EP3347668B1 - Device for transporting a torpedo from a transport carriage to a launching tube - Google Patents

Description

The present invention relates to a device for transporting a torpedo from a carriage to a launch tube, in particular for a surface ship.

In a surface ship, the torpedoes are stored and prepared in a first room, and the launch tubes are disposed in a second room remote from the first room. Thus, when it is desired to introduce a torpedo into a launch tube, it is necessary to route the torpedo from the first room to the second room.

For this purpose, the torpedo is usually arranged on a carriage carriage in the first room, this carriage being movable to allow the transport of the torpedo to the second premises. However, the entrance of the second room usually has a threshold that such a truck can not usually cross. It is therefore necessary to transport the torpedo from this carriage to the launch tube. In order to avoid any mishandling, the transport of the torpedo must be secure, regardless of the state of the sea, regardless of the vessel's movements.

Already known in the state of the art, a transport carriage comprising a translation system for translating the torpedo from the threshold of the second room to the launch tube. However, such a translation system is not sufficiently secure. In particular, this translation system can be driven by the weight of the torpedo, especially in case of roll. In addition, such a transport carriage is particularly heavy, so difficult to maneuver.

We also know, according to EP 2,088,077 , a torpedo loading device from outside the underwater vehicle.

The object of the invention is in particular to remedy these drawbacks, by proposing a device for transporting a torpedo from a transport carriage to a launch tube, enabling secure transportation of the torpedo.

For this purpose, the subject of the invention is in particular a device for transporting a torpedo from a carriage to a launch tube, according to claim 1.

This device allows a simple and efficient transport of the torpedo, in a secure manner, by actuating the winch.

• Le câble d'entraînement s'étend depuis une première extrémité fixée à l'organe d'arrimage, passe par la première poulie, puis par le treuil, jusqu'à une seconde extrémité fixée à l'organe d'arrimage.
• Le câble d'entraînement passe par une seconde poulie, entre le treuil et sa seconde extrémité, cette seconde poulie étant montée sur des moyens d'ajustement de la distance entre la seconde poulie et le treuil.
• L'organe d'arrimage comporte des moyens de fixation à la torpille, notamment à une extrémité arrière de la torpille, et un bras solidaire des moyens de fixation, ledit bras portant des moyens d'accrochage du câble d'entraînement.
• Le bras de l'organe d'arrimage s'étend entre une première extrémité solidaire des moyens de fixation, disposée en dessous de ces moyens de fixation dans une direction verticale, et une seconde extrémité disposée au-dessus de ces moyens de fixation dans la direction verticale, les moyens d'accrochage étant de préférence agencés à cette seconde extrémité.
• Le bras comporte une première partie, comprenant la première extrémité, s'étendant sensiblement perpendiculairement à la direction verticale, et une seconde partie, comprenant la seconde extrémité, inclinée par rapport à la direction verticale et formant un angle obtus avec la première partie.
• La structure de convoyage comporte au moins un longeron s'étendant entre une extrémité avant reliée à la structure de support par une liaison pivot, et une extrémité arrière portée par au moins un pied de longueur variable.
• Les moyens de réception et de guidage de la torpille comportent des paires de galets alignées le long de la structure de convoyage, les galets de chaque paire étant inclinés l'un vers l'autre de manière à former un creux de réception de la torpille.
• Le treuil comporte des moyens anti-retour, empêchant une rotation du treuil par traction sur le câble d'entraînement.

A transport device according to the invention may further comprise one or more of the following characteristics, taken alone or in any technically feasible combination.

• The drive cable extends from a first end attached to the securing member, passes through the first pulley, and then through the winch, to a second end attached to the securing member.
• The drive cable passes through a second pulley, between the winch and its second end, this second pulley being mounted on means for adjusting the distance between the second pulley and the winch.
• The lashing member comprises means for fastening to the torpedo, in particular at a rear end of the torpedo, and an arm secured to the fastening means, said arm carrying means for hooking up the drive cable.
• The arm of the securing member extends between a first end secured to the fixing means, disposed below these fixing means in a vertical direction, and a second end disposed above these fixing means in the vertical direction, the attachment means being preferably arranged at this second end.
• The arm includes a first portion, including the first end, extending substantially perpendicular to the vertical direction, and a second portion, including the second end, inclined with respect to the vertical direction and at an obtuse angle with the first portion.
• The conveying structure comprises at least one spar extending between a front end connected to the support structure by a pivot connection, and a rear end carried by at least one foot of variable length.
• The means for receiving and guiding the torpedo comprise pairs of rollers aligned along the conveying structure, the rollers of each pair being inclined towards each other so as to form a receiving cavity of the torpedo.
• The winch has non-return means, preventing a winch rotation by pulling on the drive cable.

• une étape de fixation de la structure de support à proximité du tube de lancement,
• une étape d'accrochage de la première poulie sur la structure de support,
• une étape de mise en place de la structure de convoyage entre le chariot d'acheminement et le tube de lancement,
• une étape d'installation de la structure d'entraînement, et de fixation de l'organe d'arrimage à la torpille, et
• une étape de transport de la torpille, par actionnement du treuil.

The invention also relates to a method for transporting a torpedo from a carriage to a launch tube, characterized in that it is produced by means of a transport device as defined above, and in that 'it comprises :

• a step of fixing the support structure near the launch tube,
• a step of hooking the first pulley on the support structure,
• a step of setting up the conveyor structure between the transport carriage and the launch tube,
• a step of installing the drive structure, and fixing the torpedo securing member, and
• a step of transporting the torpedo, by actuation of the winch.

• la figure 1 est une vue en perspective d'un dispositif de transport selon un exemple de mode de réalisation de l'invention ;
• la figure 2 est une vue en perspective d'une structure de convoyage du dispositif de transport de la figure 1 ;
• la figure 3 est une vue en perspective d'un organe d'arrimage faisant partie d'une structure d'entraînement de la torpille du dispositif de transport de la figure 1 ;
• la figure 4 est une vue en perspective de la structure de convoyage de la figure 2, lors de sa mise en place ;
• la figure 5 est une vue similaire à la figure 4 représentant la mise à niveau du chariot d'acheminement et de la structure de convoyage pour permettre le passage de la torpille de l'un à l'autre ;
• la figure 6 est une vue en perspective du dispositif de transport, lors de l'entraînement de la torpille vers le tube lance-torpille.

The invention will be better understood on reading the description which follows, given solely by way of example and with reference to the appended figures, among which:

• the figure 1 is a perspective view of a transport device according to an exemplary embodiment of the invention;
• the figure 2 is a perspective view of a conveying structure of the transport device of the figure 1 ;
• the figure 3 is a perspective view of a securing member forming part of a torpedo drive structure of the transport device of the figure 1 ;
• the figure 4 is a perspective view of the conveyor structure of the figure 2 , when it is put in place;
• the figure 5 is a view similar to the figure 4 representing the leveling of the conveyor carriage and the conveyor structure to allow the passage of the torpedo from one to the other;
• the figure 6 is a perspective view of the transport device, when driving the torpedo to the torpedo tube.

On the figure 1 , a device 10 for transporting a torpedo 12 from a transport carriage 14 to a launch tube 16.

The torpedo 12 and the launch tube 16 are conventional and will not be described in detail. It should however be noted that the torpedo 12 has, at the rear, a standardized interface 17, in particular visible on the figures 4 and 5 .

The launch tube 16 is disposed in a room having an inlet 18 facing the launch tube 16. This inlet 18 comprises a threshold 20 preventing the passage of the carriage 14 in the room.

The carriage 14 comprises a frame 21 mounted on conventional rolling means 22 for moving the carriage 14, and includes operating means 24, also of conventional type.

The carriage 14 comprises a reception part 26 intended to receive the torpedo 12. It should be noted that the torpedo 12 is preferably strapped when it is disposed on this reception part 26, for security reasons.

The reception part 26 is connected to the frame 21 by means of hoisting means 28 for vertically displacing this reception part 26 between a low position (shown in FIG. figure 4 ) and a high position.

The reception part 26 is preferably in its lower position when the carriage 14 is moved with the torpedo 12 disposed on this reception part. Thus, the center of gravity of the torpedo is low, which improves the stability of the carriage 14.

The hauling means 28 also make it possible to hoist the torpedo 12 to the height of the launching tube 16, as represented on the figures 1 or 5 . This position at the height of the launch tube 16 may be said high position, when the carriage is configured to coincide this high position with the height of the launch tube 16, or alternatively be an intermediate position between the low position and the high position. in which case this intermediate position is chosen by an operator.

The carriage 14 finally comprises means 23 for blocking the ground, of conventional type, for immobilizing the carriage 14 in position, in particular facing the launching tube 16, as shown in FIG. figure 1 .

The transport device 10 comprises a support structure 30, intended to be arranged close to the launching tube 16. In the example, the support structure 30 comprises lower uprights 32, 33 fixed to the ground, below the support tube. corresponding launch 16. For optimum stability, the support structure 30 comprises, for example, two first lower vertical uprights 32, and two second inclined lower uprights 33 each connected to a vertical upright 32 and fixed to the floor.

The support structure 30 also comprises upper uprights 34, attached to the lower uprights 32, 33 and extending vertically up to the top of the launch tube 16.

A first pulley 36 is carried by these upper uprights 34, via a pivot connection axis perpendicular to a longitudinal direction of the launch tube 16.

The support structure 30 finally comprises a support cross member 38, disposed under the launch tube 16 and carried by the lower uprights 32, 33.

The transport device 10 further comprises a conveyor structure 40 shown in more detail on the figure 2 .

The conveying structure 40 is intended to be arranged between the conveying trolley 14 and the launching tube 16. More particularly, the conveying structure 40 is intended to be fixed, rigidly, in the extension of the launch tube 16 , so that when a torpedo 12 is disposed on this structure e conveying, the axis of this torpedo 12 coincides with the axis of the launch tube 16, without the need to make adjustments.

This conveyor structure 40 comprises at least one spar 44, for example two side members 44 parallel to each other, each extending between a front end 44A intended to be connected to the support structure 30, in particular to the support cross member 38, by a pivot connection, and a rear end 44B carried by a foot 46 of variable length, for example a telescopic foot 46. Advantageously, the connection between the second end 44B and the telescopic foot 46 is a pivot connection, which makes it possible to fold the foot 46 onto the spar 44 for transporting and storing the conveying structure 40.

Receiving and guiding means 42 for the torpedo 12 are carried by the longitudinal members 44. These receiving and guiding means comprise, for example, pairs of rollers 48 aligned along the longitudinal members 44. The rollers of each pair 48 are inclined. one to the other so as to form a receiving hollow of the torpedo 12. The torpedo 12 is likely to be disposed in the receiving cavity, and guided longitudinally by the rollers.

The conveying structure 40 advantageously comprises handles 50, for example fixed to the longitudinal members 44, allowing the transport of this conveying structure, generally by two operators, in order to arrange it at its location for its use.

As shown on the figure 4 , the conveyor structure 40 is put in place firstly by connecting the first end 44A of each spar 44 to the support beam 38 of the support structure 30. The spars 44 are then likely to tilt around the pivot connection , to bring the second end 44B of each spar 44 to a height chosen by the operators, for example in order to maintain the spars 44 horizontally as shown in FIG. figure 5 . The feet 46 are then deployed to maintain these second ends 44B at the chosen height, and are locked in position.

The transport device 10 furthermore comprises a torpedo-driving structure 52 comprising a winch 54 mounted on a support 56, a securing member 58 intended to be fixed to the torpedo 12, and a training cable. 60 extending at least partially between the winch 54, around which it is partially wound, and the securing member 58, through the first pulley 36. The winch 54 is intended to be arranged behind the torpedo 12 , so that the torpedo 12 is disposed between the winch 54 and the first pulley 36.

The drive cable 60 extends from a first end 60A fixed to the securing member 58, passes through the first pulley 36, then through the winch 54, to a second end 60B also attached to the member stowage 58.

The driving cable 60 is for example wound on at least three turns around the winch 54, so that the actuation of the winch 54 can drive the drive cable 60.

Advantageously, the drive structure 52 comprises a second pulley 62, also carried by the support 56, the drive cable 60 passing through the second pulley 62, between the winch 54 and its second end 60B.

This second pulley 62 is mounted on adjustment means 64 making it possible to adjust the distance between this second pulley 62 and the winch 54, thus making it possible to ensure the tension of the drive cable 60. The adjustment means 64 are for example formed by a tilting arm provided with means 66 for adjusting the inclination of the arm 64.

The securing member 58, shown in more detail on the figure 3 , comprises means 68 for fastening to the torpedo 12, in particular at the rear end of this torpedo 12, and more particularly to the standardized interface 17. The securing member 58 also comprises an arm 70 secured to these means fastening 68, this arm carrying first 72A and second 72B means of attachment to the drive cable 60. More particularly, the first attachment means 72A allow attachment of the first end 60A of the drive cable 60, and the second attachment means 72B allow attachment of the second end 60B of the drive cable 60.

The arm 70 extends between a first end 70A secured to the fixing means 68, disposed below these fixing means 68 in a vertical direction, to a second end 70B disposed above these fixing means 68 in the vertical direction. The first attachment means 72A are preferably arranged at this second end 70B. On the other hand, the second attachment means 72B are carried by the arm 70 substantially at the height of the fastening means 68.

The arm 70 has a first portion 74, including the first end 70A, extending substantially perpendicular to the vertical direction, and a second portion 76, including the second end 70B, inclined with respect to the vertical direction and forming an obtuse angle with the first part 74, as shown on the figure 3 .

This form of the securing member 58 prevents tilting of the torpedo 12 when it is pulled by the drive cable 60, in particular by its first 60A or 60B end.

In addition, the inclination of the second portion 76 can transport the torpedo 12 in the launch tube 16 to its final position.

The winch 54 has a crank, and can be operated in a first direction, and in a second opposite direction. When the winch 54 is actuated, the drive cable 60 is driven, and then pulls on the securing member 58, via the first pulley 36 or the second pulley 62.

In the first direction, the drive cable 60, at its first end 60A, drives the securing member 58, thus the torpedo 12, through the first pulley 36, towards the launch tube 16.

In the second direction, the drive cable 60, at its second end 60B, drives the securing member 58, thus the torpedo 12, through the second pulley 64, away from the launch tube 16.

Advantageously, the winch 54 comprises non-return means, preventing a rotation of this winch 54 by traction on the drive cable 60. Thus, the torpedo 12 can not actuate the winch by its weight, and therefore can not move freely.

The anti-return means are of a type known per se, and do not include an irreversible wheel marketed under the name "irreversible IR" by Ringspann®.

Such an irreversible wheel acts in both directions of rotation as a freewheel with rollers equipped with bearings. While a traditional freewheel transmits the torque from the motor shaft in a single direction of rotation, in the case of the irreversible wheel, the motor shaft is driven in both directions. However, there is a blocking action against possible torque returns from the driven shaft, regardless of the direction of rotation requested.

A method of transporting a torpedo 12 from the transport carriage 14 to the launch tube 16 will now be described.

First, the transport method comprises a step of fixing the support structure 30 near the launch tube 16, as shown in FIG. figure 4 .

The transport method then comprises a step of hooking the first pulley 36 on this support structure 30.

The method then comprises a step of setting up the conveyor structure 40, connecting the first end 44A of each of its longitudinal members 44 to the support cross member 38 of the support structure 30.

The conveyor carriage 14 is then conveyed to the threshold 20 of the location of the launch tube 16, so that the torpedo 12 is in alignment with the conveyor structure 40, as shown in FIG. figure 4 .

The hoisting means 28 of the carriage 14 are then activated to hoist the torpedo 12 to the height of the launch tube 16, as shown in FIG. figure 5 . The conveyor structure 40 is also pivoted around the pivot connection with the support structure 30, to place the longitudinal members 44 in the extension of the support portion 26 of the carriage 14.

The transport method then comprises a step of installing the drive structure 52 and securing the securing member 58 to the torpedo 12. The winch 34 is installed behind the torpedo 12, and the cable 60 is passed through the first pulley 36 and then fixed at its first end 60A and at its second end 60B to the securing member 58.

The method then comprises a step of transporting the torpedo 12, by actuation of the winch 54, as shown in FIG. figure 6 . By operating the winch 54, the drive cable 60 pulls on the securing member 58 towards the launch tube 16 via the first pulley 36.

It will be noted that the length of cable 60 unwound remains constant, the cable 60 extending continuously between its two ends 60A and 60B, both fixed to the securing member 58.

When it is desired to return the torpedo 12 to the carriage 14, it suffices to operate the winch 54 in the other direction, in order to pull the torpedo 12 by the second end 60B of the cable.

Note that the invention is not limited to the embodiment previously described, but could have various additional variants.

Furthermore, it appears that the transport device 10 according to the invention is easily manipulated, for example by two operators. The conveyor structure 40 generally weighs about 40 kg, and the drive structure 52 also typically weighs about 40 kg.

The transport device 10 according to the invention makes it possible to secure the torpedo, even in strong sea conditions, since the anti-return means of the winch 54 guarantee the maintenance of the torpedo 12, even when the operator releases the crank. In addition, the winch 54 controls the progression of the torpedo 12 by direct action on the crank.

Finally, it should be noted that this transport device 10 requires little space for its implementation, unlike a trolley of the state of the art capable of ensuring transport, such a truck having a large wheelbase and therefore requiring a lot of space for its implementation.

Claims (10)

1. Device (10) for transporting a torpedo (12) from a transport carriage (14) to a launching tube (16), characterised in that it comprises:

   - a support structure (30) which is to be arranged close to the launching tube (16) and comprises lower posts (32, 33) which can be fixed to the ground, beneath the launching tube (16), and upper posts (34) which are fixed to the lower posts (32, 33) and are capable of extending vertically to above the launching tube (16),

   - a first pulley (36) carried by the upper posts (34) by way of a pivot connection having an axis perpendicular to a longitudinal direction of the launching tube (16),

   - a conveying structure (40) which is to be arranged between the transport carriage (14) and the launching tube (16) and comprises means (42) for receiving and guiding the torpedo (12),

   - a structure (52) for driving the torpedo (12), comprising a winch (54), a securing member (58) which is to be fixed to the torpedo (12), and a drive cable (60) extending at least partially between the winch (54), around which it is partially wound, and the securing member (58), passing through the first pulley (36).
2. Transport device (10) according to claim 1, wherein the drive cable (60) extends from a first end (60A) fixed to the securing member (58), passes through the first pulley (36), then through the winch (54), to a second end (60B) fixed to the securing member (58).
3. Transport device (10) according to claim 2, wherein the drive cable (60) passes through a second pulley (64), between the winch (54) and its second end (60B), the second pulley (64) being mounted on means (66) for adjusting the distance between the second pulley (64) and the winch (54).
4. Transport device (10) according to any one of the preceding claims, wherein the securing member (58) comprises means (68) for fixing to the torpedo (12), especially to a rear end of the torpedo, and an arm (70) secured to the fixing means (68), said arm (70) carrying attachment means (72A, 72B) for the drive cable (60).
5. Transport device (10) according to claim 4, wherein the arm (70) of the securing member (58) extends between a first end (70A) secured to the fixing means (68), arranged beneath the fixing means (68) in a vertical direction, and a second end (70B) arranged above the fixing means (68) in the vertical direction, the attachment means (72A) preferably being arranged at the second end (70B).
6. Transport device (10) according to claim 5, wherein the arm (70) comprises a first portion (74), comprising the first end (70A), extending substantially perpendicularly to the vertical direction, and a second portion (76), comprising the second end (70B), which is inclined relative to the vertical direction and forms an obtuse angle with the first portion (74).
7. Transport device (10) according to any one of the preceding claims, wherein the conveying structure (40) comprises at least one side-member (44) extending between a front end (44A) connected to the support structure (30) by a pivot connection and a rear end (44B) carried by at least one foot (46) of variable length.
8. Transport device (10) according to any one of the preceding claims, wherein the means (42) for receiving and guiding the torpedo comprise pairs of rollers (48) aligned along the conveying structure (40), the rollers of each pair (48) being inclined towards one another so as to form a trough for receiving the torpedo (12).
9. Transport device (10) according to any one of the preceding claims, wherein the winch (54) comprises anti-return means which prevent the winch (54) from rotating as a result of traction on the drive cable (60).
10. Method for transporting a torpedo (12) from a transport carriage (14) to a launching tube (16), characterised in that it is carried out by means of a transport device (10) according to any one of claims 1 to 9, and in that it comprises:

    - a step of fixing the support structure (30) close to the launching tube (16),

    - a step of attaching the first pulley (36) to the support structure (30),

    - a step of positioning the conveying structure (40) between the transport carriage (14) and the launching tube (16),

    - a step of installing the drive structure (52) and of fixing the securing member (58) to the torpedo (12), and

    - a step of transporting the torpedo (12) by operating the winch (54).

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