swivel belt

35

rigid timing belt pulley

36

connecting rod

37

Gas spring

38

strip

39

guide rod

40

hanger

41

management

42

connector

43

stop means

44

manual holding means

45

unlocking means

46

connecting means

46a

Cross-linking agent

47

turret

48

cam

49

stop means

50

Pivot means

51

wing

52

track means

53

Rail holding means

54

wheelset

H

stroke

W

swivel angle

A

lateral stroke

WL

waterline

S

axis

HS

Hubsatz

e

entrance

Claims (15)

1. Tender pick-up (1) for watercraft characterized in that the pick-up is attached on a platform (80) or a stair (8) and comprises two chocks (2) on which on each side on a pivot mechanism (3) an appropriately formed retainer (4, 44) is arranged and the retainer (4) can be tilted manually or by means of a cylinder (5) to the hull of a tender (22).
2. Tender pick-up (1) according to claim 1, characterized in, that on the platform (80) or on a overlying deck (51) at least a guiding bar (39) and a bracket bar (40) or at least three guiding bars (39) are attached, or and behind the tender (22) which is arranged in the tender pick-up is a stopping mean (43,49), or and the tender (22) has docking means (29a,b,c,d) or and fins (38) or and between the platform (80) or stair (8) or deck (51) and chock (2) swiveling arms (7) are attached or and under the platform (80) or stair (8) there are lifting bodies (14) connected by means of connector (15) or and a controller (19) controls the movement sequences or and automatically synchronizes.
3. Tender pick-up (1) according to claim 1 or 2, characterized in that the cylinder (5) is lockable or self-locking and has a spring (6) or the spring (6) is fixed on the pivot mechanism (3) or and the retainer (4) is resilient.
4. Tender pick-up (1) according to claim 1 or 2, characterized in that the swiveling arm (7) has an upper swiveling bearing (9a) on which there is a tooth belt plate (33) on which the chock (2) is attached and a lower swiveling bearing (9b) on which the turning axis (10) and the gear (11 a) are attached, which is connected to the platform (80) or stair (8) and a swiveling belt (34) connects the swiveling tooth belt plate (33) or the rigid tooth belt plate (35) which is connected to the platform (80) or stair (8).
5. Tender pick-up (1) according to claim 1 or 2, characterized in that the swiveling arm (7) can be swiveled by means of a swiveling motor (12) or and the swiveling movement of both of the swiveling arms (7) is synchronized by means of a driving belt (32) and can be locked by means of a lock (31), or and a swiveling arm (7) has a position sensor (23), or and that the swiveling arm (7) has a support (21) which can also be used as a lock (31).
6. Tender pick-up (1) according to claim 1 or 2, characterized in that the tender pick up (1) has sensors (30) which indicates the position status of the tender (22) or and the tender (22) has add on sensors (30a) or the tender pick up (1) has laser distance measurement sensors.
7. Tender pick-up (1) according to claim 1 or 2, characterized in that the front retainers (4) are closer to each other than the rear retainers (4) or and that bearing poles (28) are fixed onto the retainers (4) and the bearing poles (28) are tiltable or retractable.
8. Tender pick-up (1) according to claim 1 or 2, characterized in that the stair (8) has a travel sensor (18) and the swiveling arm (7) has a position sensor (23) which transmits the signals to the controller (19) which coordinates the stair (8) and the swiveling arm (7) in such a way that no collision of parts may occur or and that the controller (19) controls the swiveling process as long as the stair (8) is lowered or raised.
9. Tender pick-up (1) according to claim 1 or 2, characterized in that the controller (19) prevents that the platform (80) or stair (8) is completely lowered as long as the retainers (4) are holding the tender (22) locked on the chock (2).
10. Tender pick-up (1) according to claim 1 or 2, characterized in that the retainers (4) synchronously are open or closed or can have various intermediate positions or when driving in the tender (22) the front retainers (4) are kept closed, the rear retainers (4) stay open and when driving out the tender (22) forwards, firstly the front retainers (4) are opened and only thereafter the rear retainers (4) are opened, or that the retainer (4) does not fully close when the platform (80) or stair (8) are completely lowered but only at a lift value indicated by the travel sensor (18) the controller (19) allows the complete closing of the retainers (4).
11. Tender pick-up (1) according to claim 1 or 2, characterized in that the controller (19) prohibits the lowering of the platform (80) or the stair (8) from a predetermined engine speed or gear speed of the watercraft, nevertheless a lifting up is always possible or and the controller (19) maintains a radio controlled contact to the engine of the tender (22) and deactivates the ignition at a predetermined lift value set by the travel sensor (18).
12. Tender pick-up (1) according to claim 1 or 2, characterized in that the tender pick up (1) is firmly connected to or detachable from the lowarable platform (80) or the swiveling arm (7) or the deck (51) or the sledge (81) and when lowering or and extending the tender pick up (1) in connection to the transom (20) the tender (22) can be launched to water or lifted back on board.
13. Tender pick-up (1) according to claim 1 or 2, characterized in that the stair steps (8a) when being lowered are filled with water throug appropriate openings or and a wing (16) is attached under the stair steps (8a) or platform (80) or lifting body (14).
14. Tender pick-up (1) according to claim 1 or 2, characterized in that the lifting bodies (14) create a static buoyancy and trim the watercraft accordingly as well as executing an upward directed lifting force on the platform (80) or stair (8) by means of the telescopic connectors (15) or and that the gas springs (37) which are fixed to the transom (20) and exerting a force on the platform (80) or stair (8) also create a lifting force on the platform (80) or stair (8), or that the lifting bodies (14) are slanted in accordance to the deadrise of the watercraft by means of the lifting body bearing (13) and when lowering, fold out laterally
15. Tender pick-up (1) according to claim 1 or 2, characterized in that the cylinder (5) or swiveling motor (12) operate manually or hydraulically or pneumatically or electrically or and that the platform (80) or stair (8) or deck (51) has wiring (41) with plug in connectors (42).

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