UNDERWATER CRAFT COMPRISING MEANS FOR LAUNCHING AN UNDERWATER VEHICLE BY MEANS OF WATER PRESSURE

Abstract

Underwater craft including means for launching an underwater vehicle using water pressure, including a vehicle-launching tube having a front part and a rear part and the rear part of which is connected to a water distribution tank itself connected to a water tube in which is positioned a piston for delivering water into the rear part of the tube in order to push and eject the vehicle, is characterized in that the piston is associated with a linear electric actuator for moving same.

Claims

1. An underwater craft comprising means for launching an underwater vehicle by means of water pressure, comprising a vehicle-launching tube having a front part and a rear part, the rear part of which is connected to a water distribution tank, itself connected to a water tube in which a piston is positioned, for delivering water into the rear part of the tube, in order to push and eject the vehicle, characterized in that the piston is associated with means forming a linear electric actuator for moving same.

2. The underwater craft according to claim 1, wherein the linear electric actuator means comprises at least two telescopic actuator stages deployable beyond each other.

3. The underwater craft according to claim 1, wherein at least two vehicle-launching tubes are associated with the water distribution tank and comprise means for isolating/connecting the tube to the tank.

4. The underwater craft according to claim 1, further comprising means for controlling the electrical supply to the actuator means for controlling the ejection features of the underwater vehicle.

5. The underwater craft according to claim 1, further comprising means for controlling the electrical supply to the means forming an actuator, to control the deceleration and stopping of the piston and/or the acoustic signature of a launch.

6. The underwater craft according to claim 2, wherein at least two vehicle-launching tubes are associated with the water distribution tank and comprise means for isolating/connecting the tube to the tank.

7. The underwater craft according to claim 2, further comprising means for controlling the electrical supply to the actuator means for controlling the ejection features of the underwater vehicle.

8. The underwater craft according to claim 3, further comprising means for controlling the electrical supply to the actuator means for controlling the ejection features of the underwater vehicle.

9. The underwater craft according to claim 6, further comprising means for controlling the electrical supply to the actuator means for controlling the ejection features of the underwater vehicle.

10. The underwater craft according to claim 2, further comprising means for controlling the electrical supply to the means forming an actuator, to control the deceleration and stopping of the piston and/or the acoustic signature of a launch.

11. The underwater craft according to claim 3, further comprising means for controlling the electrical supply to the means forming an actuator, to control the deceleration and stopping of the piston and/or the acoustic signature of a launch.

12. The underwater craft according to claim 4, further comprising means for controlling the electrical supply to the means forming an actuator, to control the deceleration and stopping of the piston and/or the acoustic signature of a launch.

13. The underwater craft according to claim 6, further comprising means for controlling the electrical supply to the means forming an actuator, to control the deceleration and stopping of the piston and/or the acoustic signature of a launch.

14. The underwater craft according to claim 7, further comprising means for controlling the electrical supply to the means forming an actuator, to control the deceleration and stopping of the piston and/or the acoustic signature of a launch.

15. The underwater craft according to claim 8, further comprising means for controlling the electrical supply to the means forming an actuator, to control the deceleration and stopping of the piston and/or the acoustic signature of a launch.

16. The underwater craft according to claim 9, further comprising means for controlling the electrical supply to the means forming an actuator, to control the deceleration and stopping of the piston and/or the acoustic signature of a launch.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0024] The invention will be better understood from the following description, given only by way of example and made with reference to the appended drawings in which:

[0025] FIGS. 1 and 2 illustrate the structure and operation of an ejection system pneumatic rammer of the prior art;

[0026] FIG. 3 illustrates the structure and operation of a water push ejection system by means of water pressure, of the prior art;

[0027] FIG. 4 illustrates the general structure of the means forming a linear electric actuator used in the construction of an underwater craft according to the invention;

[0028] FIG. 5 illustrates the implementation of such actuator means in a water tube; and

[0029] FIGS. 6, 7 and 8 illustrate the operation of a vehicle-launching tube of an underwater craft equipped with such actuator means.

DESCRIPTION OF THE PREFERRED EMBODIMENTS

[0030] FIGS. 1 and 2 illustrate the structure and operation of a vehicle-launching tube such as a weapon-launching or torpedo-launching tube of an underwater craft, for example, such as a submarine, using a pneumatic rammer.

[0031] In these FIGS. 1 and 2, the vehicle-launching tube is designated by the general reference 1, the vehicle to be launched by the general reference 2 and the rammer by the general reference 3.

[0032] In fact, and as previously indicated, this rammer is a telescopic piston comprising several stages that eject the weapon by pushing it into the rear of the tube.

[0033] This piston is associated with pneumatic and hydraulic actuators, for example, as described previously.

[0034] FIG. 3 illustrates the principle of ejection using a water pressure.

[0035] In this FIG. 3, the vehicle to be launched is designated by the general reference 5 and this vehicle is positioned in a vehicle-launching tube, designated by the general reference 6.

[0036] This tube 6 has a front portion and a rear portion.

[0037] The rear portion of the tube 6 is connected to a water distribution tank, designated by general reference 7, which in turn is connected to a water tube 8, in which a piston 9 is positioned for discharging water into the rear portion of the tube 6 in order to push and eject the vehicle.

[0038] In the examplary embodiment shown in this FIG. 3, this piston is a telescopic piston, for example, with several stages and which can then be associated with pneumatic and hydraulic services as described above.

[0039] As previously mentioned, these different systems have a number of drawbacks.

[0040] To solve these problems, in the underwater device according to the invention it is proposed that the piston be associated with the linear electric actuator means for moving it.

[0041] An examplary embodiment of such electric actuator means is illustrated in FIG. 4.

[0042] In this FIG. 4, the linear electric actuator is designated by the general reference 10.

[0043] In fact, this actuator comprises at least two telescopic actuator stages, for example, deployable one beyond the other upon activation, as shown.

[0044] These actuator stages are designated by the general references 11 and 12 in these Figures, for example.

[0045] As for the piston, it is designated by the general reference 13 in this FIG. 4.

[0046] In fact and as illustrated, each stage of the electric actuator can be associated with its own power supply means, such as the means designated by the general references 14 and 15 in these Figures.

[0047] These means then comprise an electrical power source designated by the general references 16 and 17, for example, and each stage is associated with electronic control power means, designated by the general references 18 and 19.

[0048] These means then make it possible to drive the electrical power supply to these actuator means and to each stage thereof, for example, to control the ejection characteristics of the underwater vehicle.

[0049] These means also make it possible to control the power supply to the actuator and its stages, to control the deceleration and stopping of the piston and/or the acoustic signature of a vehicle launch.

[0050] Indeed, the control means can use the means in the form of a chopper, for example, making it possible to modulate the power supply to the actuator stages and thus the speed and launching force of the underwater vehicle depending on various parameters such as the immersion, for example, or even the speed of movement of the underwater vehicle carrier, the type of launch desired for the vehicle, etc.

[0051] Such means forming a linear electric actuator can then be integrated into a system for launching an underwater craft, by means of water pressure, from an underwater craft such as a submarine itself, as illustrated in FIGS. 5, 6, 7 and 8.

[0052] In these FIGS. 5 through 8, the linear electric actuator means is always referred to by the general reference 10 and the piston by the general reference 13.

[0053] Indeed, the piston 13 may be positioned in a water tube designated by general reference 20, connected to a water distribution tank 21, which in turn is connected to the rear portion of one or more vehicle-launching tubes of the underwater craft such as the tubes designated by general references 22 and 23 in these Figures.

[0054] A side door such as 24 and 25 or other means then makes it possible to isolate or, conversely, to connect the weapon-launching tube corresponding to the tank 21, in order to make it possible to launch a submarine vehicle such as a torpedo or the like, for example, designated by the references 26 and 27 in these Figures, from this launching tube.

[0055] Several vehicle-launching tubes of the underwater craft may conceivably be associated with the tank 21 through such isolation/connection means.

[0056] When the electric linear actuator means 10 is activated, it then conceivably deploys and pushes the piston 13 into the water tube 20, thereby forcing a corresponding water volume into the rear portion of the vehicle launch tube through the tank 21, thereby ejecting the vehicle from the corresponding tube.

[0057] Such a structure then conceivably presents a certain number of advantages in terms of the ease of launch implementation, and the discretion thereof while making it possible to be free of the constraints of the pneumatic and hydraulic systems of the state of the art.

[0058] Of course, other embodiments can be envisaged.