DE299156C - - Google Patents

Description

It is known per se to use a resistor that sucks up battery power for disarming to be used by sea mines, as suggested elsewhere turn off the ignition circuit to cause the mine to ignite. The one here However, the facilities used were on the one hand too complicated and dependent on previous ones Changes in the mine position

ίο himself, on the other hand, the cessation of resistance indefinite for time defusing, therefore uncertain. According to the present invention these deficiencies are eliminated by the beginning of the time relief . 15 the consuming resistance when laying the mine is done by manual switching and this uses an electromagnetic switching element, which, regardless of the mine position, is directly dependent on the one that begins in the resistance circuit Current flow, which inevitably causes the ignition circuit of the Mine maintains until the current flow in the resistance circuit is consumed the electromagnetic force is so reduced that the magnetic switch closes a second circuit to its Rest position returns, this circuit being used to ignite an explosive cartridge, either for complete destruction the mine or even just to destroy the switching devices or finally to sink. It is essential that the magnetic switch does not react to vibrations, especially when it is to be shot down Mines must be guaranteed. The resistor can either act as an electromagnet alone or as an electromagnet with auxiliary resistance the time current consumer form.

The invention is shown schematically in the accompanying drawing.

Fig. Ι shows the circuit and effect three circuits.

Fig. 2 shows a waterproof circuit of the circuits.

Fig. 3 shows the device of the magnetic switch.

As can be seen from Fig. 1, the electromagnet 2 and the is on the base plate 1 Resistor 3 is attached and is in series with battery 5 through the lines 4, 6, 7. Between the legs of the electromagnet 2 is the magnetic needle 8 rotatably mounted, which also serves as a switch. The lead cap 9 is filled with acid in a known manner and switched on attached to the outer wall of mine 10. The unfilled element 11 is through the line 15 with the explosive device 14 and from there through the line 13 to the needle 8, the contact pin 12 and the line 16 conductively connected. The contact needle 8 is also through the line 21 with the primer 20, the battery 19, the line 18 and the contact pin 17 conductively connected.

In Fig. 2, the threaded bushing 22 is inserted into the mine wall 10, in which the

Closure piece 23 is screwed, whose inwardly protruding end through the hard rubber pin 24 is extended and the press contacts 25, 26 attached to the base plate 1 maintains, the parts 25 and 26 of which are isolated from each other. Line 18 is through 26, line 6 closed by 25. In FIG. 3, the needle 8 is supported by means of punch j tips in the frame 27; on the frame is j

the regulating lever 28 is rotatably mounted, j which by means of its downwardly bent Arm 30 for receiving the spiral spring 29 'seated on the shaft of the needle 8 and at the end of which is firmly connected.

The mode of action of the disarming is now as follows: In Fig. 1 is one of the known 'Lead cap ignitions assumed, their ignition current only through the bending the lead cap 9 is brought about by the filling of the battery 11 that begins with it. In order to secure this process for a very specific period of time, the laying is dei Mine the resistor 3 used, which is connected in series with the Electromagnet 2 and the battery 5 is located. As a battery, it is best to choose an Edison accumulator battery, for example the makes a maximum of 10 ampere hours. The electromagnet 2 gets one Resistance of the winding, for example 100 ohms; depending on the ohm number of the additional resistor 3 selects, one is able to determine the time of discharge of the Determine battery 5. The electromagnet 2, which is bipolar, is permanent after switching on the battery the current flows through it, causing the magnetic needle 8 is attracted by the desired magnetic pole and touches the contact pin 12 with its other end. On the wave but the magnetic needle sits in Fig. 3 visible coil spring 29, which by the Rückerzeiger 28, 30 is tensioned so that it is an inevitable movement after the contact pin 17 must perform in the idle state. As long as the battery is energizing, will the needle 8 held in spite of the counter-tension of the spring 29 by the one magnetic pole of the electromagnet, whereby after when the lead capsule hits the ignition circuit 8, 12, 16, 11, 15, 14, 13 to explode must lead. However, when the battery 5 is completely discharged, it disappears also the magnetic force of the electromagnet 2, and the needle inevitably shoots back to her resting place, the contact pin 17. This creates the other ignition circuit 8, 17, 18, 19, 20, 21 closed, whereby the primer 20, for example an explosive cartridge, comes into effect, either to completely explode the mine or to punch a hole suitable for sinking the mine, or else only destroy the switching elements. Should be the last operation for some reason fail, the mine will still be blurred in any case. Then there should be great tremors insert, the needle cannot make any movements after contact 12, because 'besides the force of the spiral spring, there is the inherent magnetic force of the needle itself causes sticking to the electromagnet pole. The two circuits for the disarming and sinking of the mine are made by an externally operated watertight Switches switched on one after the other, as can be seen from FIG. The hand screw is in the idle state of the mine 23 completely turned back, whereby the insulating piece 24, the current-carrying springs the contacts 25, 26 releases, the contacts 25, 26 being open. In this Condition, the mine can be transported without any danger, because even if one of the Lead capsules should be damaged and the element 11 generated electricity as a result a detonation did not materialize because the associated circuit went through the needle 8 remains open. The possibility of ignition only occurs when shortly before the Laying the mine the hand screw is screwed, whereby only the time defuse is switched on and only then the circuit of the igniter 20. The hand screw has a leather washer for complete sealing between the sealing surfaces. The entire apparatus will, except the elements, attached to the outer wall of the mine so that you can get to the last moment the resistance coil 3 can use; Current measurements can be carried out simultaneously to be made for control. The elements are housed inside the mine. The essence of the invention is not changed if the electromagnet alone forms the defusing resistance or if other forms of switch armature are selected.

Claims (2)

Patent-to sayings: i. Sea mine with disarming by a draining battery Resistance, characterized in that the armature of the lying in the battery circuit and possibly even the resistance forming electromagnet in one deflection position when energized Electromagnet closes the ignition circuit, in which brought about by spring force But rest position a second »20 Circuit closes that to the undamage screw, which by press contacts the to clear the mine. ! closes both circuits one after the other, 2. A switching device for Vorrich-; so that when the press contacts are open device according to claim i, characterized \ safe handling of the mine possible through a waterproof introduced | is borrowed. For this purpose ι sheet of drawings. BERLIN. PRINTED IN THE REICHSDRUCKEREI,