DE1413450C - Ignition circuit arrangement - Google Patents

Description

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The invention relates to a Ziindschaltungsanord- line and serves both for switching on and voltage with a power source, with one to switch off the firing line to or from the connectable charging capacitor, with one of the charging capacitor. The gas discharge tube, with 5 two relays, is superfluous. The times at which the firing line is connected to a controllable one in a firing line or after an electronic switch, which is disconnected when the ignition is reached, can be closed with the firing voltage, and with a one-two gas discharge tube 'precisely set, with direction for the temporal limitation of the ignition current flowing into the firing time of the disconnection also with the RC line. io link can be determined to which the further

From the German Auslegeschrift 1126 980 gas discharge tube is connected. Especially an ignition circuit arrangement is known in which it is further advantageous that the time limitation two gas diodes acting as electronic switches for the ignition current flowing into the firing line or lying in the shooting range. Parallel to the first, the disconnection of the firing line from the charging capacitor gas diode is the normally open contact of a relay. The 15 sator is not done by an additional switch, The relay is wound via a glow lamp but by inactivating the only one present /? C-circuit switched on, which in turn has an electronic switch on the one opposite Resistance is applied to the charging capacitor.

is closed. As soon as the charging capacitor is on its The ignition circuit arrangement according to the invention

End voltage is charged, ignites the glow 20 thus fulfills the safety regulations. This ver

lamp, the relay receives voltage, the working length of which is once that the firing line

contact closes and bridges the first gassing in any case, ensure only when certain

diode. The full voltage of the charging capacitor ter voltage of the charging capacitor on this

is now on the second gas diode, which is connected instantly. The regulations require further

Lich ignites. This then represents a short circuit, 25 ter, the shooting line after a certain short one

so that the voltage acts on the first gas diode to separate time from the charging voltage in order to

and this also ignites. Using two ignitions can be ruled out with certainty.

Gas diodes are achieved in that the shooting In an expedient embodiment of the invention

line at a certain charging voltage of the line is provided that a /? C-element in series with

Charging capacitor is connected to this. 3 ° of the first gas discharge tube. This RC-

To limit the time in the firing line member determines the period of time during which the

The ignition current flowing is another relay before the gas discharge tube carries current and thus the

seen. This receives when the ignition is triggered by the electronic switch ignites,

bridge the first gas diode voltage and closes In a further embodiment it is provided

so that his working 35 lying in the firing line that the controllable electronic switch is a controllable

Contact. When the bare diode on the relay has died down.

Voltage opens this normally open contact and switches off using the example of the one shown in the drawing the shooting range off. management form, the invention will now continue to

Based on this prior art is written.

the invention is based on the technical problem of providing a 40 The circuit contains a direct current source 1,

Design the ignition circuit arrangement in such a way that the internal resistance thereof is represented by the resistor 2

Firing line is only provided with little circuit effort. In the charging line A there is a

at a certain voltage of the charging capacitor switch 3. With this the charging capacitor 4

tor switched on to this and after the ignition either to the direct current source 1 or to a

after a precisely specified time is switched on again by the resistor 15, via which it is

sem is separated. switched arrangement discharges. He becomes whole

To achieve this object, the invention provides for the beginning of an operating period to be reversed or, in the case of a circuit arrangement of the operating period mentioned at the beginning, back into the position shown, for the gas discharge tube to be changed. Parallel to the charging capacitor 4 is the type between the control electrode of the controllable 50 shooting line B. The ignition cable L, to which several electronic switches and the charging capacitor, not shown, electrical detonators are connected, so that they are closed when the ignition is triggered and thus closed, is connected to the firing line B connected to the locked electronic switch. A controllable diode 6 is in the return voltage of the charging capacitor that the Einrich- between the ignition cable L and the charging terminal to time-limit the ignition current a 55 sator 4. The voltage of the charging capacitor 4 contains ftC element, which after triggering a the control electrode 6 α of the diode 6 is connected via a Rei capacitor, which is in series with a circuit of a resistor 7, a Kon-Spcrrdiode parallel to the charging capacitor, that capacitor 24, a gas discharge tube 8 and a gas discharge tube in series with the Primary diode 36 supplied. In the line of a transformer is still further development parallel to the con- 60, a protective resistor 16. This protects the Schaldensator of the FLC element, in that the secondary processing is too low resistance of the ignition cable L winding of the transformer as to the controllable against excessive currents.

electronic switch is connected that a diode 17 is connected to the shooting line B before the

Secondary current blocks the switch, and that connected to the connection of the diode 6 and enables

Ignition triggering a switch in the firing line 65 a charging of a capacitor 18 on the same

located. the value to which the charging capacitor 4 is

With this circuit there is only one load. This removes one of the charge from the charging element formed as an electronic switch in the shooting capacitor 4 independent power reserve.

This is used to switch off the firing line after ignition. An adjustable resistor 19 is located in the discharge circuit of the capacitor 18 and, together with a capacitor 20, forms an RC element, the time constant of which is set as a function of the current passage time desired for the firing line B. This i? C element is connected to voltage at the same time as the ignition cable L by an on-switch 5 designed as a changeover switch.

The current accumulated in the charging capacitor 4 must pass through the controlled diode 6 on its way into the ignition cable L. At the moment when the on-switch 5 is thrown to ignite the detonators lying in the ignition cable L , the controlled diode 6 is still blocked, so that the entire voltage of the charging capacitor 4 is applied to its terminals and therefore also to that from the resistor 7, the capacitor 24 and gas discharge tube 8 and the diode 36 existing two-pole appears. With sufficient voltage, the gas ignites * ° discharge tube 8 and a short current pulse, whose size depends on the three two pole-forming elements, is applied to the control electrode 6 a and ignites the diode. 6 The current then flows into the ignition cable L. At the moment the switch 5 is turned over, the voltage of the capacitor 18 is fed to the AC circuit, which consists of the adjustable resistor 19 and the capacitor 20. If the voltage across the capacitor 20 reaches a certain value, the voltage with the resistor 19 ignites in series. lying gas discharge tube 21, and a short current pulse, which corresponds to the discharge of the capacitor 20, runs through the primary winding of a transformer 23 in series with the gas discharge tube 21. The transformer is connected in such a way that the current emerging from the secondary winding is superimposed on the current flowing through the controlled diode 6. A positive pulse then builds up at the cathode of the diode 6. The diode 6 is de-energized for a brief moment and blocks. This also causes the ignition cable L to be de-energized, with the result that the desired effect has occurred.

The circuit arrangement also contains a self-induction 25 located in the line B , with def it is avoided that the current fed in by the transformer 23 flows into the ignition cable L.

The diode 36 located in the supply circuit of the control electrode 6 α of the diode 6 prevents a current flow in the reverse control direction during the operating time of the transformer 23. If the deionization time of the gas discharge tube 8 is sufficiently short, the capacitor 24 can be omitted. In fact, the voltage across the controlled diode 6 drops almost to zero the moment it becomes conductive, and the gas discharge tube 8 is de-energized.

Claims (3)

Patent claims: 1. Ignition circuit arrangement with a power source, with a charging capacitor that can be connected to this, with a gas discharge tube that monitors its charge state and ignites when the shooting voltage is reached, with a controllable electronic switch located in a shooting line, which is closed when the shooting voltage is reached, and with a device for temporal limitation of the ignition current flowing into the firing line, characterized in that the gas discharge tube (8) is connected between the control electrode (6a ) of the controllable electronic switch (6) and the charging capacitor (4) so that it is still blocked when the ignition is triggered Electronic switch (6) receives the voltage of the charging capacitor (4) that the device for time-limiting the ignition current contains an ÄC element (19, 20) which is connected to a capacitor (18) in series with a Blocking diode (17) is parallel to the charging capacitor (4) that a gas discharge tube (21) in series with the primary winding of a transformer (23) parallel to the capacitor (20) of the ÄC element (19, 20) that the secondary winding of the transformer (23) is connected to the controllable electronic switch ^) that a secondary current blocks the switch (6) and that a switch (5) is located in the firing line (B) to trigger the ignition. 2. Ignition circuit arrangement according to claim 1, characterized in that an ÄC element (7, 24) is connected in series with the gas discharge tube (8). 3. Ignition circuit arrangement according to one of claims 1 and 2, characterized in that the controllable electronic switch (6) is a controllable diode. 1 sheet of drawings