DE216887C - - Google Patents

Description

IMPERIAL

PATENT OFFICE.

PATENT LETTERING

- JVI 216887 - CLASS 74 b. GROUP

HANS BREITBART in DUISBURG-BEECK.

Patented in the German Empire on November 28, 1908 .

The invention relates to a method and a device for indicating explosive additions in the air, air to be examined being conveyed into a container and brought into contact with an ignition means and at. an explosion taking place by pistons or the like. Signals are triggered.
The new method is characterized in that the air to be examined is compressed and brought into contact with the ignition means in a compressed state. Since explosives (gases, coal dust) that are strongly mixed with air and which do not explode under atmospheric tension can be ignited by compressing the mixture, you can control the ignition by choosing the degree of compression and thus triggering the To cause the warning signal so early that people have enough time to get to safety and the explosion can be prevented by appropriate ventilation, sprinkling or the like. Increased gas accumulations, as can be observed, for example, with reduced air pressure, and also coal dust accumulations are indicated in good time using the new method. . . . .

The accompanying drawing shows an embodiment of one for carrying out the method serving institution.

The device has a cylinder c, in the lower part of which a piston k is displaceable. This is loaded by a spring, air pressure or the like and provided with an upwardly extending rod. The cylinder c is provided with an opening e at a certain distance above the floor and is connected at the bottom through a channel to an air pump p driven by an electric motor or the like. At the bottom of the cylinder the interrupter of a magneto-electric or an electric battery ignition is attached, which for example consists of a lever u and a pin u ¹ , which are insulated in the bottom of the cylinder. and are connected to the power source by cables. A lever h opens into the middle part of the cylinder, which is connected to a rod s which has a wedge surface at the bottom and through which it rotates the lever u when it is moved downwards. Furthermore, a clapper b designed as a double-armed lever opens into the cylinder, under which a bell g is attached. The upper part of the cylinder is covered by a partition ί in. divided into two parts. Below the wall i is a piston k ¹ and above this a suitable liquid, for example glycerine. Above the partition ί , a piston Ä ^{2 is} attached, which carries the mercury i , on which a piston k ^{s, which} is under the influence of a spring or is otherwise loaded, rests. Above the piston, contact pins f, f ¹ are used in the wall of the cylinder, the lines of which are shown in FIG

Embodiment lead according to a bell and a flap of a tableau ν, which can be arranged in the director's room, in the vicinity of the machinist operating the fan or at another suitable location. '. .

In the illustrated embodiment, the cylinder c below is still connected to a second cylinder c ¹ , in which a

ίο is displaceable by a spring loaded piston k ^l . The rod led up by this carries a pen or similar.

The device works as follows:

If the air is to be checked, the pump p is activated, air is sucked in through this and pressed into the cylinder. The piston k is lifted by the compressed air. If the piston rod hits the lever h, this is rotated and the rod s is moved downwards, this turning the lever u by means of the wedge surface and thus activating the ignition device. If the air does not contain a substantial amount of explosives, there is no ignition and the piston k is lifted above opening e by the air pressed further into the cylinder, so that the air can escape and so the piston can lower itself again. Simultaneously with the piston k , the piston k ^l is also raised, the pen transferring the magnitude of the displacement to a piece of paper, which accordingly

. the up and down movement of the piston is shifted perpendicular to its direction of movement. The cylinder c ¹ is also provided with an opening e ¹ through which the air can escape if there is no explosion.

But if the gas content is so great that

if an explosion occurs when the spark is skipped, pistons k and k * are thrown upwards. The rod of the piston k first strikes the lever or ■ clapper b and brings it to the stop on the bell g. As it continues to move, the piston k strikes with its rod against the piston k ¹ , which is pushed upwards and thereby presses the liquid above it through the opening in the partition t , whereby a braking effect is exerted on the piston k and at the same time the piston k ^{2 is} lifted with the mercury resting on it, thereby making contact between the pins f, f ^1. As a result, the electric bell and the relevant flap of the panel are activated. Depending on the strength of the explosion, more or less liquid is pressed over the partition t and, as a result, the chime, as the liquid can only slowly come back down through the opening in the partition, is kept in action for a longer or shorter period of time. 'The piston & ^{4, which} is also thrown upwards, makes a line on the paper by means of the pen 0 , the height of which corresponds to the strength of the explosion. The weather official can read off whether and to what extent explosions have taken place.

A third cylinder can also be provided, in which a piston can also be displaced is arranged, but is more heavily loaded than the pistons of the other cylinders, and only triggers a signal when there is real danger.

If necessary, the air to be examined can be subjected to such a strong compression that the resulting heat of compression can be used to Bring mixture to ignite.

The apparatus can be made so easy that it can be carried by the weather controller is possible while walking through the mine. In coal mines with heavily branched work aisles are useful instead of the stationary system, a few light, portable devices at each work place set up. An accumulator, for example, is suitable as a power source for such devices. a small hot air heater or the like. Should a pit with a stationary system are provided, the apparatus can also be connected to the sprinkler or compressed air system be connected. Each apparatus is expediently covered by a housing made of wire, tissue included.

Mixtures consisting of air, gas and coal dust explode much earlier than those which consist of air and gas. It is therefore advisable to avoid the explosions which are caused by. air containing coal dust is caused by a particularly conspicuous signal, so that the dangerous coal dust is eliminated. ■:

The apparatus can be used not only for mines, but also in such rooms in which explosive substances can accumulate in the air, for example in mills, chemical factories, sewer shafts, submarines and gas works.

Claims (1)

Patent Claims: i. Procedure for indicating flammable substances in the air, namely the pit air, the air to be examined being ignited in a housing and through a Piston signals are triggered, characterized in that the to be examined Air compressed and in a compressed state in contact with an ignition means is brought so that the warming