DE486943C - Electric bullet fuse - Google Patents

Description

Electric projectile detonator The main patent is an electric projectile time detonator has been described in which the discharge energy of electrical capacitors causes ignition of the primer and the two capacitors charged to the same voltage contains whose poles of the same name are connected to one another via an ignition means. After the projectile has fired, one of the two capacitors discharges via an adjustable high-ohmic resistor, so that depending on the set resistance value and the resulting faster or slower discharge of one capacitor after a shorter or longer time between the interconnected via the ignition means poles of the same name of the two capacitors one for igniting the igniter sufficient tension is created.

Either a bridge glow igniter with one in one can be used as the ignition means Primer embedded, current-carrying heating wire or a spark igniter are used, in the pole between two at a short distance from each other an electrical one Spark is formed. So that between the two capacitors. those with the limited Space conditions in detonators can only be those of lower capacity, one for Ignition of the ignition means can grow sufficient voltage difference, a must Spark igniter used for this purpose below that required to form an ignition spark Voltage practically have an at least approximately infinite resistance, when using a bridge glow igniter, the heating wire itself must have a high resistance Form resistance.

Are spark igniters or back glow igniters with such properties practically only feasible for high voltages; at. electric bullet ignition, # rn with capacitors as an energy source, however, only a lower voltage can be used and the bridge glow igniters that are suitable and customary for this purpose form only a low resistance; The spark igniters are also provided they are on a voltage are below the ignition voltage, current-permeable.

Therefore, according to the invention with the ignition means, a spark or bridge glow cylinder, a particularly electrically operating time relay, such as one Spark gap, connected in series, for currents below their flashover voltage represents a practically infinite resistance, d. H. only at; only when one Voltage of such magnitude that the spark gap breaks down with spark formation will; a current flows through the spark gap and thus through the ignition means eia: When using capacitors with a large capacity, the spark recte also -a high-resistance resistor must be switched on.

The drawing illustrates an embodiment. a time fuse according to the invention; Fig. i shows a circuit diagram of the igniter, Fig. z in voltage (Time) diagrams showing the discharge ratios of the two igniter capacitors for different ignition times.

The detonator according to Fig. I contains two capacitors-c and d with the Assignments cl, c2 and dl, d2; for example by means of a shallow drawn here, The power source separated from the storey can be charged to the same voltage. For this there are three isolated against each other and against the wall of the floor on the outside of the floor jacket Contacts x1, x2 ,. xg attached, of which x1 with the assignments c1 and dl of the two Capacitors ,. x2 with the assignment c2 of the capacitor c and x3 with the assignment dz of the capacitor d is conductively connected. The contact x1 is for example to the Positive pole, contacts x2 and x3 can be connected to the negative pole of the power source.

The two assignments d1, d2 of the: a capacitor d are on the high impedance rheostat g closed. The two assignments charged with the same name d of the capacitor d and c2 of the capacitor c are u and over a Fuhken distance an ignition means m connected to one another. The ignition means m can be a bridge glow igniter or be a spark igniter.

After the projectile has been fired, skh de = discharges a capacitor d over the rheostat g, so that, since the spark gap u initially has a practical forms infinitely great resistance, gradually between those charged with the same name Megungend @ uxi-d c2. between the two capacitors a flux difference increases. Depending on the resistance value set at g, the capacitor d discharges faster or slower, and between the assignments d2 and c2 arises earlier or later the voltage required to break down the spark gap u.

The charge ratios of the two capacitors for different ignition times are illustrated in the voltage (time) diagram according to Fig. Z. One capacitor c discharges very gradually due to the imperfection of its dielectric according to the curve r, the second capacitor d depending on a smaller or larger resistance value set at the resistor g according to the curves sl, s2, s3. As can be seen, the voltages Ei at Zeit.tl or t "or ß, i.e. sooner or later, which are required to break down the spark gap u , are formed between the two capacitors. With the spark formation in the spark gap u, the capacitor c discharges via the ignition means ni towards the capacitor d , which causes the ignition means m to ignite momentarily.

Instead of the spark gap lt, according to another embodiment not shown here, a high-resistance resistor can also be connected in the equalizing circuit via the ignition means (expediently a spark igniter) between the two capacitors c and d. When using capacitors as large a capacity as possible and special coordination of the resistors and capacitors against each other - it can be achieved that the discharge - of the capacitor c proceeds more slowly than that of the capacitor d, so that after a certain time between the two capacitors c and d a voltage sufficient for ignition is created.

Other electrically operating time relays can also be used in the same way Switch to reef with the ignition means m, for example a golf course at the the. Electrodes in one. Vacuum or are housed in a gas space. Such an arrangement allows the electrode spacings to be made adjustable the use of lower charging voltages for the capacitors. The.' Glow path has a practically infinite resistance until the onset of impact ionization: -With the start of the glow discharge, the flow of current through that with the glow path also begins igniting means lying in series, causing the ignition charge to ignite momentarily will.

Claims (1)

PATENT CLAIM; Electric projectile detonator according to 'Patent 4 $ 6,942, characterized in that a special electrically operating time relay, such as a spark gap (oz) or a high-zero resistance, is connected in series with the ignition means (m).