DE676560C - Device for extinguishing explosion flames in pit rooms - Google Patents

Description

Apparatus for extinguishing explosion flames in pit rooms is known are devices for extinguishing explosions in mine rooms where by Ignition of explosive charges an extinguishing agent, generally rock dust, in the Track cross-section is thrown. The explosive charges are ignited in two different ways. With some devices, the pressure effect is the the explosion flame leading overpressure wave used to actuate the ignition. Other devices use the heat of the explosion flame. For example melt streaks are melted by the explosion flame or Metal thermometer actuated, which interrupts or closes electrical circuits. The actuation by the effect of heat has the direct contact of the triggering one Establishment by the explosion flame is a prerequisite.

The present invention aims to detonate the explosive charge Ejection of the extinguishing agent independently of the overpressure wave and outside of the explosion flame to trigger, so that the entire safety device at an appropriate distance can be established from the presumed point of origin of the explosion. To this The purpose of actuating the ignition is that which is propagating at the speed of light Thermal radiation used. If the explosion flame ignites in the one exposed to danger So the heat radiation is practically at the same instant too effective at a certain distance from the point of origin of the explosion.

The thermal radiation, whose energy maxiintim outside the area the visible radiation lies in the region of the long-wave ultra-red rays, meets a radiation receiver that converts radiant energy into electrical current converts, for example to a thermopile. The elimination of other radiation sources, for example strong, fixed lighting, and at the same time an amplification The radiant energy of the explosion flame can through metal concave mirror, which on are directed towards the danger point. Eliminating the effects of others Radiation sources can also be created by providing them with protective glasses that cause a strong absorption of long-wave rays without doing so to weaken the luminosity considerably. The radiation receiver generates upon entry the radiation, so when the explosion flares up, electric current, the after Reinforcement in a known manner ignites an explosive charge, causing the extinguishing agent is thrown into the cross-section of the track.

If explosions can take place in several places, the radiation receiver is the radiation receiver to train several times. Every single recipient secures a direction in which an explosion is expected. All radiation receivers operate electrically the same ejection device for the extinguishing agent.

Instead of a single explosive charge, a number of explosive charges can also be used be ignited at the same time by the radiation receiver. For example, before a working face of 80 m length at both ends and in the middle, so a total of three ejectors set up and the ignitions of the explosive charges in parallel switched. A radiation receiver is set up at both ends of the working face, in such a way that everyone can monitor as long as possible of the mining impact. If an explosive flame occurs at any point on the mining impact, speak the radiation receiver or, if the working face is bent, at least one radiation receiver at. The mining shock is then supported by clouds of extinguishing agent at both ends and in the middle sealed against the spread of the explosion flame. In this arrangement can the shot pollination before mining, the hygienic disadvantages for the workforce and contamination of the conveyance with it, replaced by a device will.

If the ejection devices are in rows at the same time at occupied work points for the extinguishing agent to take effect, people are advised when using rock dust into a non-breathable cloud of dust. This can be avoided by using instead of the rock dust, water, which can be given a foam-forming additive, is used will. However, the water is not immediately ejected by the explosion, but the explosion triggers a barrier between a pressurized gas container and a Water tank off. The expanding pressurized gas expels the water and atomizes it.

An embodiment of the invention is in the accompanying drawing shown. The metal concave mirror a is directed towards the point at which with the Occurrence of an explosion can be expected, for example against one Place of work at which the shooting is to take place. Lie in the focal point of the concave mirror the soldering points & the thermopile c. At the moment of the explosion, the temperature rises of the soldering points, and the thermopile sends electrical through the lines dd Power to relay e. The relay closes contact f. Now electrical current can be applied flow from the Stromquelleg through the lines lcla and an explosive cartridge j, whose supply line is passed through the wall lz of the compressed air tank L, to explode. The blast destroys the locking plate nz, see above that the compressed air through the connector za in the container filled with water o enters and then it pours water out. The atomization of the water can be caused by impact surfaces, Guide vanes and other aids are promoted.

Claims (1)

PATENT CLAIMS: i. Device for extinguishing explosion flames in mine rooms, where the extinguishing agent is by means of electrical ignition of an explosive charge is thrown into the cross-section of the route, characterized in that a radiation receiver for thermal radiation, e.g. B. a thermopile, is provided that the radiant energy converts it into electricity. z. Device according to claim i, characterized in that that the intended to combine the thermal radiation on the radiation receiver Facilities, e.g. B. metal concave mirror, are directed such that occurring laterally Radiation sources are shielded. 3. Apparatus according to claim i and a, characterized marked that protective glasses, the heat rays, but not visible rays, swallowed, in front of the radiation sources.