DE977801C - Equipment on devices for clearing magnetic remote ignition mines by means of power-fed solenoids, so-called hollow rod devices - Google Patents

Description

Equipment on devices for clearing magnetic remote ignition mines by means of Current-fed solenoids, so-called hollow rod devices The invention relates to a Equipment on devices for clearing magnetic remote ignition mines by means of current-fed mines Solenoids, so-called hollow rod devices. It is based on the task of the magnetic The pre-action of the hollow rod device when clearing is more sensitive to magnetic ones To limit interference fields of appealing sea mines so as not to close the tow vehicle endanger, but to maintain the achievable clearing width in full.

Earth field disturbances of a certain size and a certain time sequence, like them caused by iron ships in their vicinity, bring magnetic remote-ignition mines to respond and to detonate. The same should be said to generate interference magnetic fields Effect sea mine clearance devices that imitate such earth field disturbances equally or approximately.

An effective group of such sea mine clearance devices, which generate magnetic interference fields, are the power-fed solenoids, which are generally referred to as "hollow rod devices" in German and which are mainly used for clearing magnetic remote ignition mines that were laid out in water depths of up to 30 m. The shape of the magnetic lines of force of a hollow rod device is almost the same as that of a bar magnet, and the earth field disturbance of the required magnitude caused by a hollow rod device therefore has approximately the shape of an ellipse when viewed from above. In a hollow rod device of common construction results in z. B. in ao m water depth at 5 m Oe earth field disturbance an approximate ellipse with a longitudinal axis of 25o m and a transverse axis of 18o m, both calculated from the middle of the hollow bar. For sea mines with a sensitivity of 5 m above sea level in a water depth of 20 m, the approximate ellipse is referred to as the clearance area, the transverse axis as the clearance width and half the longitudinal axis as the advance effect, with certain restrictions.

The advance effect is sometimes very desirable because it is normal sensitive magnetic sea mines and the towed hollow rod devices the detonation zone about half the distance between the towing ship and towed hollow rod is located and the mine detonation neither tug Hollow rod is still endangered. The advance effect is on the other hand with highly sensitive magnetic Sea mines, which z. B. respond to 0.5 m Oe, very disadvantageous because they are, accordingly known physical laws, increased to at least 28o m compared to about I25 m, and because the tug is already in the area of the detonation zone.

One suspects, among other things, boil-sensitive in the sea area to be cleared magnetic sea mines, one could indeed by reducing the supply current for the hollow rod device and the corresponding reduction in the magnetic moment reduce the advance effect and bring the tug out of the danger zone; At the same time, however, the clearance width for normally sensitive mines would be increased reduce to an intolerable level.

To avoid these disadvantages, the solution mentioned at the beginning is used Task with such hollow rod devices proposed according to the invention that for partial Compensation of the magnetic advance effect of the hollow rod device on one or more Carrying buoys for the towing cable and the feeder cable, at least one each Part of the feed current through which winding is provided, which rotates in opposite directions, preferably but arranged coaxially or axially parallel to the windings of the hollow bar device is. As a result, the field can be reduced or extinguished in the area to be protected or overcompensated.

It is according to a further embodiment of the invention Means essential that the number of turns of the winding on the or the Carrying buoys and the amperage flowing through them are each dimensioned and are coordinated so that independent influencing is more sensitive in advance magnetic sea mines, d. H. whose ignition is excluded.

Additional expansions of the possible uses of the invention Device result from the fact that switching means - preferably remote-controlled short-circuit switches - to bypass part of the respective winding for the purpose of changing the opposing field and thus the magnetic Advance effect are provided. Instead or in addition, it is also possible that on the buoy or buoys switching means, for example remotely controllable series resistors in the current branch containing the respective winding, for the purpose of changing the opposing field and thus the magnetic advance effect, are provided.

An example of the device according to the invention is given in the drawing explained in more detail on the Fig. I in a schematic side view with distorted Scale shows the basic arrangement, while Fig. 2 is a schematic Top view shows the delimitation of the interference field to the front and thus of the clearing field.

In the usual arrangement, the hollow rod device by means of an approximately Zoo m long tow line pulled through the water, to which is attached at intervals, roughly parallel to this, the feeder cable is located. About the slack in both connections not to get too big, towline and feeder cable are by two or carried three floating buoys. I represents the usual hollow rod device, 2 is the towing ship, 3 is the towline and 4 is the feeder cable attached to a or more of the buoys 5 is extended by the winding 6 running in the opposite direction.

The dashed line A in Fig. 2 represents the front limit of the effective range of the interference field if the clearing device does not have the device according to the invention, the towing ship being mostly in the danger zone. By the compensation field generated by the device according to the invention becomes the front one Limit of the effective range of the interference field of the clearing device up to the dashed Line B moved back. It can be seen that the tug boat without affecting the Clearing width of the hollow rod device has been brought out of the danger area.

Claims (4)

PATENT CLAIMS: I. Device on devices for clearing magnetic Remote ignition mines using current-fed solenoids, so-called hollow rod devices, characterized in that for partial compensation of the magnetic advance effect the hollow rod device (I) on one or more buoys (5) for towing and the supply current cable (3 or 4) each at least one part of the supply current flow-through winding (6) is provided, which rotates in opposite directions, but preferably coaxially or is arranged axially parallel to the windings of the hollow bar device (i). 2. Establishment according to claim i, characterized in that the number of turns of the winding (6) on the buoy or buoys (5) and the current intensity flowing through them are dimensioned and coordinated in such a way that an independent influence predictive magnetic sea mines, i.e. whose ignition is excluded. 3. Device according to claims i and 2, characterized, that on the buoy or buoys (5) switching means - preferably remote-controlled short-circuit switches - To bridge part of the respective winding (6) for the purpose of changing the Opposite field and thus the magnetic advance effect are provided. 4. Establishment according to claims 1 to 3, characterized in that on the buoy or buoys (5) Switching means, for example remotely controllable series resistors in which the respective Winding (6) containing branch, for the purpose of changing the opposing field and thus the magnetic advance effect, are provided.