PL27B1 - Mechanism to locate explosions in mines by producing rock dust. - Google Patents

Description

The present invention relates to a mechanism to prevent the spread of explosions in mines. Already known devices, aimed at the same as the present ones, are of the kind that effectively extinguish an explosive flame with the use of water, either by the intense scrapes of a given pavement, started at the moment of an explosion, or by rotary pouring of larger It turned out, however, that the water in this case was not suitable for extinguishing, as it was not possible to spray it properly in the flame. However, in more recent times it has been established that quenching can be achieved by rock dust when this dust is absorbed at the appropriate moment by the explosive wave so that it is sufficiently atomized. The present invention makes it possible to use this method. It consists in the fact that the appropriate amount of stone dust is introduced into the interior of the room located in the upper part of the pavement in such a way that the explosive wave opens the room with the stone dust, which is easily absorbed and during falling it is detonated by the waves. A further development of the invention is to make suitable spraying devices which ensure that the dust is deposited at the right moment. Some of these devices are shown schematically in the figures, for example: Fig. 1 shows the device in a side view, - Fig. 2 is a front view of the same device; Fig. 3 shows another constructional embodiment; Fig. 4 shows the spraying at a distance. In the figure, the space on which the explosion "is to be located under the letter #. At the top of the pavement, there is a room that can be directly filled with stone dust, or in which, as shown in the example presented, the tank c is located. The rock dust is kept in this position upstairs on the deck, which is made up of two separate parts d, d1, which at the moment of the explosion is to become impossible to hold on To this end, the walls of the tank are extended downwards across the sidewalk and ended so that with the bases e1, they block the path of the explosive wave as if it were created by an explosion in a given section. In these walls there are iron rods f} which they support both components of the deck af, d1. The bases e and in their connection with the walls of the tank are weakened by the holes gm. Now the explosion wave hits the bases that then they break out in the direction of holes g, and the iron rods thereby lose their support; parts of the deck and dl slide with them, and with the latter also the contents of the sidewalk tank. It is expedient to equip the base with a steel sheet. The device according to Fig. 3 is similar to the one described only that it does not have bars stretched under the floor. Instead, the two parts of the floor d, d1 have, where they meet, downwardly directed beams h and h1. Both beams are firmly connected with each other by means of screws /. Above these joint bolts there is on these beams, as in the apparatus discussed above, a line of weakness k, running through the drilled holes. When the explosive wave hits the beams h, h1, they laugh along the line k, and thus the communication between the two parts of the deck d and d1 is removed so that they must collapse and the contents of the tank are released. is that the time during which the gas explosion takes place is shorter than the time necessary for the dust to drop. Therefore, the mechanism shown in Fig. 4 is used, which prevents the discharge of dust from a distance. The mechanism shown in Fig. 1 is the basis here, but we have here additionally a rail-mounted pendulum suspended on a link 1. This rail has a reflecting plate at the end facing away from the tank c. When explosive or blown gases are in front of them, the air hits the reflecting surface, then the rail is pressed against the wall e1, which thus breaks out before the gases reach the reservoir itself. Thus, there is a build-up of dust earlier than with the devices indicated in Figs. 1 - 3 It is understood that it is possible here to use a pulling device (wire rope, chain) instead of a rigid rail, which the fish had to be subjected to special rudder or other device. PL

Claims (3)

Claims: 1. Mechanism to prevent the transmission of explosions in mines by spraying stone dust, the characteristic feature is that the stone dust is placed in the room located inside the upper part of the area, separated from the pavement, at the aid of the deck, the bottom of which is opened by the pressure of the explosion. - 2 - 2. The mechanism according to claim First, the area is characterized by the fact that it has a tank placed inside the ceiling, the walls of which are lowered into the sidewalk, are designed as supports closing the bottom of the tank in the pavement, so that the latches open when the protruding parts of the walls are torn out by pressure explosion. 3. The mechanism according to claim First, a significant area, that parts of the deck (d, d1) are supported in the closed state by vertically positioned, protruding on the pavement surface (h, h1), firmly connected to each other below the lamania line (k ). 4. The mechanism according to claim 1st, 2nd and 3rd area characterized by the fact that the closing of the bottom of the vessel takes place under the action of movable parts (m) extending far in the pavement, which have surfaces at the end facing away from the tank the reflectors (n) to reflect the detonation wave and, by the movement thus imparted to them, release the bottom of the tank. To the .Ni patent specification: 27. X; ^ - \ V pt] / o ^. Q? V- £ - G EJ— S 6 b S - ~ C & —tJ b— "Jj £. 3. / A ^ 1 M J. Pi b 10 KOZIANSKI INTERNATIONALS IN WARSAW b PL