DE1763057B1 - Circuit arrangement for a capacitor ignition machine with an electromechanical relay - Google Patents

Description

The invention relates to a circuit arrangement for a capacitor ignition machine with an electromechanical one Relay which is arranged in a current path parallel to the ignition capacitor and one of which is a working contact in series between the ignition capacitor and the output of the ignition machine and with a discharge path that runs parallel to the ignition capacitor in a current path is arranged such that by their response at a certain voltage of the ignition capacitor the relay is made to attract.

The circuit arrangement according to the invention is mainly used in the military sector in so-called Emergency firing devices used. Those for the ignition of cartridges and rockets, the commissioning of fire extinguisher systems or any destruction systems in fixed or mobile devices The required energy is usually taken from stationary or on-board batteries. In order to still be able to trigger if these batteries are destroyed, a capacitor blasting machine is used used according to the invention as an emergency firing device. This capacitor blasting machine is solid installed and already connected to the respective ignition circuit, d. H. electrically connected via cable.

In order to achieve a proper disconnection from the normal ignition circuit, the output circuit is the circuit arrangement is open via the contact of an electromagnetic relay in the idle state. This disconnection from the normal ignition circuit is necessary because it is already connected Ignition circuit under certain circumstances high inductive current pulses can occur, which lead to shunts for the normal ignition process or lead to damage to the circuit arrangement can.

It is an arrangement for electric mine ignition is known in which a capacitor of a Power source, e.g. B. is charged by a mine detonator. When the capacitor is on a If sufficient ignition voltage is charged, a glow lamp calibrated to the ignition voltage will first ignite. At the same time, a relay winding in series with the glow lamp is excited, causing the Capacitor is connected to the igniter line via a contact. A series resistor ensures that not too much energy is lost through the relay winding. So that the relay does not come back immediately opens, a second winding is provided through which the ignition current flows and thus the relay contact remains closed until the ignition pulse has decayed.

In this known circuit arrangement with glow lamps and connected in series with them Relay and possibly with series resistors, the relay picks up more or less slowly, which means neither a perfect contact nor a safe voltage-dependent closing of the relay contact can be achieved. The reasons for this lie in the characteristic curve of the glow lamp, the low level of which limited current, slight deviations in the relay winding resistance, the different mechanical friction, position dependency and the like.

In two further known circuit arrangements for capacitor ignition machines Thyristors are used instead of the electromechanical relay as a switch for the ignition current. Will such capacitor igniters used as an emergency firing device, so can, as has been shown in practice has, so high current peaks occur that they inevitably lead to the destruction of the thyristors would, as can be seen from the following. The capacitors used have capacitance values of 40 up to 1000 uF with voltages on the capacitor of 40 to 600 volts. The resistance of the ignition circuit may only be 0.2 ohms. The lowest capacity is assigned to the highest Voltage or vice versa. The electrical data of the emergency firing devices are between 40 uF at 600 volts and 1000 uF at 40 volts voltage. The operating temperature range extends from - 55 to + 70 ° C.

The invention is based on the object of a circuit arrangement for a capacitor ignition machine to train with an electromechanical relay of the type mentioned so that under Elimination of the indicated disadvantages and deficiencies of the known circuit arrangements a flutter and thus an unintentional opening of the normally open contact between the ignition capacitor and the Clamping is avoided, but the contact relay is acted upon evenly over its duration of action so that it triggers evenly from the beginning to the end of its duration of operation.

This object is achieved according to the invention in that with the relay the operation of a Thyristor connected in series and the discharge path connected to the control electrode of this thyristor is.

The discharge path, which is used as a voltage-dependent triggering element for the ignition of the thyristor, can be produced by voltage-dependent multilayer semiconductors such as B. Zener diodes, transistors, four-layer diodes or the like. Be replaced.

In a further embodiment of the invention is in series with the discharge path and the control electrode of the thyristor arranged a current-limiting resistor.

In contrast to the known circuit arrangements of ignition machines, in the invention the relay of the mechanical working contact between ignition capacitor and terminals only then applied when the full voltage of the ignition capacitor, taking into account the low-resistance, triggered thyristor at the relay is available. In other words, the relay a current is available for its full duration of actuation, preventing flutter and premature dropping of the mechanical working contact is prevented in any case.

The discharge path according to the invention has a defined breakdown voltage and is circuitry only in the ignition circuit of the thyristor arranged in the circuit of the relay. After the The full capacitor voltage is immediately applied to the thyristor, which then has practically no resistance at the relay, so that the causes described above, such as glow discharge (characteristic) and Relay tolerances, have no influence on the reliable voltage-dependent switching of the relay. For Emergency firing devices, the capacitor voltages of which are below 100 volts, are used instead of discharge paths the already mentioned Zener diodes, preferably four-layer diodes, are used.

It is also possible with the inventive circuit arrangement, in contrast to the known circuit arrangements required in the above temperature range of -55 to -r70 ^u C for reliable ignition, low in an ignition capacitor stored energy to a very, up to the moment of ignition but still switched off ignition circuit, because a relay equipped with special contacts, which is connected to the ignition capacitor charged to the nominal voltage via a thyristor (after its ignition initiated by discharge paths or "multi-layer semiconductor with defined breakdown voltage), and with its contact the ignition circuit closes so that the ignition capacitor can deliver its electrical energy to the ignition circuit.

The drawing shows an exemplary embodiment of the circuit arrangement of the capacitor ignition machine according to the invention shown.

The alternating current generated in a generator G is rectified in a doubler circuit consisting of a capacitor C1 and two rectifiers GL _x and GL ,, and charges an ignition capacitor C ₂ to which a resistor ^ ₁ is connected in parallel. The voltage applied to the ignition capacitor C ₂ is also applied to the switching tubes F ₁ , F., which form the discharge gap. B. a Zener diode, transistors, four-layer diodes can be replaced and with which a current-limiting resistor R. is connected in series. The positive voltage of the rectified current is applied to the control electrode Z of a thyristor T , which is connected in series with an electromechanical relay R between the two current paths 1, 2. The relay actuates a mechanical working contact r, which is provided between the connection point 3 of the current path 1 with the relay R and the terminal K ₁ .

When the generator G is operated, the ignition capacitor C _{2 is} charged and the switching tubes F ₁ , F., ignite when their response voltage is reached. Via the current-limiting resistor R., the positive voltage reaches the control electrode Z of the thyristor T, as a result of which it is converted from its high-resistance to a low-resistance state, so that the full voltage of the ignition capacitor C _{2 is applied} to the relay R , taking into account the low voltage drop on the Thyristor is located. At tightening of the relay R the make contact r is closed and the ignition capacitor C ₂ to the terminals K _1, Κ., Laid, so that the igniter at the terminals .K _1, K., are then disposed of when the mechanical working contact R fixedly is closed because the relay R has approximately the full voltage of the ignition capacitor C ₂ .

Claims (2)

Patent claims: 1. Circuit arrangement for a capacitor ignition machine with an electromechanical relay which is arranged in a current path parallel to the ignition capacitor and of which a working contact is in series between the ignition capacitor and the output of the ignition machine, and with a discharge path which is parallel in a current path is arranged in relation to the ignition capacitor in such a way that when it responds at a certain voltage of the ignition capacitor, the relay is attracted, characterized in that the working path of a thyristor (T) is connected in series with the relay (R) and the discharge path is connected to the control electrode ( Z) this thyristor (T) is connected. 2. Circuit arrangement according to claim 1, characterized in that a current-limiting resistor (R.-,) is arranged in series with the discharge path and the control electrode (Z) of the thyristor (T). 1 sheet of drawings