DE607316C - Device for the delay of an electric timer for sea mines, depth charges and the like. like - Google Patents

Description

Device for the time delay of an electric timer for Sea mines, depth charges and the like. It is known that the electrical ignition of depth charges, To accomplish sea mines and the like by galvanic elements, which by the inflowing Water are prepared.

Valves have also been proposed for the timing of the depth charges. which are controlled by the water pressure and only my certain water depth, in which the bomb is supposed to pop, let the water flow into the element.

The invention is a much simpler device for created the time ignition.

Similar to how the fuse takes a certain amount of time to burn down, needs an absorbent material, e.g. blotting paper or cotton strips with one end in contact with water,, a certain time to become full To suck water. Taking advantage of this process, the element for the time ignition designed so that the inflowing water or the electrolyte is not immediately can get between the electrodes, but via an absorbent material "up is sucked to this point. The well-known zinc-carbon elements are expediently used.

The zinc strips i in Fig. I, which are provided with the absorbent cover 2, are attached between the hardwood blocks 3 and q :. Of the connecting pieces 5 and 6, which also serve to guide the insertion of the zinc strips, part 5 consists of metal and part 6 of hardwood or a solid insulating material depressed. The insulating plate io with the sealing washer ii closes the element watertight at the bottom. The end faces of the zinc strip package are soldered shut and the space A is filled with a potting compound. On the insulating plate io two plug contacts 12 and 13 are attached, which should facilitate the insertion of the element into the bomb. Part: 13 is connected to the carbon electrode and part 12 is connected to the zinc electrode by a connecting bar.

The salmiac salt or a corresponding salt mixture is in the following Way brought into the element. In the undulating wrapping strips 2 the zinc strips are inserted from one side and from the other side Before squeezing a little salt sprinkled in, so that the salt mixture between the side fabric comes to rest. The edge surfaces against which the brownstone is pressed, on the other hand, is freed from every trace of salt. The envelope 2 protrudes above about the zinc strips so that the water has enough suction surface Has.

If water now flows into the element, it is removed from the envelope sucked in, the ammonium salt dissolves, and the electrolyte sucks inside a certain period of time, which depends on the height of the zinc strips and on the The nature of the absorbent material depends on it, right up to the edge surfaces. the Wrapping.

At this point in time, the element begins to generate electricity. Of the The higher the number, the faster the increase to full ignition current the zinc strip is.

With the arranged subdivision of the zinc strips, in particular for short-term detonators, d. H. if the zinc strips are small, the full ignition current immediately after the start of power generation, because initially the suction speed is very high.

Fig. 2 shows a cylindrical 'shape of the element, which is easier. @insert in the bomb. A long zinc strip 1 5, which is again provided with the absorbent envelope i.6, is wound onto the cylindrical core 17 and held together by a tightly fitting rubber jacket 18. The wound zinc strip is covered with the brownstone and the coal against the carrier i 9 pressed, which is attached to the metal cylinder 2o. The carrier 19 is provided with spouts or ribs so that the water can penetrate into the element from this side.

In Figure 3, a simplified form of the element is shown. However, the element takes a longer time to rise than the embodiment according to Fig. i and 2. Is the time for the current to rise, which in the time ignition with Soot is included, too big, so the element cannot be used for short-term ignition can be used. For time detonators that work with a longer delay, can this version can also be used.

Around the hardwood core 31 in Fig. 3 is a strip 32 of absorbent material. ge wound, which is such that the inner turns turn out to be shorter along the length than the outer turn, which comes to rest on the inner wall of the zinc cylinder 33. when it is inserted. In place of the wedge or cork 34, which is only driven in at the end, there is first part 35. The coal 36 is then inserted into the recess of part 31 and the manganese dioxide 37 is now pulped. The sealing compound 3E8 seals the element watertight at this point. After part 35 has been removed, the wedge 34 is pressed into the zinc cylinder. The salt mixture is again brought between the turns of the absorbent material in the manner mentioned.

As soon as the electrolyte is sucked up into the surface between the manganese dioxide and zinc cylinder arrives, the element is put into action. With the higher eye the electrolyte increases the performance of the element. The current increases gradually up to the required flammability limit. To put the item in a bomb or mine To be able to use it, it will expediently still be used in a metal or gas pipe and fasten.

Fig. Q. shows a water bomb with the initial rifle inserted 22, the Sprengröhre 23 and the Elejnent 2q .. All three parts can be separated from each other to be inserted into the bomb.

over the upper base of the initial bushing is: an insulating sleeve 25 used. The carrier piece 26, which is made of insulating material, is lifted into this exists and the cemented explosive tube 23 with the connected S. connector sockets 27 contains, ih which the element 24 is inserted.

The closure cover 128 with the sealing disk 29 closes the cover opening waterproof.

For safety reasons, the sealing washer is expedient Cover 29 with a sheet of foil 3o so that the bomb is only ready for use is after the screw plug 21 is unscrewed and the foil disk pierced has been.

The time fuse is simple in construction and does not need any other than water special apparatus to be put into action. Pre-ignition is so good How impossible, because the saute fabric is a good seal by itself and does not allow the water directly between the effective electrode surfaces , got. The element has an almost unlimited limit in the versions described long shelf life, as the ammonium salt, which is known to also be in the dry state Can give rise to current equalization in an ineffective place between the absorbent Layers of fabric.

The time detonator can be made for both short and long delays will. It is used for depth charges, high-explosive bombs and underwater explosions in question. In addition, the time fuse can be used in places with ignitable. Gas mixtures, for the time fuses with detonating cord are not usable, can be used advantageously. The element set up for the time ignition can also be interconnected with other normal bearing elements for the timer can be used.

Claims (1)

PATENT CLAIM '. Device for the time delay of an electrical Time fuse for sea mines, depth charges and the like, in which one or more elements due to the penetration of water serving as an electrolyte; through this . marked that the penetration points for the electrolyte by absorbent material, z. B. blotting paper or cotton fabric are completed.