DE256008C - - Google Patents

Description

IMPERIAL

PATENT OFFICE,

PATENT LETTERING

- JIg 256008 CLASS 65 d. GROUP

GIOVANNI EMANUELE ELIA in PARIS.

The invention relates to a device for maintaining a certain mean diving depth of sea mines by alternately unloading and loading the mine, in which the devices be set in motion for unloading and loading by a hydrostatic plate. In a known device of this type the driving force required to climb the mine is supplied by a compressed air tank, which is filled before the mine is laid out. All of them have to be from one Laying ship to be ejected mines are loaded on this only to a certain extent.

In the device according to the invention, the upward and downward movements are now the mine brought about by effectively reducing the total weight of the mine by A number of heavy bodies are housed in the mine, which are individually set each time a certain depth is exceeded are released one after the other and fall out of the mine while those in the Mine remaining heavy bodies are held back by a member of the relief device. As a result, on the one hand, the device is more reliable than the known one with Compressed air working device, while on the other hand the mines are always ready to lay on board can be carried.

The subject matter of the invention is shown schematically in one exemplary embodiment in the drawing shown, in which the device in a special, to be connected to the mine Container is housed.

Fig. Ι is the overall view of one with such a device
under water.

provided sea mine Figs. 2 and 3 are on a larger scale and views, partly in section, of the device in various positions Of the parts.

A container α of spherical, cylindrical or other shape is provided at any point on its circumferential surface with a membrane b which is loaded by a spring c and connected to a rod d , the end e of which rests against a double lever f rotatable at g. This h by a spring as shown in Fig. 2 indicated position lever is rotatably held by a right arm dare i yerbunden, the superposed under a row of balls j ^l / ^2, j ^3. . . . protrudes. These balls, made for example of lead, are arranged in a tube k , which lies above a tube m inserted into the bottom of the container α and open at the bottom.

The rod d carries a right-angled arm η which, like the arms e, i , is guided in bearings a ¹ and, when the membrane d moves inward, moves between the balls j ^l , j ² , j ⁸ . . . . can push. A pawl 0 is also attached to the rod d and cooperates with a ratchet p . This ratchet wheel controls a self-closing tap which is located in a line q connecting the outside water to a chamber r . The chamber r is located, for example, in the lower part of the container a and acts as a float.

In the upper wall t of the chamber r there is an opening s through which the air can escape.

The device described works in the following way: With the help of a rope ν of

for example 3 m in length, the container a is connected to a mine u . Before ejection, the weight of the mine u is regulated in such a way that there is no buoyancy, while the device χ (Fig. 1) during ejection with its filling of ball weights j ¹ , / ² , j ³ . . . . has a diving load of about 50 g.

As a result, when ejected, the whole thing will sink. If the mine u is to swim, for example, at a depth of about 3 m below the sea surface, the device χ must be at a depth of 6 m. When this device then sinks to about 7 m, the membrane b is moved inwards by the pressure of the outside water, whereby the end e of the rod d brings the lever f and the arm i into the position indicated in FIG. 3, while the curved arm η pushes itself between the balls j ^l and j ^2. As soon as the arm i releases the ball j ¹ , it falls through the pipe m into the sea as a result of its own weight, which makes the whole thing lighter and rises in the water.

This reduces the pressure on the membrane b. As soon as this pressure has reached a value corresponding, for example, to a water depth of 5 m, the spring c pushes the membrane into the position according to FIG. 2.

Here, the pawl rotates the ratchet 0 p, thereby opening the seated thereon cock which then closes equal again automatically after a certain amount of water through line q to the chamber r has occurred .35. The whole thing is weighed down again and begins to sink again until the pressure on the membrane b has become strong enough that a lead ball j can fall out again. This makes the whole thing easier again and begins to rise again, whereupon the same game continues.

The back and forth movements of it all

above and below the mean diving depth are always such that at every depth of the mine the mine is always at an effective depth in relation to, for example, passing ships.

The connecting line ν between the mine and the container can be of any length. This rope can also be dropped completely and the device housed inside the mine. The chamber α can be in constant communication with the outside water. The interior of the device can also be completely sealed off from the outside water, the displaceable arms i, η penetrating the wall of the channel k by means of stuffing boxes. The chamber r can be evacuated when the mine is ejected. The device for loading this chamber can have a design different from that shown.

The invention is for maintaining the average depth of sea mines of all types usable, these mines like a swim time of an hour, like the Hague Con-

have stipulated a minimum or a longer swimming time.

Claims (1)

Patent claim: Device for maintaining a certain mean diving depth in sea mines by alternately unloading and loading the mine, in which the devices for unloading and loading from a hydrostatic Plate are set in motion, characterized in that a number of heavy bodies are housed in the mine is, one of which each time the specific one is exceeded Diving depth is released downwards, so that he is to relieve the mine can fall out of the mine, while the rest by a link of the relief device be retained in the mine. 1 sheet of drawings.