The present invention relates to an ordinance-launching tube, and in particular a torpedo-launching tube.
It also relates to a naval platform comprising at least one such tube.
More particularly, the invention relates to such a tube that includes a rear door and an expulsion circuit between a source of pressurized fluid and the tube.
Traditionally, such an expulsion circuit is provided with means for closing this circuit that comprise actuating means that can be maneuvered by an operator in order to permit/arm expulsion.
These actuating means are associated with means for detecting the presence of the rear door of the tube in the tube-closing position, and with means for locking this door in the tube-closing position.
These locking means can be actuated via a bolt, which the operator can move between a first position preventing expulsion and a second position permitting/arming expulsion, when the door is in the closing position and locked.
These different safety means have been developed and honed to guarantee the safety not only of operators, but also the equipment, in order to prevent any risk of firing or launching ordinance, while the rear door of the tube is not in the tube-closing position, or even not locked, with potentially serious consequences.
The safety systems that are currently known, and which are for example placed at the corresponding rear end of a torpedo-launching tube, then include a base fastened on the tube.
This base is provided with means for detecting the door in the closed position and which include a detection finger movable by the door, when the latter is in the tube-closing position.
This then allows the operator to push a sliding bolt, to move the latter between a first position and a second position in which the bolt has pushed a door bolt toward a position locking the rear door of the tube, in the tube-closing position.
In the known systems, this movement of the bolt also makes it possible to release a blocking trigger in position of the actuating means making it possible to close the expulsion circuit.
Once the bolt is in the unblocking position, an operator can then move the trigger from a blocking position to a retracted position, which allows the operator to maneuver the closing or arming lever of the expulsion circuit.
It will be noted that different embodiments of the expulsion circuit and closing or arming means thereof can be considered.
Indeed, these closing means can be means forming an expulsion valve directly, or means for arming such an expulsion valve, or means for maneuvering isolating means of the expulsion circuit, in order to close the latter and therefore permit the expulsion.
One can see, however, that all of these structures have a certain number of drawbacks, since they include a relatively large number of parts and also require a significant number of maneuvers.
The invention therefore aims to resolve these problems.
To that end, the invention relates to an ordinance-launching tube, of the type comprising a rear door and an expulsion circuit between a source of pressurized fluid and the tube, and provided with means for closing this circuit that comprise actuating means that can be maneuvered by an operator in order to permit the expulsion, these actuating means being associated with means for detecting the presence of the rear door in the tube-closing position and with means for locking this rear door in the tube-closing position, which can be actuated via a bolt that the operator can move between a first position preventing expulsion and a second position permitting expulsion when the door is in the closing position and locked, characterized in that the bolt comprises abutment means that can be moved between a position blocking the actuating means in position in order to prevent expulsion, and a position releasing these actuating means so that they may be actuated by the operator, and thus permit expulsion. According to other features of the tube according to the invention, considered alone or in combination:
According to another aspect, the invention also relates to a naval platform, which includes at least one ordinance-launching tube as described above.
This platform is for example formed by a surface vessel.
The invention will be better understood using the following description, provided solely as an example and done in reference to the appended drawings, in which:
In general, this tube is designated by general reference 1 and includes a rear door designated by general reference 2.
This door is then removable to make it possible to open the rear end of the tube in order to load the ordinance, and in particular the torpedoes, through this rear end of this tube.
In the launching position of the tube, this rear door 2 must be in the tube-closing position and locked.
Ordinance such as a torpedo is designated by general reference 3 in this
This tube 1 is also associated with an expulsion circuit, which is designated by general reference 4, extending between a source of pressurized fluid, designated by general reference 5, for example made up of a compressed air reservoir, and the rest of the tube 1.
In the described example, this expulsion tube 4 for example comprises an expulsion valve, designated by general reference 6, making it possible to trigger the expulsion and therefore firing of the ordinance.
The operation of this expulsion valve 6 is, in the described example, made subject to an expulsion authorization/arming signal, delivered by means 7 for detecting the rear door 2 of the tube, in the closing position and locked in this position.
Indeed and as previously indicated, the expulsion can only be triggered if the rear door of the tube is closed and locked in the closing position.
These figures in fact show an ordinance-launching tube 10, a rear tube door 11, a mechanism for detecting the position of this rear door in the closing position and locking thereof in this closing position, designated by general reference 12, a maneuvering bolt 13, a trigger 14 and a lever 15 for actuating a valve 16 for permitting/arming the expulsion.
The operation of this system, derived from the state of the art, is as follows.
When the rear door 11 of the tube 10 is in the closed position, the latter pushes a detection finger that releases the bolt 13 and allows the operator to push this bolt 13, as illustrated in
By pushing this bolt 13, the operator moves a locking finger of the rear door of the tube toward its locking position, which releases the trigger 14.
The operator can then move this trigger 14 from the position illustrated in
The operator can then maneuver this lever 15 and therefore the valve 16 to permit/arm the expulsion.
One can then see that the system makes it possible to guarantee the safety of the tube and the operators thereof, the expulsion only being permitted when the rear door of this tube is indeed in the closing position and locked.
However, as previously indicated, such a system has a certain number of drawbacks in terms of the number of parts used, and the complexity of the implementation of this system.
To resolve these problems, the Applicant proposes to simplify the structure of these means.
The latter still for example includes a valve, designated by general reference 20.
Such a valve 20 for example includes a compressed air inlet and outlet for example making it possible to trigger or arm the expulsion.
The valve 20 for example directly makes up the expulsion valve, or it for example makes it possible to arm an expulsion valve of the expulsion circuit, or it may for example make it possible to maneuver, for instance, an isolating system of the expulsion circuit as will be described in more detail hereinafter.
In any case, this valve 20 is associated with an actuating lever by an operator, designated by general reference 21, which therefore makes it possible to maneuver this valve 20.
As previously described, this system also includes a fastening base 22 on the tube.
This base 22 includes, similarly to what was previously described, a detection finger 23 of the rear door 2 of the tube in the closing position of the rear end of this tube.
This finger 23 is then mounted slidingly movable by the rear door of the tube, in a corresponding hole of this base 22, to release a bolt, designated by general reference 24 in this
By moving this bolt 24, i.e., for example by pushing it into the base, from the position illustrated in this
Advantageously, the detection finger 23 and the bolt 26 include resilient means for stressing in the low and high positions, respectively.
This operation is similar to what was described previously regarding the systems of the state of the art.
Indeed, a bolt is then associated with means for detecting the position of the door in the closing position to permit the operator, by acting on this bolt, to move a blocking bolt of the door into the closed and locked position.
According to the invention, the bolt 24 is provided with abutment means movable between a position blocking the actuating means in position, to prevent expulsion, and a position releasing these actuating means, to permit their actuation by the operator and therefore to permit/arm expulsion.
Indeed, this bolt 24 is suitable for cooperating with cam-forming means, connected to the actuating lever 21, and designated by general reference 27, to permit or prevent their movement depending on the position of the bolt-forming means 24.
As illustrated, the bolt 24 in fact comprises a wider portion, designated by general reference 28, suitable for extending in a wider portion 29 of an aperture 30 of the cam 27 so as, in a first position of this bolt, to block this cam 27 and therefore the lever 21 in position, in order to prevent expulsion when the bolt 24 is in this first position.
When the operator has moved the bolt 24 toward its second position, for example by causing the latter to slide and pushing it into the base 22, a portion of reduced section 31 of this bolt 24 comes across from the aperture 30 of the cam 27, which allows the operator to maneuver the lever 21 and therefore the valve 20.
As a reminder, the operator can only move the bolt 24 from its first blocking position toward its second permission permitting/arming the expulsion when the rear door 2 of the tube is in its closing position and locked.
In the example embodiment illustrated in this
The body of this bolt 24 then assumes the form of a rod having two portions with different sections forming the portions 28 and 31 thereof, intended to cooperate with the cam 27 in order respectively to block or release it.
In this example embodiment as well, given that the lever 21 and the cam 27 are mounted rotating or pivoting on the valve-forming means 20, the aperture 30 of this cam 27 has a curved shape.
Of course, other embodiments can be considered.
In
The detection finger 23 is therefore in the lower position and the bolt 24 is in the position blocking the cam 27 associated with the lever 21.
During the placement of the rear door 2 in the closing position, as illustrated in
At the same time, the portion of reduced section 31 of the bolt 24 comes across from the rest of the aperture 30 of the cam 27 associated with the lever 21, which allows the operator to maneuver this lever 21 and therefore to maneuver the valve 20, as illustrated in
One can then see that this makes it possible to make the launch of the ordinance more reliable and secure it, the corresponding tube being able to be placed on board a naval platform such as a surface vessel or the like.
It has previously been indicated that different embodiments could be considered.
Thus, for example, the lever 21 and the valve 20 may form means making it possible to arm an expulsion valve directly, as shown by
In this case, the pressurized air from the valve 20 is used to arm the expulsion valve 6, which can be controlled elsewhere.
However and as illustrated in
In this case, the expulsion valve is inserted directly in the expulsion circuit between the source of pressurized fluid and the tube, as illustrated in
In
In this case, this valve 40 is directly associated with the various means that have been described above, namely the detection finger for the closing position of the door, the bolt, the door lock, etc.
In the example embodiment illustrated in
In this
This valve 41 makes it possible to isolate the expulsion circuit, as long as the door 2 is not in the closing position and locked and the lever 21 in the open position of the valve 20, which makes it possible to permit or not permit the expulsion by controlling the isolating valve 41.
Of course, other embodiments may also be considered.
Number | Date | Country | Kind |
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16 00318 | Feb 2016 | FR | national |
Filing Document | Filing Date | Country | Kind |
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PCT/EP2017/054391 | 2/24/2017 | WO | 00 |