DE2905077C2 - - Google Patents

Description

The invention relates to an ignition delay circuit, in particular for a march propellant in which a storage capacitor is charged via two connections from a fixed voltage source before being fired, in which the storage capacitor after firing loads an ignition capacitor of an RC element connected in parallel, in which the Ignition capacitor controls the ignition of an ignition means and in which the ignition capacitor is short-circuited before the shot from a line branch which is on the one hand at the voltage pole of the ignition capacitor and on the other hand at the first of the connections.

Such a circuit is known from DE-PS 5 53 024. At this circuit will short circuit the ignition capacitor while charging the storage capacitor by charging connector reached. This has an additional contact, which connects the short-circuit line branch to ground. This is achieved that while charging the storage capacitor the ignition capacitor remains without charge. Only after pulling of the charging plug begins the reloading process.

The contact in the essential to avoid pre-ignition Short-circuit line branch presents a certain risk. Closes the contact is not, then early ignition is inevitable. Opens the contact is not, then the projectile is a dud. About that In addition, such contacting of the short-circuit line not to use branches in such ignition delay circuits,  which are charged via wires from the voltage source which only tear off after firing after leaving the pipe.

The object of the invention is to provide a circuit of the ge to propose the type mentioned, in which a safe function also in the event of any short circuits in the tear-off wires.

The invention is the one in an ignition delay circuit gangs mentioned characterized in that the voltage source is connected to the connections via wires that at Launch that between the first port and one common pole of the capacitors is a first diode that for a discharge of the ignition capacitor in the reverse direction is polarity, and that at least one further diode to one of the Connections are made in the event of short-circuit of the wires the line branch in the reverse direction for the discharge of the memory capacitor. This is without mechanical switch contacts achieved that on the one hand before the firing of the ignition capacitor is short-circuited and on the other hand after the launch not undesirably discharges and he also in the event of a Short-circuit of the tear-off wires not premature via the line branch is loaded.

In a preferred embodiment of the invention lies the further Diode between the first connection and the short-circuit line branch, and a third diode is between the second terminal and switched the storage capacitor. This is an additional given security. It is prevented that if about one of the torn wires with an electric wire the part of the storey connects, the cargo can shift potential.

Another advantage of the invention is that Tear off the wires at the time of the start of the delay until the ignition is precisely determined.  

Further advantageous embodiments of the invention result from the following description of an embodiment.

The figure shows the electronic ignition delay circuit of a floor.

An ignition delay circuit 1 of a march propellant has two connections 2 and 3 . Before the launch, the connections 2 and 3 are connected via wires 4 and 5 to poles 6 and 7 of a voltage source 8 , which is part of a launching device not shown in detail.

The ignition delay circuit 1 has a storage capacitor C 1 and an RC element connected in parallel, consisting of a resistor R 1 and an ignition capacitor C 2 . The common pole of the capacitors C 1 and C 2 is connected in series via a diode D 1 and a further diode D 2 at terminal 2 . The other pole of the capacitor C 1 is connected to the terminal 3 via a diode D 3 . Between the diodes D 1 and D 2 , a short-circuit line branch 9 is led to the voltage pole 10 of the ignition capacitor C 2 .

At the voltage pole 10 is the control input of a threshold switch 11 , which can be formed, for example, by an integrated circuit TCA 345 (Siemens). The output of the threshold switch 11 is followed by the base of a transistor T 1 of a switching amplifier, which is formed by a Darlington circuit which consists of the transistor T 1 and a further transistor T 2 . The series connection of the collector-emitter path of the transistor T 2 and an ignition means 12 is parallel to the storage capacitor C 1 . A resistor R 2 is connected between the base of the transistor T 1 and the voltage pole of the capacitor C 1 , through which the current necessary for controlling the Darlington circuit can flow.

The capacitor C 1 is dimensioned taking into account the DC voltage supplied by the voltage source so that after firing it first the supply voltage for the circuit device, secondly the energy for charging the capacitor C 2 until reaching the threshold at which the threshold switch 11th responses, and thirdly provides the necessary ignition energy for the ignition means 12 .

The operation of the circuit described is essential the following:

Before firing, the storage capacitor C 1 is charged from the voltage source 8 via the diodes D 3 , D 1 and D 2 . The current flowing via the high-resistance, for example 2 MOhm, resistor R 1 flows out via the line branch 9 and the diode D 2 . The ignition capacitor C 2 is not charged. At the end of the charging process, the ignition capacitor C 2 is at most the forward voltage of the diode D 1 , which is opposite to the positive voltage at which the threshold switch 11 can respond.

When firing, then tear off when the projectile leaves the tube of the launch device, the wires 4 and 5 . Tear-off points are designated by 13 in the figure. It cannot be ruled out that the wires may come in contact with one another at the tear-off points. However, this does not interfere with the further function of the delay circuit. Through the diodes D 3 and D 2 is avoided that the storage capacitor C 1 charges the ignition capacitor C 2, bypassing the ignition delay determined together with the capacitor C 2 Zündkon resistor R 1 via the line branch. 9 In addition, the diodes D 3 , D 2 and D 1 prevent a short-circuit discharge of the capacitor C 1 , which would lead to a dud.

As such, one of the diodes D 2 or D 3 would suffice for the function described. However, using both diodes provides additional security in the event that one of the wires reaches a projectile located at a potential other than the circuit, which could lead to an uncontrollable shift in the voltage potential.

When the wires 4 and 5 are torn off, the storage capacitor C 1 charges the ignition capacitor C 2 via the resistor R 1 . A flow of the charge from the ignition capacitor C 2 via the line branch 9 to the common pole of C 1 and C 2 is avoided by the diode D 1 .

As soon as the ignition capacitor C 2 has reached the threshold voltage of the threshold switch 11 , the latter switches through the Darlington stage T 1 , T 2 and the ignition means 12 ignites.

With the circuit described is high reliability without mechanical switches or switch contacts and without additional Switching lines reached. The invention can be use numerous other embodiments.

Claims (3)

1.Initiation delay circuit, in particular for a march propellant charge, in which a storage capacitor is charged before firing via two connections from a fixed voltage source, in which the storage capacitor after the shot loads an ignition capacitor of an RC element connected in parallel, in which the ignition capacitor Controls ignition of an ignition device and in which the ignition capacitor is short-circuited via a line branch which is on the one hand at the voltage pole of the ignition capacitor and on the other hand at the first of the connections, characterized in that the voltage source ( 8 ) with the connections ( 2, 3 ) is connected via wires ( 4, 5 ), which tear off when fired, that between the first connection ( 2 ) and a common pole of the capacitors (C 1 , C 2 ) there is a first diode (D 1 ) which is used to discharge the Ignition capacitor (C 2 ) is polarized in the reverse direction, and that at least one further diode (D 2 or D 3 ) to one of the connections se ( 2 or 3 ) is connected, which is in the reverse direction for the discharge of the storage capacitor (C 1 ) in the event of a short circuit of the wires ( 4, 5 ) in front of the line branch ( 9 ). 2. Ignition delay circuit according to claim 1, characterized in that the further diode (D 2 ) between the first terminal ( 2 ) and the line branch ( 9 ). 3. ignition delay circuit according to claim 1 or 2, characterized in that a third diode (D 3 ) between the two th terminal ( 3 ) and the storage capacitor (C 1 ) is connected.