DE1113169B - Method and device for the safe execution of explosions when using water - Google Patents

Description

GERMAN

PATENT OFFICE

W28987IVa / 78e

REGISTRATION DATE: NOVEMBER 24, 1960

NOTICE
THE REGISTRATION
ANDOUTPUTE
Laid: 24th AU G US T 1961

It is known to follow the blast holes when blasting, for example in mining Bringing in the explosive device with the ignition cable instead of populating it with solid matter with water, wherein the water is pressed in via an inflow line through a plug-like closure body will.

Since often a plurality of boreholes prepared at the same time and with branch lines to a common one Water pipe is connected and all shots are ignited at the same time The invention set itself the task of taking precautions that the ignition of the explosive device only can take place when the borehole is also filled with pressurized water.

This object is achieved in that, according to the invention, in the ignition cable within the borehole a body is switched on which, when dry, interrupts the conductor causes, but closes the circuit under the influence of the inflowing water.

Various ways are possible to implement this inventive concept. Examples are on Hand of the drawings described in more detail.

Fig. 1 shows schematically how the borehole 1 into which the explosive device 2 is inserted, is closed at the mouth with a plug-like body 3, through the bore 4 the water is pressed in via line 5. In a conductor of the ignition cable 6 is a Body 7 switched on, which is therefore the fuse against ignition of the explosive device without the borehole is filled with water, takes over.

According to Fig. 2, this fuse body consists of a sieve tube 8 made of an insulating material, for example plastic or ceramic. On the front sides of the electrical conductor 9 is with contact plates 10 used. The tube 8 is filled with a mass 11, which consists of metal chips, which are coated with an insulating, water-soluble skin, ζ. Β. from potato flour, coated, is formed. Is in dry condition so the conductor 9 is interrupted. But when these prepared particles come into contact with water, the skin loosens and the metal particles come into contact with each other, which then the current path is closed.

The design according to Fig. 3 uses the same principle in a simplified form. Here are the bare ends 12 of the cut conductor 9 separated from each other in an insulating, water-soluble Mass 13 from z. B. embedded potato flour. When water flows in, the mass is 13 on-Verf ears and device

for the safe execution of blasting when using water

Applicant:

Helga Weinrich, née Werner,
Espelkamp-Mittwald, Isenstedter Str. 60

released so that the bare ends can touch and thus establish the current connection.

In the embodiment according to Fig. 4 there is again a sieve tube 8 with the ones attached to the end faces Ladders 9, 10 as used in Fig. 2. In the tube is a piston 14 made of conductive material, that is Metal, connected to one conductor contact 10 by means of a metal spring 15. In one of the other The position in which the spring 15 is kept tensioned is the position remote from the contact 10, the piston 14 glued to the pipe 8 by means of a mass which dissolves under the influence of water. If this If occurs, the spring relaxes and presses the piston 14 against the free contact plate, whereby the Circuit is closed.

In the embodiment according to Fig. 5, a full-walled tube with the contacts 9, 10 on the end faces is provided, in which a piston 17 is movable. Here, the piston is conductively connected to one contact 10 by means of a wound wire 18. Here, too, it can be held on the inner wall of the tube 16 with an adhesive which is soluble in water. At one end of the pipe 16 a water inlet opening 19 is provided and at the other end a drain line 20, the latter having a substantially smaller cross-section than the former. When the water is now pressed into the borehole, it flows through the large opening 19 behind the piston 17 and pushes it in the direction of the other contact plate, the air in this part of the pipe being able to escape through the opening 20. The current circuit then also takes place here as soon as the piston 17 touches the free contact surface 10.

109 679/86

Instead of the potato flour mentioned in the examples described above, it goes without saying that Another material can also be used if it only has the properties as an insulating material act and dissolve in water, thereby removing insulation. So it can for example Starch products or water-soluble adhesives can also be used.

Claims (5)

PATENT CLAIMS: 1. A method for the safe execution of blasting, especially in mining, wherein the blast hole is occupied with water, characterized in that a breaker is installed in a conductor of the ignition cable within the borehole, which shorts the circuit only under the action of the inflowing water. 2. Interrupter for performing the method according to claim 1, characterized by a sieve tube made of insulating material, at the end of which the ends of an interrupted one Conductors of the ignition cable are attached so that they can be contacted, and which is filled with metal chips that are covered with an insulating, water-soluble substance. 3. Interrupter for performing the method according to claim 1, characterized in that that a conductor of the ignition cable is interrupted and separated the bare ends from each other are embedded in a water-soluble insulating compound against each other, so that they can touch after dissolving the insulating compound. 4. Interrupter for performing the method according to claim 1, characterized by an insulating sieve tube with contactable ends of the interrupted one attached to the end faces Conductor and in which a metal piston is arranged, which by means of a in water soluble adhesive is held in a layer between the contacts and by means of a tensioned Metal spring is connected to one end of the conductor, so that after dissolution of the adhesive can be pressed against the other contact surface by the inflowing water. 5. Interrupter for performing the method according to claim 1, characterized in that that in a full-walled, insulating tubular body with contact on the end walls attached conductor ends a metal piston is held movable with one end of the conductor is conductively connected by a wire coil and flowing in from the through an inflow opening Water is pressed against the other end of the ladder, with the air on this side escapes through an outlet opening. 1 sheet of drawings © 109 679/86 8.61