NO134110B - - Google Patents

Description

Device for initiating the ignition of explosive charges.

The present invention relates to a device for initiating the ignition of explosive charges, preferably one or more charges in a series of boreholes by means of low-energy fuses.

The invention can be said to be a development in the use of low-energy fuses which serve to transmit or cause detonation, and which consist of an elongated casing in the form of a rigid or flexible tubular wire containing a quantity of explosive material distributed over its length and/or other reactive substance which only fills part of the internal cross-section of the otherwise gas-filled line (cf. Swedish patent 333 321). The invention is also applicable to other embodiments of low-energy fuses, e.g. those with a completely filled explosive core or with a different design of the cable's gas channel. In the present context, low-energy fuses are meant to mean fuses with such a small explosive effect that they are not capable of transmitting a detonation from a fuse to another connected fuse or to an explosive of conventional type for blasting work.

To initiate an explosive charge e.g. placed in a borehole, a low-energy fuse is adapted to a detonating capsule whose detonation or ignition charge is initiated by the gas shock wave from the fuse. The explosive charge of the detonator in turn initiates the explosive charge. The gas shock wave is produced in the fuse by means of an appropriately adapted shock wave, spark discharge or the like.

A known and used method of initiating several low-energy fuses in an explosive volley at the same time consists in, with the help of suitably designed fastening devices and any initiator detonators, connecting the respective low-energy fuses along an extended detonating fuse which has such a great explosive effect that it is in capable of starting the detonation process in the low-energy fuses in the respective connection points. The detonating fuse is usually initiated with an explosive cap.

Initiation with a detonating fuse involves several disadvantages,

due to its high self-explosive effect, which can cause damage to the surroundings or lead to wear of connected low-energy fuses that have not yet been initiated, which in turn causes the detonation salvo to fail. Another major disadvantage is the noise caused by the detonating fuse, which in many cases makes it impossible to use it in densely populated areas.

The invention aims to significantly reduce and in certain cases to eliminate these disadvantages. This is achieved according to the invention by the fact that it consists of one or more flashing elements of non-explosive material, each of which is. made with a recess for the introduction of a low-energy fuse with a crimped-on detonating cap and one or more channels for the introduction of one or more fuses that are desired to be initiated, that the latter fuse between its ends is made with a double-bent introduction part which is introduced into the channel as that upon detonation of the starter cartridge it receives and transmits an ignition pulse which is directed towards both ends

of the fuse, that this fuse is provided at one end with an explosive cap for igniting an explosive charge in a borehole, and at its other end is provided with an ignition pulse amplifier, e.g. a blasting capsule, and that the ignition pulse amplifier is arranged in another overshooting element in the same way as the previous one, so that by series connection of overshooting elements it becomes possible to initiate an unlimited number of explosive charges in a series of boreholes.

The connection of several such overrun elements to an initiation system in accordance with the invention means that a gas shock wave produced at a point in an initial overrun element is transmitted further to the fuses of the other overrun elements for initiation of the respective detonators. The transmission of the gas shock wave takes place without lowering its propagation speed even though the gas shock wave has an intermittent course of propagation.

It has been shown that fuses according to Swedish patent no. 333 321 are sensitive to high humidity, fog, water (even in the form of a single very small drop) and to foreign particles in the gas channel. To ensure the function of the igniters and the interconnected initiation system, the gas channel(s) in which the gas shock wave is to rush forward must be protected internally. The protection is carried out in such a way that, by connecting several individually closed overlap elements, you get a coherent fuse system whose interior cannot be exposed to water or dirt during the connection work.

The connection between different charged explosive salvos or between charges where the length of the fuse is insufficient, can be made with specially manufactured connecting fuses with a flash element at one end and a moisture-proof closure at the other.

The channels for the fuses that are desired to be initiated can extend parallel to or at a right or oblique angle to the introduced ignition pulse amplifier. The fuse channels can also be arranged axially in line with the ignition pulse amplifier. In connection with one end of the fuse channel or channels, the overlap element can be provided with mechanical locking devices, e.g. projection, for fixing the introduced double-bent fuse.

An embodiment in which the fuse that is desired to be initiated is introduced in a double-bent manner into the overturning element and in parallel in direct connection to the starter detonator, allows a strong reduction of the detonator's strength by approx. 50%, which is very important when it comes to dampening the impact element's own explosive effect. This reduction is achieved by effectively utilizing the directed component of the shock wave from the starter detonator during the double bending to initiate the inserted fuse in two diametrically opposite directions.

In order to illustrate the reduction in the explosive effect that can be achieved by connecting the salvo with the overturning element according to the invention in conjunction with connecting with a detonating fuse as mentioned above, the following example can be given:

Other embodiments of the invention will be described in more detail with reference to the drawing. Fig. 1-4 each show a possible design of an overlap element or connection block. Fig. 5-7 shows projections and sections of an embodiment of a connecting block consisting of two joined parts. Fig. 8-13 shows projections and sections of another embodiment of a coupling block composed of two parts. Fig. 14 shows a lighter according to the invention on a small scale, and

fig. 15 schematically shows an initiation system according to the invention.

In all figures, the same reference number is used for corresponding parts.

In the embodiments shown, the connecting block or overlap element comprises a body 1, preferably made of plastic, e.g. polyethylene,

with a recess 2 for the introduction of a starter detonator which is connected to a fuse, and one or more fuse channels 3 for the introduction of one or more double-bent fuses 4. The channels 3 must be arranged so that one or another part of the fuse 4 enters direct contact with the blasting cap or comes within a short distance of it.

In the embodiment in fig. 1, the fuse channel 3 is parallel to the detonator socket 2, in fig. 2 it stands vertically on this, and in fig. 3 it lies obliquely. In fig. 4, the channel for the fuse 4 lies axially in line with the detonator socket 2.

A further embodiment of the connection block 1 is shown

in side view in fig. 5, axially sectioned in fig. 6 and similarly cut through, but with the parts taken apart in fig. 7. As can be seen, the block consists of two parts 5 and 6 which can be put together. One part 5 has a central recess 2 for the insertion of a starter fuse and two thus parallel fuse channels 3 for the insertion of two double-bent fuses 4. The upper part 6, which has a hollow 2' to hold the fuse in place, serves to fix the fuse . Furthermore, part 6 has a channel 8 for inserting the fuse connected to the starter fuse. Finally, the part 6 has two protrusions 7 as the loop of the double-bent fuse 4

can be snapped over and fixed on as shown in fig. 5 and 6.

In the embodiment in fig. 8 to 13, the connecting block 1 likewise consists of two joined parts 5 and 6. The part 5 has a width. central opening 2 and two smaller openings 3 which are designed in the bottom and are included in the fuse channels. The part 6 is designed as a plastic body with a central channel 8 into which the detonator 10 is pressed down, either directly or via a sleeve 9. Furthermore, the part 6 has two parallel recesses 11 which, together with the recesses 3, form the fuse channels. The part 6 has projections 7 for fixing the loops in the two fuses

4. Parts 5 and 6 are joined and fixed by snap lock action.

In that the block according to fig. 5 - 7 and fig. 8-13 have two channels for inserting two fuses, it is possible to splice them and also light two parallel-connected salvos.

An example of an embodiment of an igniter as described in the introduction is shown schematically in fig. 14, where 9 denotes an explosive capsule for initiating the explosive charge in e.g. a drill hole, 4 denotes the low-energy fuse, 1 the connecting block and 10 the starter detonator or the pressed-in detonator. The term flash element is a common term for a connecting block that encloses an inserted detonator capsule directly crimped onto the fuse, or a connecting block with a fixed detonating charge pressed either directly into the block or via a sleeve. In the latter case, the block is connected directly to the fuse.

Fig. 15 schematically shows an initiation system where a transmission element according to the invention is used. A starting fuse is initiated in a suitable way - as described earlier. A gas shock wave follows the starting fuse and initiates the detonating capsule in the first overshoot element. Thereby, the first fuse is punctured and initiated in two directions, one down to an interval detonator in the first borehole and the other to the starter detonator in the second overshoot element, after which the course and initiation are repeated for an unlimited number of explosive charges in a series of boreholes.

The connection blocks or overlap elements and the initiation system in the described embodiments have been prepared for low-energy fuses according to Swedish patent no. 333 321. However, these connection blocks or overlap elements and the initiation system can also be used for other fuses of the low-energy type.

Claims (5)

1. Device for initiating the ignition of explosive charges, preferably one or more charges in a series of boreholes by means of low-energy fuses, characterized by that it consists of one or more flashing elements (1) of non-explosive material, each of which is made with a recess (2) for inserting a low-energy fuse with a crimped-on detonating cap and one or more channels (3) for inserting one or more fuse (4) which is desired to be initiated, that the latter fuse (4) between its ends is made with a double-bent insertion part which is introduced into the channel (3), so that upon detonation of the starter cartridge it receives and transmits an ignition pulse which is directed towards both ends of the fuse (4), that this fuse (4) is provided at one end with an explosive cap for igniting an explosive charge in a borehole, and at its other end is provided with an ignition pulse amplifier, e.g. a detonator, and that the ignition pulse amplifier is arranged in a different estimate element (1) in the same way as the previous one, so that by series connection of projection elements it becomes possible to initiate an un limited number of explosive charges in a series of boreholes. 2. Device as set forth in claim 1, characterized in that the channels (3) in the overlap element (1) extend parallel to the ignition pulse amplifier in its longitudinal direction. 3. Facility as stated in requirement 1, grade! serted by the fact that the channels (3) in the overlap element (1) extend at an angle to the longitudinal direction of the ignition pulse amplifier. 4. Device as stated in one of the claims 1-3, characterized by the overlap element (1) in connection to one end of the channel or the channels (3) have mechanical locking devices (7) for fixing inserted fuses (4). 5. Device as specified in one of the preceding claims, characterized in that the blasting cap, fuse (4) and amplifier form a closed device in relation to any surrounding humidity.