DE976773C - Torpedo boiler for liquid oxygen carriers - Google Patents

Description

The invention relates to a torpedo tank for liquid oxygen carriers with one or more filler necks, an air filler connection and an extraction connection.

Torpedo boilers for air and liquid oxygen carriers are known. They consist of an undivided container and have the disadvantage; that at half or even less filling the liquid contents start to move and as a result, the flow to the feed pump suction pipe can be temporarily interrupted. During practice shots with torpedoes with low running power, the boiler always needs to be used fully filled in order to create equal preconditions for the shot.

The object of the invention is to provide such a torpedo vessel to create in which these disadvantages are avoided. The solution to the task at hand is seen in the fact that the boiler is divided into several compartments by bulkheads is that are in communication with each other via fluid valves, and that by all departments have an air line leading from the air filling connection, for each up to on the last division has a shuttle valve that is in its open position each connects the air line with the associated department and at the same time the air line to the following departments is shut off and that in his closed. Position releases the air line to the following department.

It is further provided according to the invention that in the corresponding Departments each assembled the air and liquid valve and through a common spindle can be actuated and that a riser pipe is connected to each air valve is to avoid foam formation.

Two exemplary embodiments according to the invention are shown in the drawing. It shows Fig. I a schematic view of a torpedo boiler according to the one embodiment and FIG. 2 shows a combined liquid-air valve according to a second exemplary embodiment.

The boiler i is divided into several compartments 4, 5, 6 and 7 by the bulkheads 13. The individual departments are connected to one another by liquid valves 2, 2 a., 2 b and by an air line 9, 9 a, 9 b, 9 c with air valves 3, 3 a., 3 b. The air and liquid valves can be operated from outside. Filling nozzles io, io cc are only provided on the two outer compartments, but can also be attached to each compartment.

This arrangement makes it possible to only partially fill the boiler with the liquid oxygen carrier. Such as B. is shown in Fig. 1, only the compartments 6 and 7 are filled to reduce the cost of torpedo training shots with a short run. In this case, the liquid valve 2 is open, the valve 2 a between chambers 5 and 6 is closed and the valve 2 b between chambers 6 and 7 is also closed. The valve 2 b could, however, also be open in this case.

The air valve 3 a gives air to Department 6 while the air valve 3 blocks access to department 7 and thus the connection to the Air valve 3 a manufactures. The air now only enters department 6, which empties first when the liquid passes through the pump suction pipe 8 from department 7 is sucked off. Only after department 6 has been emptied does the emptying of the department begin 7, in that the air now continued through the liquid valve, which is now also fed into department 6 2 overflows from department 6 to department. A flapping of the liquid can now only be done in one department and only has. little influence.

Should be the same ballast values as with a full oxygen carrier filling can be reached, the departments not filled with the energy carrier 4, 5 can be filled with ballast water.

In Fig. 2 are combined air and liquid valves i z and i i ca shown, whereby only one valve is actuated from the outside for each department must become. As can be seen from Fig. 2, the valves are designed so that when the liquid valve is opened, air access to the relevant compartment shut off and the air connection to the next valve is released. It will thus ensures that the air is always only in the extreme with the liquid oxygen carrier filled department enters.

In order to avoid the formation of bubbles and foam, the individual Air valves i i, i i a riser pipes 12, i2a are connected.

Claims (2)

PATENT CLAIMS: i. Torpedokessg # l for liquid oxygen carriers with one or more filler necks, an air filler connection and an extraction connection, characterized in that the boiler (i) is divided into several compartments (4, 5, 6, 7) by means of bulkheads (13), which are via liquid valves (2, z a., 2 b) are in communication with each other, and that an air line (9, 9 a., 9 b, 9 c) leads through all compartments from the air filling connection, which for each but the last compartment (4 ) has a shuttle valve (3, 3 ca, 3 b) which, in its open position, connects the air line to the associated department and at the same time shuts off the air line to the following departments and which, in its closed position, releases the air line to the following department . 2. torpedo boiler according to claim i, characterized in that the air and liquid valves in the corresponding compartments (5, 6, 7) (i i, i i a) are assembled and actuated by a common spindle, and that a riser pipe (i2, i2a) is connected to each air valve to prevent foam formation to avoid.