DE1130745B - Condenser ignition machine, especially for mine operations at risk of firedamp - Google Patents

Description

Capacitor blasting machine, especially for those at risk of firedamp Mine operations The invention relates to a capacitor blasting machine that can be used in particular in mine operations at risk of firedamp.

To avoid accidents, condenser blasters are used Special safety regulations are provided in mine rooms at risk of firedamp. This also includes measures to avoid multiple ignitions. It is known, the ignition pulse by switching on a mechanical contact to the ignition circuit to get, whereby the same contact is opened again after firing. - It is also generally known in capacitor blasting machines to generate the required capacitor voltage or the operating lever of the generator several times to bring it into its starting position.

These known measures do not bring the desired one in all cases Security, as a residual amount of energy is not destroyed. One has therefore also used the terminals of resistors connected in parallel, but the The advantage of the capacitor was canceled.

A capacitor ignition machine is also known in which the capacitor is charged takes place with the interposition of a transformer. A switch is provided here, which interrupts the primary circuit and thus switches off the charging source from the capacitor. At the same time, the capacitor circuit is also closed. Otherwise intended this blasting machine according to its further construction to avoid the dangers posed by Contact between the ignition circuit line and the earth.

The invention aims to create a capacitor ignition machine, especially for mine operations at risk of firedamp, where greater security than is given with previously known devices to prevent unintentional repetition to prevent the delivery of ignition pulses to the ignition circuit.

The invention is based on a capacitor ignition machine, in particular for mining operations endangered by firedamp, with disconnection of the charging source from the capacitor when short-circuiting the capacitor circuit, and provides that the power source, z. B. the charging generator or the battery, from the capacitor through one to the Discharge current of the capacitor responsive and short-circuiting the capacitor Latching relay can be switched off, which is actuated by an outside of the blasting machine Organ reaches its starting position. If the charging generator is operated or the The battery is connected to the capacitor and the ignition pulse is emitted to the detonator circuit, the charge generator can be actuated again or the connection of the battery can be maintained without it having to be repeated Delivery of an ignition pulse comes to the ignition circuit. It's a double backup in the form of switching off the power source on the one hand and short-circuiting the capacitor on the other hand created, the one provided for short-circuiting the capacitor Resistance is ineffective when the ignition pulse is emitted and only after the ignition Shots is switched on. The device is also particularly applicable there, where it is important to limit the current duration for the ignition circuit to a certain value.

In the case of battery-operated blasting machines, the connection of the battery on the capacitor only by making something that cannot be overlooked, but is easy to be carried out.

An exemplary embodiment of the invention is shown in the drawing.

The charging generator G charges the ignition capacitor C with the aid of a known voltage doubler circuit, consisting of the capacitor C1 and the two rectifiers Gll and G12 . When the ignition voltage is reached, the ignition capacitor C discharges via the low-resistance relay R and the spark gap in the form of the gas diode D. The ignition circuit Zk between terminals K1 and KZ receives the ignition pulse. With the discharge of the ignition capacitor C, the low-resistance latching relay R responds, the. is designed as a mechanical latching relay, and switches the two contacts V ,. and Va, of which the contact V ,. In its starting position, the generator G connects to the capacitor C (representation in solid line) and the contact Va creates an interruption between the capacitor C and the high-resistance resistor Re (solid line of the contact Va). When the latching relay R is actuated, the contact V ,. open (dashed line) and the contact Va closed (dashed line), whereby the connection between the generator G and the capacitor C is interrupted and at the same time the capacitor is short-circuited via the high-resistance Re. In this way, on the one hand, further charging of the capacitor C is avoided and, on the other hand, a residual current of the capacitor is effectively destroyed. - In a known manner, a self-induction coil Sp can be provided parallel to the igniter circuit ZK.

Only after the latching relay and thus the contacts V ,. and Va have been brought into their starting position, the capacitor C can be recharged or the ignition circuit ZK is connected to the capacitor. This bringing back the latching relay R and the contacts V ,. and Va in their starting position is preferably carried out by repositioning the operating crank for the charging generator on a second axis or by performing an easy to carry out, but not to be overlooked, operation, whereby the spatial arrangement of this reset device prevents resetting of the latching relay while the charging source is being operated .

Claims (2)

PATENT CLAIMS: 1. Capacitor blasting machine, especially for those at risk of firedamp Mine operations, with disconnection of the charging source from the capacitor after the Capacitor circuit, characterized in that the power source (charging generator, Battery) from the capacitor (C) through a on the discharge current of the capacitor responsive latching relay (R) that shorts the capacitor can be switched off, into its starting position by an organ to be operated outside of the blasting machine got. 2. capacitor blasting machine with charging generator according to claim 1, characterized characterized in that the latching relay after repositioning the operating crank or the Rack handle for the charging generator is to be brought into its starting position. Publications considered: Patent No. 9 094 of the Office for Invention and Patent system in the Soviet zone of occupation in Germany.