SE526830C2 - explosive cartridge - Google Patents

Abstract

An explosive cartridge includes a substantially cylindrical sleeve ( 2 ) having an end wall ( 6 ) sealing a first end of the sleeve, an end unit ( 3 ) inserted in the sleeve to a certain depth in a second end of the sleeve, said end unit having an inner side ( 4 ) facing the interior of the sleeve and an outer side ( 5 ) on the opposite side of the end unit, a chamber ( 7 ) in the sleeve between said end wall and said inner side, said chamber being filled with a blasting agent ( 8 ), a channel ( 10 ) extending through the end unit between an outer mouth ( 11 ) and an inner mouth ( 12 ), said channel comprising a seat ( 13 ) for a priming cartridge ( 14 ), and a priming cartridge accommodated in the seat, said priming cartridge containing a detonating explosive for the firing of the blasting agent in said chamber. At least one spacing member ( 20 ), protruding in the axial direction, is provided on the outer side of the end wall ( 6 ) in the first end of the explosive cartridge and/or on the end unit in the second end of the explosive cartridge, such that an intermediate space ( 28 ) is formed between the outer side ( 5 ) of a first, lower explosive cartridge and the under side of the end wall of a second, upper explosive cartridge resting on the first explosive cartridge, when the two cartridges are entered in a drill hole ( 24 ) in order to be detonated, and at least one passage ( 21 ) is provided in the radial direction, passing said spacing member, allowing communication between said intermediate space and the surrounding space ( 27 ) in the drill hole.

Description

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P1793-1o1 2 E 'BRIEF DESCRIPTION OF THE INVENTION The object of the invention is to eliminate the above-mentioned problems. According to the invention, this can be achieved in that at least some spacer projecting in the axial direction is arranged on the outside of the end wall at the first end of the detonator and / or on the end unit at the other end of the detonator, so that an intermediate space is formed between on the end wall of a second, upper detonating cartridge, which rests on the first detonating cartridge, when the two cartridges are inserted into a borehole for detonation, and that at least some passage is arranged in radial direction past said spacer, enabling communication between said intermediate space and the environment in the borehole, so that a pressure wave or shock pulse generated in a liquid or gel-like liquid surrounding the detonator in the borehole can be transmitted via at least some passage past said spacer to said intermediate space for briquetting the spark plug. Additional features and aspects of the invention are set forth in the independent claims and / or will be apparent from the following detailed description of a couple of conceivable embodiments.

BRIEF DESCRIPTION OF THE DRAWINGS In the following description of a couple of possible embodiments, reference will be made to the accompanying drawings, of which: Fig. 1 is a side view of an explosive cartridge according to a first embodiment of the invention, Fig. 2 shows an end view of the same explosive cartridge along the line H- II in Fig. 1, Fig. 3 shows the same explosive cartridge in an axial section, Fig. 4 shows three explosive cartridges according to the invention stacked on top of each other in a borehole, ready to be fired, Fig. 5 shows a detail of Fig. 4 on a larger scale, Fig. 6 is a side view of a modified embodiment of the explosive cartridge according to Figs. 1-3, and Fig. 7 shows a further embodiment of an explosive cartridge according to the invention in an axial section.

DETAILED DESCRIPTION OF THE INVENTION Referring first to Figs. 1-3, an explosive cartridge according to a first embodiment of the invention is generally indicated by the numeral 1. to a certain depth inserted end unit 3 in the other end of the cartridge. The end unit 3 is 10 15 20 25 30 35 P1793-1o1 3 -. 1. .- according to the embodiment made in one piece from a relatively rigid plastic material. However, it is also conceivable that the end unit 3 consists of fl your components, which together form an integrated end unit. The end unit 3 is pressed into the sleeve, so that it seals against the inside of the sleeve. The end unit 3 has an inner inside 4 facing the inside of the sleeve and an outside on the opposite side of the end unit. A chamber in the sleeve 2 between said end wall 6 and said inside 4 of the end unit is designated 7. The chamber 7 occupies the main part of the volume in the sleeve 2 and is filled with an explosive 8. According to the preferred embodiment, the explosive cartridge 1 is intended to crack larger stones and For this purpose, gunpowder is a suitable explosive, such as nitrocellulose powder, so-called NC gunpowder. However, the gain is not limited to the use of gunpowder as an explosive. Dynamite, nitrolite, trotyl and other explosives are also conceivable, at least for certain applications other than rock cracking.

A central channel 10 extends through the end unit 3 between an outer mouth 11 and an inner mouth 12. In an inner portion 9 of the channel 10 there is a seat 13 for a spark plug 14.

The ignition cap 14 is arranged with a moisture-tight fit in the seat 13. The inner end of the ignition cap extends a distance beyond the inside 4 of the end unit, into the explosive 8 in the chamber 7.

The ignition cap 14 contains a high explosive substance for initiating the gunpowder 8. More specifically, the ignition cap is of a type which is ignited by central ignition. No ignition path is required for ignition fi. The ignition cap 14 can thus be ignited by a pressure wave, something which is used according to the invention, as will be described in the following. In fact, ignition caps of the type used in shotgun cartridges can be used as ignition caps. As shown in F ig. 3, the seat 13 has a shape adapted to the shape of the collar-shaped rear portion 15 of the spark plug. The rest of the inner portion 9 of the channel 10 has a cylindrical shape, matching the shape of the main part of the ignition cap 14, providing said moisture-tight fit between the ignition cap 14 and the end unit 3. By the fit between the cylindrical surface 16 of the end unit 3 and the inside since the moisture-preventing seal between the ignition cap 14 and the end unit 3 in the area of the inner portion 9 of the duct 10, a sealing is provided between the chamber 7 and the environment of the detonator 1, thereby ensuring that the gunpowder is kept dry. The outermost portion 19 of the end unit 3 has a larger diameter than the main part of the end unit, which is inserted in the sleeve 2. A peripheral part of said outermost portion 19 abuts against the other end of the sleeve 2 and determines the indentation depth of the end unit 3 in the sleeve. 10 15 20 25 30 35 526 830 P1793-1o1 4 -Z. . According to the embodiment described in Figs. 1-3, the detonating cartridge 1 is provided with three spacers 20 projecting in the axial direction on the end unit 3 at the other end of the detonating cartridge. According to the embodiment, the spacers 20 are in the form of substantially cylindrical bodies with a height approximately corresponding to the thickness of the outermost portion 19 of the end unit 3. openings 21, hereinafter also mentioned passages, are formed between the spacers 20.

Fig. 4 shows three explosive cartridges 1 arranged on each other in a borehole 24 in an object 25 to be cracked, for example a large rock. The borehole 24 has a slightly - approximately 10 mm - larger diameter than the explosive cartridge 1. The borehole 24 is filled with a liquid or possibly gel-shaped fluid 26, preferably water, which surrounds the explosive cartridges 1.

The fluid 26 thus fills the space 27 between the blast cartridges 1 and the wall of the borehole 24, an intermediate space 28 formed by the spacers 20 between the outside 5 of the end unit 3 of a first, lower blast cartridge and the underside of the end wall 6 of a second, upper blast cartridge resting on the first detonating cartridge, when the two cartridges are inserted into the borehole 24 to detonate. The fluid 26 also fills the outer portion 17 of the channel 10 between said intermediate space 28 and the igniter cap 14. The openings 21 between the spacers 20 thus form passages between the gap between the blast cartridges 1 and the borehole wall 23 and said intermediate space 28, enabling communication in radial direction between said blast cartridges and intermediate space and thus also communication with the liquid column 29 in the outer portion 17 of the channel 10, so that a pressure wave or shock pulse generated in the fluid 26 can be transmitted via said passages 21, past the spacers 20 to the intermediate space 28 and thus to the liquid column 29 for bursting the ignition cap 14. In this way, all the detonating cartridges 1, which are arranged below an upper detonating cartridge 1 in the borehole 24, can be detonated at the same time as the upper detonating cartridge is detonated. A device 31 at the upper end of the borehole . The device 31 preferably consists of a body with a substantial mass, e.g. 20 kg., Which contains a starter cartridge which is directed down into the borehole 24 and which can be fired remotely by means of wire triggers. The device 31 is suitably covered by a dam mat (not shown).

Fig. 6 shows a modification of the explosive cartridge 1, which is described with reference to Figs. 1-3. The modified detonator 1 'has three spacers 20 arranged symmetrically, axially projecting on the outside of the end wall 6 at the first end of the detonator, while spacers are missing at the other end of the detonator. otherwise, the detonator 1 'is identical to the detonator 1 according to the embodiment of Figs. 1-3 and also acts in the same way as this.

Fig. 7 illustrates the principle of the invention applied to an explosive cartridge 1 "with an ignition cap 14" of the edge ignition type and with a percussion pin 40. According to the invention, the explosive cartridge 1 "is provided with three spacers 20 of the same construction and arranged in the same manner as in the embodiment of Figs. 1-3, i.e. projecting in the axial direction on the explosive cartridge l "end unit 3". Otherwise, the explosive cartridge 1 ”is constructed in the manner described in SE-C-519 883, the contents of which are incorporated in the present description by reference. Thus, even at the detonator 1 ”, the intermediate spaces are formed between superimposed detonators, as described above, which communicate with the surrounding surface in the borehole in which the detonators are arranged, so that a pressure pulse or shock wave generated in the conduit is transmitted via the passages between the spacers 20 to said intermediate spaces. This creates the necessary force to break the fuse of the percussion pin 40 in the breaking instruction 41 and to drive the percussion path forward and ignite the ignition cap 14 ”. It should be mentioned in this connection that the internal construction of the explosive cartridge, which is known from the said SE-C-519 883, does not in itself form part of the invention, therefore the known parts are not described in detail here. The detonator 1 "can also be modified in the same way as the detonator is modified in relation to the detonator 1, namely by arranging the spacers 20 on the detonator end wall in the first end of the detonator instead of on the outside of the end unit 3" in the second end of detonator 1 ". Other modifications are also conceivable within the scope of the invention. The number of spacers and / or passages for the space between the surroundings of the detonating cartridges and said spaces between adjacent cartridges in a borehole may be fl or less than three. It is also conceivable that the passages for the surface and thus for pressure waves may consist of openings in a continuous spacer in the form of a ring projecting in the axial direction at the first and / or second end of the detonator. According to yet another conceivable embodiment, the spacer means can be constituted by tongues projecting in the axial direction, which are formed by end portions of the sleeve 2, like a crenellated ring. In this case, the end unit is provided with peripheral recesses for these tongues. It is also possible to arrange spacers at both ends of the detonator. It is to be understood that these modifications constitute only a few of the modifications conceivable within the scope of the invention.

Claims (5)

10 15 20 25 30 35 5 2 6 8 Z) Û š ": š": § _ _ 'i 5 "" P1793-1o1 6: PATENTKRAV An explosive cartridge comprising a substantially cylindrical sleeve (2) with a closing end wall (6) at a first end, an end unit (3) inserted into the sleeve to a certain depth at the second end of the cartridge, which end unit has an inner face facing the inside of the sleeve ( 4) and an outside (5) on the opposite side of the end unit, a chamber (7) in the sleeve between said end wall and said inside, which chamber is filled with an explosive (8), a channel (10) extending through the end unit between a outer mouth (11) and an inner mouth (12), which channel comprises a seat (13) for an ignition cap (14) and an ignition cap arranged in the seat, which contains a high-burst substance for initiating the explosive in said chamber, characterized by that at least some axially projecting spacer (20) is provided on the outside of the end wall (6) at the first end of the detonator and / or on the end unit at the other end of the detonator, so that an intermediate space (28) is formed between the outside (5) of the end unit on a fö the first, lower explosive cartridge and the underside of the end wall (6) of a second, upper explosive cartridge, which rests on the first explosive cartridge, when the two cartridges are inserted into a borehole (24) for detonation, and that at least some passage (21) is arranged in the radial direction past said spacer means, enabling communication between said intermediate space and the environment (27) in the borehole, so that a pressure wave or shock pulse generated in a liquid or gel-shaped cavity (26) surrounding the explosive cartridge in the borehole can be transmitted via said at least any passage past said spacer to said intermediate space for briquetting the spark plug. Explosive cartridge according to claim 1, characterized in that the ignition cap is of the central ignition type and that it is arranged at a certain depth in said channel with the rear end of the ignition cap at a certain distance from the outside of the end unit, so that an outer portion (17) of the channel (10) communicates with said intermediate space (28) and is filled with said fl uidum, when said intermediate space is filled with fl uidum. Explosive cartridge according to claim 1 or 2, characterized in that said channel with its outer mouth (11) is arranged centrally and that said spacer means (20) are arranged radially outside said channel. 10 526 850 ¿..:, .._,,: ..: .. ¿¿_: IE t Oas: P1793-1o1 7 33 =. = 'E' = .. =.:. Explosive cartridge according to any one of claims 1-3, characterized in that said spacer has a height corresponding to at most the length of the spark plug, but at least 10% of the length of the spark plug. Explosive cartridge according to any one of claims 1-4, characterized in that said spacer has a length corresponding to at most the length of the outer portion of the channel (10) between the firing cap and the outside of the breathing unit, but at least 10% of the length of said outer portion (17). ) of the channel,