WO2015155071A1

WO2015155071A1 - Lifting device for a submarine

Info

Publication number: WO2015155071A1
Application number: PCT/EP2015/057072
Authority: WO
Inventors: Burkhard Stoltenberg; Falko FRIEDLAND
Original assignee: Thyssenkrupp Marine Systems Gmbh; Thyssenkrupp Ag
Priority date: 2014-04-10
Filing date: 2015-03-31
Publication date: 2015-10-15
Also published as: EP3129318A1; ES2860717T3; DE102014105125A1; EP3129318B1; KR20160145075A

Abstract

The present invention proposes a lifting device for a submarine, the lifting device comprising a lifting element and a receptacle for providing a storage space, wherein the receptacle can be moved by means of the lifting device along a lifting direction reversibly between a stowage position and a loading position, the receptacle, when in the stowage position, being adjacent to the lifting element at least partially along a direction extending perpendicularly to the lifting direction.

Description

DESCRIPTION

title

Lifting device for a submarine

State of the art

The invention relates to a lifting device for a submarine. Submarines are known to be built as compact as possible and compact. As a result, there is usually no or little storage space left within the submarine that can be used to carry loads. In particular, the entrained loads are limited in size, for example, by the size of the access to the interior of the submarine or by the size of hatches inside the submarine. Thus, comparatively large payloads, such as unmanned

Underwater vehicles (UUV), which are to be brought by a manned submarine to their mission goal, not be carried in a simple and streamlined manner. Although it is known to install such unmanned underwater vehicle, for example, on the outer shell of the submarine, but this will be the driving profile and the

Flow characteristics of the submarine significantly adversely affected.

Disclosure of the invention

It is an object of the present invention to provide a device that allows Mittransport of loads on a submarine. In particular, a recording is to be made available by the Mittransport of such loads can be realized, which are relatively expansive, without causing the outer contour of the submarine is changed. It is desirable to save space as possible and safe the load inside the submarine. In addition, the recording should be easily accessible to facilitate the loading and unloading of the load. In addition, the recording should neither deteriorate the acoustic properties nor the driving characteristics of the submarine or adversely affect.

The object is achieved by a lifting device for a submarine, wherein the lifting device comprises a lifting element and a receptacle for providing a storage space, wherein the recording by means of the lifting element along a lifting direction reversible between a storage position and a loading position is movable, wherein the recording in the stowage position at least partially along a direction perpendicular to the stroke direction extending adjacent to the lifting element is arranged.

Due to the adjacent arrangement of the receptacle to the lifting element can be a space-economical lifting device available in an advantageous manner, which can be integrated into submarines. In the arrangement according to the invention, in particular the size of the recording in a direction parallel to the stroke direction is not through the

Limited stroke. As a result, the receptacle in its extension extending along the stroke direction can be adapted as flexibly as possible to the individual configuration in the inside of the submarine, preferably in a submarine upper deck.

In particular, the lifting element can be arranged at a first distance from the outer skin of the submarine, which is smaller than the extent of the receptacle along the stroke direction. Despite the larger compared to the distance of the lifting element (to the outer skin)

Extension of the recording along the stroke direction, it is possible by the arrangement according to the invention, the recording and thus a in and / or on the recording

arranged load completely submerged or stowed in the submarine interior or in the submarine upper deck. The arrangement also makes it possible to lift the receptacle so far that the receptacle in the loading position can still be arranged at any point outside the submarine when the outer skin of the submarine is curved and thereby lifting the entire lifting out the inclusion on the outer skin of the submarine addition required. As a result, the curvature of the outer skin of the submarine in the choice of the size and location of the lifting device in the

Essentially ignored and, for example, the widest possible lifting device are integrated into the submarine. It is also conceivable that, for example, a

Unnamed underwater vehicle is arranged in the recording and the recording is independently moved to the loading position, so that the unnamed underwater vehicle can be used at a destination. Other examples of intended for Mittransport loads are flameproof storage containers for special units or other special equipment that could not be used due to their size in a submarine without the inclusion of the invention without further notice. Furthermore, it is conceivable that the lifting device is modular composable.

Advantageous embodiments and modifications of the invention are the dependent claims, as well as the description with reference to the drawings.

In a further embodiment, it is provided that the lifting element a

Working cylinder, a first longitudinal strut, a second longitudinal strut, a lifting support and a Load support comprises, wherein the first longitudinal strut, the second longitudinal strut, the lifting support and the load support form a scissors, wherein a distance between the first longitudinal strut and the second longitudinal strut by means of the working cylinder can be fixed. In particular, it is provided that the working cylinder comprises a piston, wherein the piston during

Transition of the lifting device is extended from the stowed position to the loading position (and thus the total length of the cylinder is increased) and retracted at the transition of the lifting device from the loading position to the stowed position (and thus the total length of the working cylinder is reduced). Preferably, the working cylinder is a hydraulic cylinder. By the scissors can be

Realize lifting element, which acts in an advantageous manner in the process uniformly on the recording. In particular, the receptacle can advantageously be moved uniformly, for example without tilting, between the stowage position and the loading position. Furthermore, it is provided that the first longitudinal strut and the second longitudinal strut are arranged directly in the stowed position in a direction parallel to the stroke direction. Preferably, the first longitudinal strut and the second longitudinal strut respectively for fixing on securing elements, which in the stowed position a relative

Prevent displacement of the first longitudinal element to the second longitudinal element in a direction perpendicular to the stroke direction. Especially with shock load and boat movements can be protected from damage in this way, the lifting device or the entrained in the recording load. The include

Securing elements components, such as pins or cams, along a direction perpendicular to the stroke direction positive and / or non-positive

interact and thereby restrict the freedom of movement of the recording.

Furthermore, it is conceivable that the lifting element or the receptacle is fixed in the stowed position by bolts in order to suppress an unwanted displacement during boat movements.

In a further embodiment, it is provided that the working cylinder passes through the first longitudinal strut and / or can be retracted into the storage position in a space-saving manner. As a result, a particularly space-optimized arrangement for the working cylinder can be realized. Here, the curvature of the pressure hull is utilized optimally in terms of space.

In a further embodiment, it is provided that the working cylinder is articulated in a first articulation point on the first longitudinal strut and in a force application point on the lifting support. In particular, it is provided that the working cylinder is pivotable about a first axis extending through the first articulation point, wherein the first axis is substantially perpendicular to the general course of the first longitudinal strut and perpendicular to the stroke direction. By extending the piston, a force acts on the Lifting support and lets it pivot. In the sense of the scissors, the distance between the first longitudinal strut and the second longitudinal strut is thereby increased by the interaction of the lifting support with the load support. Preferably, the working cylinder is pivotally integrated into the first longitudinal strut such that a part protrudes on one side of the longitudinal strut and another part on another side of the longitudinal strut.

In particular, one part of the working cylinder faces the second longitudinal strut and the other part of the working cylinder faces away from the second longitudinal strut.

In another embodiment, it is contemplated that the load support and the lift support are interconnected at a shearing pivot, wherein a lever arm length is determined by the distance between a Hubstützenanlenkungspunkt and the Kraftansatzpunkt, wherein the ratio between the Hebelarmlänge and a total length of the lifting support is a value between 0.2 and 0.5 has. In particular, the lifting support is deflected in the Hubstützenanlenkungspunkt to the first longitudinal strut. With the said

Ratio between lever arm length and overall length of the lifting support can be realized in a favorable manner, a particularly favorable force curve during the process of recording from the stowed position to the loading position or from the loading position to the stowed position. As a result, it is possible to advantageously integrate a working cylinder with a comparatively small diameter and a small piston length in the lifting device, which ensures despite the small diameter and the small piston length required for the method of recording stroke. This can be realized in an advantageous manner, a particularly space-saving lifting device.

In a further embodiment, it is provided that the recording in the stowage position in the interior of the submarine, especially in a submarine upper deck or light

Outer vessel, and is located in the loading position outside the submarine. It is also conceivable that the receptacle is arranged in the stowed position in a flooded area of the submarine, in particular of the submarine upper deck, and / or outside the pressure hull of the submarine. Preferably, the recording can be with the inventive

Submerge the lifting device in the submarine that streamlining of the submarine is not adversely affected by the Mittransportieren the load. Furthermore, the recording in the loading position can be provided both for unloading and for loading. Another advantage is that the receptacle is located in the loading position completely outside the submarine, whereby the unloading or loading of the recording is significantly improved or facilitated.

In a further embodiment, it is provided that the receptacle is a framework includes, wherein a load to be transported on the frame framework is reversibly fastened. Preferably, the mitzutransportierende load is bolted to the frame scaffold. But it is also conceivable that the load to be carried on belts or ropes with the

Framework is connected. In this case, the framework may have means which are suitable for receiving screws, ropes or other fastening means. For example, the framework has eyelets. It is conceivable that the framework is adapted individually to the load to be carried. As a result, there is the advantage of a special backup of the entrained load in the recording, whereby the load against external forces from slipping or even loosening from the

Recording can be protected.

In a further embodiment, it is provided that between the lifting element and / or the further lifting element and a bottom element of the submarine a

Damping element is arranged. Due to the damped mounting of the receptacle inside the submarine, the protected mounting of the receptacle in the inside of the submarine is further improved. The damping elements thus effectively realize one

Shock protection that protects the receptacle and the load carried in it in the stowed position. In a further embodiment, it is provided that a further damping element is arranged between the framework and the outer lining. Due to the additional damping element, the receptacle and thus the potentially entrained load can be stored in a particularly protected manner against the effects of sea shock or the like, in particular the movement and vibrations of the outer lining.

In particular, the further damping element prevents the transmission of the movement from the upper deck to the outer lining of the frame scaffolding, in particular in the event of a sea shock. Furthermore, the further damping elements of the second longitudinal strut impart the necessary freedom of movement during shock loading. The other damping elements thereby effectively implement a shock protection relative to the outer lining

In a further embodiment, it is provided that the frame scaffold comprises a U-shaped support member, wherein the U-shaped support member connects the lifting element and another lifting element with each other. Due to the U-shaped carrier element, the weight to be traversed by the lifting element and the further lifting element can be divided substantially equally between the two lifting elements. In addition, the synchronous movement in the process of recording by the coupling via the U-shaped support member is mechanically supported. In particular, it is conceivable that the Framework additionally comprises cross struts, which extend substantially in a plane perpendicular to the stroke direction. Through the cross struts, the synchronous movement of the two lifting elements can be further mechanically supported and the stability of the

Frame framework can be further improved by their stiffening effect.

In a further embodiment, it is provided that the further lifting element is substantially identical in construction to the lifting element. As a result, the force required for the extension can be advantageously distributed to a plurality of lifting elements. In a further embodiment, it is provided that the lifting support and the load support each comprise a guide element, wherein the guide element of the load support is guide-mounted in a first slot in the first longitudinal strut, the guide element of the lifting support in a second slot in the second longitudinal strut feasible is stored. In particular, can be determined by the length of the slots and the position of the slots in the first longitudinal strut or second longitudinal strut a maximum extension position or a maximum retracted position of the recording.

In a further embodiment, it is provided that the first longitudinal strut and the second longitudinal strut in the stowed position at least partially encase or envelop the load support and the lifting support. Ie. the components of the lifting element move in the transition from the loading position to the storage position into each other, thereby advantageously saving space. For this purpose, it is provided, for example, that the first and the second longitudinal strut are designed in part shell-shaped and in the stowed position at least partially encase or envelop the load support and the lifting support. Furthermore, it is provided that the working cylinder passes through the first longitudinal strut and is completely stowed in the stowed position between the first longitudinal strut and the second longitudinal strut. It is conceivable that the cup-shaped parts of the first and the second longitudinal strut are in the stowed position in contact. This can be advantageously in the

Stowage position to realize a particularly compact lifting element.

In a further embodiment, it is provided that the lifting element and / or the further lifting element are arranged on floor elements, the working cylinder, in particular a drive of the working cylinder, in the loading position at least partially extending between two floor elements along the parallel to the longitudinal axis of the submarine Direction is arranged. Preferably, the first longitudinal strut is arranged on the floor elements. This makes it possible to realize a particularly space-saving arrangement for the components of the lifting device. In a further embodiment, it is provided that an outer lining is mounted and configured on the framework in such a way that in the stowage position the

Exterior lining of the framework in the stowage position, the submarine substantially closes. As a result, a submarine can be realized, which does not worsen its streamlinedness despite the entrainment of a load in an advantageous manner. Furthermore, it is conceivable that the outer lining is configured on the framework so that the acoustic properties of the submarine are not degraded by the carrying of the load.

In a further embodiment, it is provided that the lifting direction is perpendicular to a plane running parallel to an upper deck of the submarine. Preferably, the receptacle or the load is moved out vertically from the upper deck. Advantageously, no additional space is required in front of or behind the receptacle or the load, as is dispensed with a pivoting movement.

In a further embodiment, it is provided that a part of a pressure hull of the submarine is arranged between two floor elements along the direction perpendicular to the longitudinal axis. Preferably, the pressure body between the

Floor elements curved or curved, wherein the bottom elements are arranged approximately at the same height to each other on the pressure hull. In particular, it is provided that the entire lifting device is mounted outside of the pressure body on this, wherein the distance of the load to the pressure body in the region of the lifting element on her

Bottom is larger than on its underside in the middle region of the load between the lifting element and the other lifting element. The longitudinal struts are the

Lifting device aligned substantially parallel to the longitudinal axis of the pressure hull. This allows the lifting device to save space in submarine, for example, integrate within the upper deck. In a further embodiment, it is provided that the load

Is arranged in the stowed position along a direction perpendicular to the longitudinal axis of the submarine between two ground elements,

- Is arranged in the stowed position along the direction perpendicular to the longitudinal axis of the submarine direction between the lifting element and the other lifting element, and / or

- The second longitudinal strut is disposed in an upper part of the load. This will do that space-saving arrangement of the lifting device by the vote with the design of the submarine further improved.

Another object is a submarine with a lifting device according to one of the embodiments described above.

Brief description of the figures

Figure 1 shows a lifting device for a submarine according to a first exemplary

Embodiment of the present invention in a submarine integrated representation.

Figure 2 shows the lifting device for the submarine according to the first example

Embodiment of the present invention in a isolated from the submarine representation. Figures 3 a- 3 h show the successive process of recording from the stowed position to the loading position.

FIG. 4 schematically shows a lifting element for a lifting device according to a fourth exemplary embodiment of the present invention.

Embodiments of the invention

In the various figures, the same parts are always provided with the same reference numerals and are therefore usually named or mentioned only once in each case.

1 shows a lifting device 1 for a submarine 10 according to a first exemplary embodiment of the present invention. In the selected form of representation shows how the lifting device 1 in a submarine 10 can be arranged or integrated. The submarine 10 has an outer shell 59, which was omitted for better visibility in the lifting device 1 partially in the illustration. Preferably, the lifting device 1 has a lifting element 1 1 and a substantially to the second

Lifting element identical further lifting element, between which a receptacle 15 is arranged. In this case, the receptacle 15 can be realized, for example, by a container 6, in which a load to be carried can be placed, and / or by a carrier element, to which the load to be carried can be fastened. Preferably, the receptacle 15 comprises a frame with a U-shaped support member 17 which connects the lifting element 1 1 and the further lifting element 12 together. Furthermore, it is envisaged that the Lifting element 1 1 or the further lifting element 12 is arranged on one or more foundations or floor elements 5, wherein the foundations or bottom elements 5 are preferably rigidly connected to the submarine 10. In particular, it is provided that the lifting elements are supported by evenly distributed foundations or floor elements 5. It is conceivable that by the height of the foundation or

Floor element 5 or the foundations or floor elements 5 a space is determined, which also determines how high the receptacle 15 can be dimensioned in a direction parallel to a stroke direction A direction. Furthermore, damping elements 32 or shock elements can be arranged between the foundation or base element 5 and the lifting elements. The damping elements 32 and shock elements allow the

load to be transported against possible damage - for example by a

Shock stress causes - to preserve, in particular to protect the mechanics and if the mitzutransportierende load shock sensitive. Furthermore, it is provided that the receptacle 15 along the stroke direction A from a loading position into a

Jam position or from a stowed position into a loading position can be transferred. In Figure 1, the receptacle 15 is in the loading position, in which it is provided, the

unloaded or loaded with transported or transported along load. For this purpose, the receptacle 15 is arranged outside of the submarine 10. In particular, the receptacle projects in the loading position, preferably completely, out of the interior of the submarine 10. Furthermore, it is provided that the lifting element 1 1 and the further lifting element 12 each have a first longitudinal strut 21 and a substantially parallel to the first longitudinal strut 21 arranged second longitudinal strut 22, wherein the distance between the first and the second longitudinal strut 21 and 22, the position the recording 15 along the stroke direction A determines. Furthermore, it is provided that the receptacle 15 is arranged relative to the first longitudinal strut 21 such that the receptacle 15 is arranged along a direction parallel to the stroke direction A below the first longitudinal strut 21. It is conceivable that the receptacle 15 in the stowage position at least partially in a direction perpendicular to the stroke direction A direction adjacent to the foundations or

Floor elements 5 is arranged. In particular, it is envisaged that

- Define the first longitudinal struts 21 of the lifting element 1 1 and the other lifting element 12 a substantially perpendicular to the stroke direction A first plane and - the second longitudinal strut 21 of the first lifting element 1 1 and the other lifting element 12 a substantially perpendicular to the stroke direction A second Set level. Preferably, it is provided that the receptacle 15 is arranged in the loading position between the first plane and the second plane and in the stowed position substantially below the first plane. Furthermore, it is provided that the imaginary first plane in the stowage position through the receptacle 15, preferably through the upper half of the receptacle 15th and most preferably passes through the upper third of the receptacle 15 (, wherein the upper half and the upper third of the receptacle 15 is the part of the receptacle 15, which faces the outer shell 59 of the submarine 10 in the loading position). As a result of such an arrangement of the receptacle 15 in the stowed position, a part of the receptacle 15 will be arranged below the first longitudinal struts 21 of the lifting elements. According to the first exemplary embodiment, the receptacle 15 is movable along a stroke direction A, which in the

Substantially perpendicular to the general course of an upper deck 9 of the submarine 10 extends. This can be dispensed with advantageously in an additional space in front of or behind the receptacle 15, since no pivotal movement of the receptacle 15 is necessary. For further stiffening of the lifting device 1 and for the mechanical support of the synchronous movement of the lifting elements, the lifting device 1 on transverse struts 29, which connects the second longitudinal struts 22 of the first and second lifting element 1 1 and 12 together. 2, the lifting device 1 for the submarine 10 according to the first exemplary embodiment without the submarine 10 is shown. Based on this presentation will be discussed in detail on the operation of the lifting element 1 1. The lifting element 1 1, in addition to the first longitudinal strut 21 and the second longitudinal strut 22 also includes a lifting support 23 and a load support 24, wherein the first longitudinal strut 21 and the second

Longitudinal strut 22 via the lifting support 23 and the load support 24 are interconnected. In particular, the first longitudinal strut 21, the second longitudinal strut 22, the lifting support 23 and the load support 24 form a scissors. In particular, it is provided that the scissors be configured such that the complete retraction of the receptacle 15 in the stowage position can be realized. In this way, a comparatively large lifting height can be achieved with a low overall height. It is provided that the distance between the first longitudinal strut 21 and the second longitudinal strut 22 is determined by the orientation of the lifting support and the longitudinal strut 21. Is to

- The lifting support 23 preferably to the first longitudinal strut 21 in one

Hubstützenanlenkungspunkt 42 and

- The load support 24 preferably to the second longitudinal strut 22 in a

Laststützenanlenkungspunkt 43

hinged. Furthermore, the first longitudinal strut 21 in the sense of a slotted guide a first slot 25 and the second longitudinal strut 22 in the sense of a slotted guide a second slot 26. It is provided that

- The load support 24 via a guide element 53, for example, a cam with

Gleitstein, in the first slot 25 of the first longitudinal strut 21 feasible and

- The lifting support 23 via a guide member 53, for example, a cam with Gleitstein, in the second slot 26 of the second longitudinal strut 22nd

is stored executable. Furthermore, it is provided that the first slot 25 of the first longitudinal strut 21 or the second slot 26 of the second longitudinal strut 22 extends substantially perpendicular to the stroke direction A. Furthermore, the lifting support 23 and the load support 24 are mounted to each other such as a pair of scissors in a shear pivot 52 to each other. By the connection of the lifting support 23 with the first longitudinal strut 21 and the second

Longitudinal strut 22, as well as the connection of the load support 22 with the first longitudinal strut 21 and the second longitudinal strut 22 is determined by the orientation of the lifting support 23, a degree of pivoting between the lifting support 23 and the first longitudinal strut 21, in turn, the distance between the first and the second longitudinal strut 21 and 22 determined. In this case, an at least partial freedom of movement required for pivoting is given by the first and the second oblong holes 25 and 26. In particular, it is conceivable to set by the length of the slots the maximum degree of pivotability of the lifting support 23 and load support 24 in coordination with a maximum extended position of the receptacle 15 from the submarine 10. For aligning the lifting support 23, a working cylinder 30, preferably a hydraulic cylinder, is provided, which is arranged pivotably on the first longitudinal strut 21. In particular, the working cylinder 30 is arranged on the first longitudinal strut 21 such that a part of the working cylinder 30 protrudes on the second longitudinal strut 22 side facing out of the first longitudinal strut 21 and another part of the working cylinder 30 on the second longitudinal strut 22 side facing away from the first longitudinal strut 21 protrudes. Particularly preferably, the working cylinder engages through the first longitudinal strut 21 and can be retracted therein in the stowage position. For power transmission, the one end of the working cylinder 30 is articulated at a force application point 51. In particular, it is provided that it is provided that a

Hebelarmlänge 28 is determined by the distance between a Hubstützenanlenkungspunkt 42 and the Kraftansatzpunkt 51, wherein the ratio between the Hebelarmlänge 28 and a total length of the lifting support 27 has a value between 0.2 and 0.5. For power transmission of the working cylinder 30 extends its length, in which it extends a piston, and thereby pivots the lifting support 23. By the lifting support 23 and its connection to the load support 24, it is then possible to move the second longitudinal strut 22 parallel to the first longitudinal strut 21 , The distance between the first and second

Longitudinal strut 21 and 22 is enlarged. It is preferably provided that the first and / or the second longitudinal strut 21 and / or 22 at least partially encase the lifting support 23 and the load support 24. In particular, it is provided that the first and / or the second longitudinal strut 21 and / or 22 have a shell structure with which the first longitudinal strut 21 and the second longitudinal strut 22, in particular in the stowed position of the lifting device, at least partially the lifting support 23, the load support 24 and / or the Shroud or envelop working cylinder 30. Preferably, the first longitudinal strut 21 and the second longitudinal strut 22 are superimposed in the stowed position and form a box-like structure in which the working cylinder is arranged. Furthermore, it is conceivable that the first longitudinal strut 21 and the second longitudinal strut 22 cooperate positively and / or frictionally via securing elements along a direction substantially perpendicular to the stroke direction in the stowed position in order to potentially displace the first longitudinal strut 21 relative to the second longitudinal strut 22 to prevent. As a result, the receptacle 15 and thus the mittransportierte load is further secured in the stowed position. In the figures 3a to 3h is a successive method of recording 15 of the

Jam position shown in the loading position, wherein the receptacle 15 is arranged in Figure 3a in the stowed position and in Figure 3h in the loading position. By means of an outer covering 60 arranged above the framework, it is possible-as shown in FIG. 3a-to arrange the receptacle in the interior of the submarine 10 and, at the same time, a closure 58 terminating flush with the outer covering 59 of the submarine 10 to realize the submarine 10. In addition, the outer shell 59 may be configured such that, despite the co-transport of a load, the streamlining capability and the acoustic capabilities of the submarine 10 are not degraded. In particular, it is provided to move the receptacle 15 continuously and uniformly out of the interior of the submarine 10. In the loading position, shown in FIG. 3h, the receptacle 15 is arranged completely outside the upper deck. In such an arrangement, the unloading or loading of the receptacle 15 is easy and convenient to implement. It is also conceivable that a vehicle placed in the receptacle 15 for transport can leave the submarine 10 in such an arrangement without great difficulty.

In Figure 4 is a lifting element 1 1 for a lifting device 1 according to a fourth

exemplary embodiment of the present invention shown. It should highlight the figure 4, at which point the force application point 51 is arranged in an advantageous manner. The lifting element 1 1 corresponds in its basic features to the lifting element 1 1, which has been described in Figure 2. For the best possible force curve, it is provided that the force application point 51 is arranged between the Hubstützenanlenkungspunkt 42 and the Scherendrehpunkt 52. As a result of the position of the force application point 51, a lever arm length 28 is thereby defined which extends from the lifting support articulation point 42 to the force application point 51. In particular, it is provided that the ratio of the lever arm length 28 to a total length of the lifting support is between 0.2 and 0.5. Under these geometric conditions, the most favorable force curves for the lifting element 1 1, which saves space in the submarine 10 results. LIST OF REFERENCE NUMBERS

I lifting device

5 foundation / floor element

6 containers

9 upper deck

10 submarine

I I lifting element

12 additional lifting element

15 recording

16 cross strut

17 U-shaped support element

21 first longitudinal strut

22 second longitudinal strut

23 lifting support

24 load support

25 first slot

26 second slot

27 Total length of lifting support

28 lever arm length

29 cross strut

30 working cylinders

31 further damping element

32 damping element

41 first articulation point

42 Hubstützenanlenkungspunkt

43 Laststützenanlenkungspunkt

51 force starting point

52 Scherendrehpunkt

53 guide element

59 outer shell

60 outer lining

A stroke direction

Claims

CLAIMS:

1 . Lifting device (1) for a submarine (10), wherein the lifting device (1) comprises a lifting element (1 1) and a receptacle (15) for providing a storage space, wherein the receptacle (15) by means of the lifting element (1 1) along a stroke direction (A) is reversibly movable between a stowed position and a loading position, wherein the

Recording (15) in the storage position at least partially along a direction perpendicular to the stroke direction (A) extending direction adjacent to the lifting element (1 1) is arranged.

2. lifting device (1) according to claim 1, wherein the lifting element (1 1) a

Working cylinder (30), a first longitudinal strut (21), a second longitudinal strut (22), a lifting support (23) and a load support (24), wherein the first longitudinal strut (21), the second longitudinal strut (22), the lifting support ( 23) and the load support (24) are assembled into a scissors, wherein a distance between the first

Longitudinal strut (21) and the second longitudinal strut (22) by means of the working cylinder (30) can be fixed.

3. Lifting device (1) according to claim 2, wherein the working cylinder (30) on the first longitudinal strut (21) and in a force application point (51) on the lifting support (23) is articulated, wherein the load support (24) and the lifting support (23 ) in one

Scherendrehpunkt (52) are interconnected, wherein a Hebelarmlänge (28) by the distance between a Hubstützenanlenkungspunkt (42) and the Kraftansatzpunkt (51) is fixed, the ratio between the

Lever arm length (28) and a total length (27) of the lifting support (23) has a value between 0.2 and 0.5.

4. lifting device (1) according to one of the preceding claims, wherein

- The receptacle (15) in the stowed position in the interior of the submarine (10) is arranged and in the loading position outside of the submarine (10) is arranged and / or

- The lifting device (1) is aligned substantially parallel to a longitudinal axis of the submarine (10).

5. Lifting device (1) according to one of the preceding claims, wherein the

Receiving (15) comprises a framework, wherein a load to be transported on the frame stand is reversible (fastened).

6. lifting device (1) according to claim 5, wherein the frame skeleton comprises a U-shaped support member (17), wherein the U-shaped support member (17) the

Lifting element (1 1) and another lifting element (12) interconnects, wherein the further lifting element (12) is substantially identical to the lifting element (1 1).

7. Lifting device (1) according to one of claims 2 to 6, wherein the lifting support (23) and the load support (24) comprise a guide element (53), wherein the

Guide element (53) of the load support (24) in a first slot (25) in the first longitudinal strut (21) is guideway mounted, wherein the guide element (53) of the lifting support (23) in a second slot (26) in the second longitudinal strut ( 22) is mounted executable.

8. Lifting device (1) according to one of claims 2 to 7, wherein the first longitudinal strut (21) and / or the second longitudinal strut (22) in the stowage position, the load support (24) and the lifting support (23) at least partially envelop.

9. Lifting device (1) according to one of the preceding claims, wherein between a bottom element (5) of the submarine (10) and the lifting element (1 1) and the further lifting element (12) each have a damping element (32) is arranged.

10. Lifting device (1) according to one of claims 5 to 9, wherein a

Outer lining (60) is mounted and configured on the framework in such a way that in the stowed position the outer lining (60) of the framework in the stowed position the U-boat (10) closes aerodynamically, wherein between

Frame scaffold and outer panel (60), a further damping element (31) is arranged.

1 lifting device (1) according to claim 9 or 10, wherein the lifting element (1 1) and / or the further lifting element (12) on bottom elements (5) are arranged, wherein the working cylinder (30) in the loading position at least partially between two

Floor elements (5) along the direction parallel to the longitudinal axis of the submarine (10) extending direction is arranged.

12. lifting device (1) according to one of the preceding claims, wherein between two bottom elements (5) along a direction perpendicular to the longitudinal axis direction of a part of a pressure hull of the submarine (10) is arranged

13. Lifting device (1) according to one of the preceding claims, wherein the load

- Is arranged in the stowed position along a direction perpendicular to the longitudinal axis of the submarine (10) extending direction between two bottom elements (5),

- In the stowed position along the direction perpendicular to the longitudinal axis of the submarine (1) extending direction between the lifting element (1 1) and the other

Lifting element (12) is arranged, and / or

- The second longitudinal strut (22) is arranged in an upper part of the load.

14. Lifting device (1) according to one of the preceding claims, wherein the

Lifting direction (A) perpendicular to a plane parallel to an upper deck (9) of the submarine (10) extending plane.

15. U-boat (10) with a lifting device (1) according to one of the preceding

Claims.