The present invention relates to a container for housing and launching sonar buoys, so-called sonobuoy, and more particularly it relates to such a container designed to be installed in a launch tube provided with a pneumatic system.
Sonar buoys are devices used for the identification—at sea—of submerged bodies, such as submarines, and for scientific purposes such as seafloor mapping and ocean thermal tracking. Currently, the most widely used model of sonar buoys is the Class A one. These buoys have a diameter of 124 mm and a length of 914 mm and they are conveniently supplied in a launch container, of the so-called SLC type. The buoy-container assembly is installed in a launch tube and the buoy is ejected under the command of the pilot and the on-board personnel by means of a pyrotechnic or pneumatic actuation.
These containers are normally disposable, they are made of polymer and they are provided with a standard mechanical interface so as to be installed in a launch tube, and a standard pneumatic interface so as to be connected to the pneumatic system of the launch tube.
Buoys from other classes have recently been developed, among which one of the most widely used, especially in Europe, is class G which has the same diameter as a buoy of class A and a length that is about half of the latter, i.e. 419 mm.
Thus, there currently arises the problem of making the loading and launching of buoys of class A or buoys of class G into and from the launch tube easier and more cost-effective.
U.S. Pat. No. 10,106,228 B1 discloses a container including a cylindrical casing partitioned—by a cap—into two portions, each designed to contain a buoy of class G. The container is provided with a diverter that can be automatically switched from a first position in which it places the pneumatic system in communication with one of the aforementioned portions of the casing iso as to eject the buoy contained therein, to a second position, in which the pneumatic system is placed in communication with another portion of the casing so as to eject the second buoy housed in the container.
Such a solution does not allow to solve the problem highlighted above. As a matter of fact, launching a buoy of class A requires to replace the entire container with the entailed challenges and increase of costs.
The object of the present invention is to overcome the aforementioned drawback. In order to achieve such object, the invention relates to a container of the type defined in the preamble of claim 1, whose primary characteristic lies in the fact that the casing is configured to make the presence or absence of the first cap selective so as to be adapted to house a single buoy of class A, and in the fact that the shutter is set in the second position, that is in the position in which the pneumatic system is placed in communication with the first portion of the casing, in the absence of the cap.
In this manner, it is possible to provide a single container which, once installed in a launch tube, can be conveniently and easily configured to house and launch both a single buoy of class A and a pair of buoys of class G, thus leading to considerable logistical advantages (there is no need for two different containers) and reuse.
In a preferred embodiment of the invention, the diverter comprises a casing provided with an air opening and inside which the shutter is hinged. Such shutter comprises a plate-like body including an end edge folded so as to form a wall extending perpendicularly to the plate-like body. Furthermore, the shutter has an opening carrying a cage for supporting an axially slidable plunger, a tubular duct arranged adjacent such cage, means designed to drive the shutter in rotation between a first position, in which the plunger shuts the first pneumatic connection and the pneumatic system is placed in communication with the second portion of the casing by means of the opening of the casing and the second pneumatic connection, and a second position, in which the plunger opens the first pneumatic connection, the wall occludes the opening, and the duct places the pneumatic system in communication with the first portion of the casing by means of the first pneumatic connection.
In an embodiment according to the invention, the plunger comprises an inner plunger, a secondary plunger and a spring configured so that during a first impulse of the pneumatic system the inner plunger retracts into the secondary plunger and the secondary plunger occludes the first pneumatic connection locking the rotation of the shutter, and at the end of the first impulse of the pneumatic system, the spring actuates the secondary plunger so as to open the first pneumatic connection and release the rotation of the shutter.
According to the invention, the aforementioned shutter conveniently comprises a switch designed to manually switch the shutter to the second position when the casing is adapted for housing a single buoy of class A.
In an embodiment according to the invention, the aforementioned means designed driving the shutter in rotation comprise a torsion spring.
According to a further aspect of the invention, the aforementioned second pneumatic connection comprises at least one tube embedded inside the side wall of the container.
Furthermore, according to the invention, the container may comprise a pair of openings designed for setting the buoys and the aforementioned first cap.
Further characteristics of the invention will be apparent from the following detailed description, with reference to the attached drawings, provided by way of non-limiting example, wherein:
With reference initially to
Such container 1 is designed to be installed inside launch tubes, not shown since they are known to a man skilled in the art, typically used on helicopters and airplanes.
The container 1 comprises a cylindrical casing partitioned into two portions 4, 5 as will be described hereinafter and it is provided with a diverter 6 arranged at one end of the casing 4 and designed so as to be coupled with the pneumatic system present in the launch tube. Each of the portions of the casing 4, 5 is provided with a corresponding opening 7, 8 to allow an operator to access the internal of the container 1 for setting the buoys 2, 3.
With reference to
In
With reference to
The first portion 12 of the casing of the diverter 6 comprises a mechanical interface 15 with the launch tube, and a pneumatic interface 16 with the pneumatic system of the launch tube.
The second portion 13 of the casing comprises an air opening 18.
The shutter 14 comprises a plate-like body 19 hinged to the casing 12, 13 of the diverter 6 by means of a pin 24 and it has a first end provided with a folded edge which forms a wall 20 perpendicular to the body 19. Obtained on a second end of the body 19 opposite to the wall 20 is a converging tubular duct 21 and, obtained between the duct 21 and the wall 20 on the body 19 is a circular opening 22 carrying a cage 23 for supporting a plunger 25, 26 slidable axially to selectively open or close the opening 22.
The shutter 14 can be driven in rotation—as will be described hereinafter—by means of a torsional spring 29 coaxial with the aforementioned pin 24. The piston comprises a hollow secondary plunger 25 within which an inner piston 26 can slide axially. The secondary plunger 25 is movable axially by means of a spring 27 so as to selectively open or close the opening 22. Furthermore, the pin 24 is provided with a switch 28 designed to manually rotate the shutter 14.
With reference to
With reference to
The air flowing into the diverter 6 is thus conveyed into the opening 18 and subsequently, as shown in
Conveniently according to the invention, the casing 4, 5 is configured to make the presence or the absence of the first cap 10 selective so as to be adapted to house a single buoy of class A 3. Thus, in order to configure the container 1 of sonar buoys according to the invention so as to house and launch a buoy of class A 3, an operator removes the first cap 10 from the casing 4, 5, uses the switch 28 to set the shutter 14 to the aforementioned second position visible in
Obviously, the construction details and the embodiments may widely vary with respect to what has been described and illustrated, without departing from the scope of protection of the present invention as defined in the claims that follow. Thus, for example, the general conformation of the diverter 6 could be different from the one represented in the drawings.
Number | Date | Country | Kind |
---|---|---|---|
102020000007540 | Apr 2020 | IT | national |