SE534577C2 - Stone crack cartridge and ignition capsule - Google Patents

Description

534 577 Additional features and advantages of the invention are apparent from the following description of an extended form of operation.

BRIEF DESCRIPTION OF THE DRAWINGS In the following description of a preferred embodiment, reference will be made to the accompanying drawings, of which Fig. 1 is a perspective view of a sleeve, in this context called the ignition sleeve, intended to be included as part of an ignition cap according to the invention, Fig. 2 shows a side view of the primer sleeve according to Figs. Fig. 3 shows the ignition sleeve in longitudinal section along a line III-HI in Fig. 2, Fig. 4 shows the ignition sleeve in transverse section along the line IV -IV in Fig. 2, Fig. 5 shows a complete ignition capsule with the ignition sleeve in longitudinal section in the same way as in Fig. 3, Fig. 6 shows an insert with substantially known construction, Fig. 7 shows the insert according to Fig. 6 in longitudinal, axial section, Fig. 8 shows the rock crack pair according to the construction before fitting in a view obliquely upwards Fig. 9 shows the rock crack cartridge according to the invention fitted in a borehole in a rock to be cracked, and Fig. 10 shows the fitted rock crack cartridge in cross section along a line XX in Fig. 9.

DESCRIPTION OF THE PREFERRED EMBODIMENT The non-fitted crack cartridge 1, Fig. 8, comprises a first, outer plastic sleeve 2 and an insert 25, Fig. 6 and Fig. 7, which in turn consists of a plug 4 and a second, inner sleeve According to the embodiment, the plug 4 and the inner sleeve 7 consist of a thermosetting plastic, more specifically an acetal plastic, and even more specifically an acetal (POM) copolymer, and are cohesive in one piece, so that they form an integrated unit.

According to the embodiment, the outer sleeve 2 is made of so-called ABS plastic, which is also a hard plastic, and has the shape of an elongated circular cylindrical tube with a flat end wall 3. The interior of the outer sleeve 2 forms a main chamber 5 which is filled with a crack. gunpowder charge 6, preferably a charge of nitrocellulose powder (N C-lu-ut), Fig. 9.

The plug 4 is formed by a circular-cylindrical outer wall 19, a flat, annular end wall 20, which faces the main chamber 5 and is pressed against the powder charge 6, and a tubular portion 21 which they form a continuous, with the outer the sleeve 2 coaxial hole 8. Radial bars 24 extend between the tubular portion 21 and the cylindrical wall 19 of the stopper and between these bars there are cake-shaped, material-saving recesses 23. An upper end is designated 22. On this tre ns three projecting in the axial direction 19.

The second, inner sleeve 7, which is coaxial with the first, outer sleeve 2, and forms the igniter assembly sleeve 7a of the fitted crack pauon 1, extends from the flat end wall 20 of the plug 4 into the crack powder charge 6 in the outer sleeve 2 to a considerable depth in the powder charge, as shown in Fig. 9. The sleeve 7, 7a has a relatively thin wall 13. According to the embodiment, it is approximately one millimeter thick. To increase its rigidity, it may be provided with longitudinal, external stiffeners. In the preferred embodiment, however, both the outside and the main part of the inside are completely smooth, which nevertheless gives the igniter assembly sleeve 7a an adequate rigidity but at the same time no greater bone strength than it can withstand maximum to be safely broken when firing the igniter capsule to be described in the the following and which in the fitted rocker cartridge 1 is inserted into the space 9 in the igniter assembly sleeve 7a which is called the fitting chamber. The muzzle 12 is pointed and conically tapered. Immediately above the nose portion 12, the sleeve 7a has an internal constriction 26, which is about 0.2 mm thick in the radial direction and about 5 mm long in the axial direction. to abut against the upper edge of the outer sleeve 2 and the flat end wall 20 with some pressure is pressed against the crack powder charge 6. Upon insertion of the insert 25, the inner sleeve 7, 7a will be pressed into the crack discharge 6, which is facilitated by its pointed muzzle portion 12. The amount of gunpowder in the crack gunpowder charge 6 is adapted so that the insert 25 can be pressed into the outer sleeve 2, so that the gunpowder charge 6 is compressed to a certain extent, which is an advantage in that the gunpowder can then not move in any substantially during transport, but not compressed as follows: that the empty wall 13 on the inner sleeve is damaged or compressed to any significant degree.

In the crack cartridge 1 thus mounted, the interior of the igniter assembly sleeve 7a forms a direct continuation of. the through hole 8 in the plug 4 and has the same cross-sectional shape as the hole 8. The hole 8 and the inner space in the igniter assembly sleeve 7a are thus integrated and form said apter chamber 9. Referring now also to Fig. 1-Fig. .5, a spark plug shown in Fig. 5 is generally designated by the numeral 30. The spark plug 30 consists of a spark plug sleeve 31, Fig. 1-Fig. 4, and an igniter 32 arranged in the igniter sleeve consisting of an electrically triggerable igniter bead 33a (igniter), a gunpowder charge 29 consisting of the same type of NC gunpowder as the crack gunpowder charge 6, and a toothpick base 34, to which electric ignition cables 37 are connected. The ignition bead is of the type which has its main use in the pyrotechnic field for igniting fireworks. Such spark plugs are manufactured by Lex. by the Czech company META-PYRO, s.r.o., Bmo.

The igniter sleeve 31 consists of hard plastic, preferably of the same kind of ABS plastic as the outer sleeve 2. According to the embodiment, the thickness is the same as that of the igniter assembly sleeve 7a, approximately 1 mm. However, the igniter sleeve 31 is provided with a number, according to embodiment four, external grooves 35 extending from the cupped end portion 36 of the sleeve in the axial direction towards the mouth of the sleeve all the way to the level of the front end of the igniter bead 33a mounted in the apter chamber 9. Otherwise, the primer sleeve 31 has a smooth circular-cylindrical outside 38. The depth of the grooves 35 is greater than half the thickness of the primer sleeve, more specifically 0.7 mm. The average width of the grooves, which widen outwards, corresponds approximately to the wall thickness of the igniter sleeve. The outer diameter of the igniter sleeve 31 is slightly - about 0.2 mm - smaller than the inner diameter of the igniter assembly sleeve 7a. Its cylindrical length is the same as the cylindrical length of the igniter sleeve 7a, i.e. extends till am to the conical nose portion 12a of the igniter sleeve 7a.

Thus, upon ignition of the rupture cartridge 1, the igniter capsule 30 can be inserted into the igniter assembly sleeve 7a without jamming with a good fit between the outside of the igniter set sleeve 31 and the inside of the igniter assembly sleeve. The gap 39 between the two sleeves 31 and 7a according to the embodiment amounts to approximately 0.1 mm, but can also be slightly smaller or slightly larger.

Preferably, however, the width of the gap should be within the dimension range 0.05-0.2 mm.

As mentioned above, however, the igniter assembly sleeve 7a has a constriction 26 closest to the conical nose portion 12, which has a greater extent in the radial direction than the width of the gap 30. In the preferred embodiment, the radial extent is approximately twice as large as the width of the gap or 0.2 mm. By pressing the igniter cap sleeve 31a into said constriction 26 in the last phase of the insertion of the igniter cap 30 into the igniter assembly sleeve 7a, the igniter cap is fixed in the apter chamber 9, which prevents it from unintentionally coming loose and falling out when handling the stone crack cartridge 36. outwardly facing fl end 40, which limits its insertion into the igniter assembly sleeve 7a. The igniter sleeve 31 has an orifice portion 41 having an inner diameter slightly larger than the main portion of the sleeve 31, and a length adapted to the diameter and length of the base 34a of the igniter bead 33a, so that the igniter bead 33a is held in the charged igniter capsule 30. fixed by compression fitting between the base 34 and the igniter sleeve 31 in the area of the orifice portion 41. In the igniter capsule 30, the igniter bead 33a extends from its base 34 into the spark plug charge 29 until where the grooves 35 begin on the outside of the igniter cap / igniter sleeve. The igniter bead 33a is thus embedded in spark plug, which, slightly compressed, fills substantially all available space between the cupped bottom portion 36 of the spark plug sleeve 31 and the socket 34 of the spark plug bead. by electric firing of the igniter by means of the igniter bead 33a.

An important principle of the present invention is that the igniter 30 itself is not an explosive product "in a state", such as during transport and storage, but that it may explode in a space confined by walls, as in the igniter sleeve 7a in more specifically, the combustion charge 29 and the crack discharge are burned by the form of explosion called de-agration, in which the reaction zone during the combustion of the powder propagates at a rate below the speed of sound in the gunpowder charge, and not by detonation, . In this way the desired effect can be achieved, namely to crack the larger rock or the rock section in which the cracking cartridge according to the invention has been fitted in a borehole, but not to break the boulder, boulder, rock slab or the like into a number of pieces which risk being thrown far. about.

In the above description, a number of terms have been used for the various components of the rock crack pauon according to the invention, selected so that they describe the function of the various components as far as possible. How the various components are defined and how they work must be summarized here: - Stenspräekpatzronen l is a cartridge filled with explosive substance to crack larger stones, smaller rock sections and the like through the flagration of the explosive substance, which consists of gunpowder.

The ignition capsule 30 consists of an ignition set sleeve 31 and an ignition set 32.

The igniter set 32 consists of an ignition bead 33a on a base 34, electric ignition cables 37 and a spark plug charge 29.

The igniter 30 can only explode if it is enclosed in an enclosed space bounded by walls with adequate strength. The ignition sleeve 31 does not have such its own strength, partly because its wall is thin and consists of plastic with limited breaking strength, partly because it is provided with said breaking strength lowering groove 35. If the spark plug 32 were to be fired "in the fi ia" , the gunpowder ignites in the gunpowder charge 29, the spark plug sleeve widens and possibly bursts as the gunpowder burns. The combustion in this case does not take place in an explosive dramatic way, which does not mean that the tooth capsule is handled carelessly. It must be handled as a flammable product in the class of your pyrotechnic articles.

The sleeve 7 on the insert 25 projecting into the crack powder powder 6 has been given the name igniter assembly sleeve 7a to indicate that it forms an element in the integrated igniter assembly comprising the tooth capsule 30 and the sleeve 7, 7a, in which the sleeve wall sleeve sleeve sleeve wall strength, when the igniter capsule 30 is inserted into the apter chamber in the igniter assembly sleeve 7a, so that these two sleeve or combination, and possibly also in cooperation with support of the surrounding sprtlck hut discharge 6, have sufficient breaking strength to give the assembly explosive properties, so that both the ignition as the fissure powder charge is burned by the fl agration, see above.

When fitting the stone filler cartridge 1, which is carried out at the work site where a larger stone or a batch of solid rock is to be cracked, the igniter capsule 30 is inserted into the fitting chamber 9 in the insert 25 in the stone sprue cartridge I as far as the edge 40 on the toothed sleeve 31 allows. this position by pressing the front end of the cylindrical part 31 of the igniter sleeve 31 in the final phase of the movement into the constriction 26. The cartridge 1 is then moved up and down all the way down, with the spacers 19a resting against the bottom, in the bore 42 made in the rock bump. (or boulder) 43 or the rock section to be cracked. If the rock crack cartridge 1 is oriented in this way, it can be pulled up again from the borehole with the aid of the ignition cables 37 if it is desired to interrupt the crack work. If, on the other hand, one were to turn the rock crack cartridge 1 with the ignition cap 30 directed upwards and in this position pull the ignition cables 37 hard, there is a risk that the base 34 with the ignition bead 33a or the entire ignition cap 30 will come loose.

When the ignition bead 33a is electrically ignited, the gunpowder charge 29 ignites, which explodes by defibrillation combustion. The igniter sleeve 31 widens by the pressure developed by the explosion, as far as the hour gap 39 allows, and ruptures in the areas of the weakening grooves 35. Whichever happens first; the enlargement or rupture is difficult or impossible to say but is also not of any significant importance. It can be said that it happens practically momentarily. However, it is not insignificant that the igniter sleeve ruptures in the areas of the grooves 35, since this 534 577 helps to give a radially directed pressure development, which is almost instantaneously transferred to the surrounding sleeve 7 - the igniter assembly sleeve 7a - so that this also breaks. The strong flame which develops in the spark plug charge 29 is now also transferred to the explosive charge 6, so that it also explodes through the agitation combustion, which in turn gives the desired radial pressure development in the borehole 42 and thus the cracking action in the rock bump or equivalent 43. Even with the The recovery improved stone crack cartridge 1 and the igniter 30 can be applied interval firing of tooth capsules and stone crack cartridges according to the principles described in said WO 2009 / 120139. These principles should therefore not be repeated here but incorporated instead in the present text by reference to said WO document.

Claims (21)

534 577 PATENT REQUIREMENTS Stone chip cartridge (1) comprising a first, outer sleeve (2) with an end wall (3) in a first end and a central opening (8) in a second end which is otherwise closed by a closing element (4 ), a substantially cylindrical second, inner sleeve (7) which is coaxial with the first, outer sleeve and with said central opening and communicates with said central opening and is connected to and extends from said closure element into a main chamber (5) in the first, outer sleeve, and a crack powder charge (6) which fills the space in the main chamber between said first and second sleeves and between the end wall of said first end and the closing element in the second end characterized by - in the fitted stone crack cartridge a firing hole is provided comprising a first and a second igniter assembly element, - said first igniter assembly element comprises an igniter capsule (30) with a spark plug sleeve (31), which contains a spark plug, comprising an electric activatable ignition initiator (3 3) and an igniter charge (29) which can be ignited by the ignition initiator, - that the igniter sleeve (31) lacks the mechanical strength required for the ignition charge (29) to explode on ignition, when the ignition cap is in the air, which means the igniter sleeve in this case only widens and possibly breaks and the spark plug charge burns up without an explosion object, when the igniter capsule is inserted into the igniter assembly sleeve (7a), which is surrounded by the crack powder charge (6), in combination with the strength of the igniter sleeve (7a) while restraining the surrounding crack powder charge, provides sufficient mechanical strength of the assembly comprising the igniter shaft ( and the igniter assembly sleeve (7a), so that, when igniting the powder charge, adequate pressure is developed in the assembly for the gunpowder charge to explode and generate a flame, and the igniter sleeve (31) and the igniter sleeve (7a) are penetrated by the pressure and the flame, which flame is capable of igniting the cracked gunpowder charge. . Stone chip cartridge according to claim 1, characterized in that both the igniter sleeve (31) and the igniter assembly sleeve (7a) consist of hard plastic. . The rock crack cartridge according to the name of the igniter set sleeve and the thickness of the igniter sleeve each amount to at least 0.5 mm and not more than 2 mm, and that the total thickness of the two sleeves is at least 1.3 mm and not more than 3 mm . Stone crack cartridge according to one of Claims 1 to 3, characterized in that the igniter sleeve is in the form of a one-piece hard plastic tube, in that this hard plastic tube-shaped sleeve has an outer, tapered end portion (36) and a muzzle in the rear end. 41) with a rear orifice (27), that the ignition initiator comprises an electrically releasable ignition bead (33a) with a socket (34) to which ignition cables (37) are connected, that the socket is arranged in said orifice portion of the igniter sleeve and that the ignition bead is arranged a piece into the igniter sleeve at a distance from the base. Stone crack panon according to one of Claims 1 to 4, characterized in that the igniter sleeve is provided with external grooves (35) which reduce the strength of the igniter sleeve substantially in the radial direction. Stone chip cartridge according to claim 5, characterized in that said groove extends fi from a position at a distance fi from said orifice portion towards the closed end of the igniter sleeve, and that said groove has an extent within which at least the main part of the ignition gun discharge extends. Stone crack cartridge according to claim 6, characterized in that the spark plug is embedded in the spark plug charge, that the main part of the spark plug charge is arranged between the spark plug (33a) and the enclosed end portion (36) of the spark plug sleeve, and that said outer groove ( with the outer end of the spark plug along the cylindrical wall of the spark plug sleeve. am to the closed end portion of the spark plug sleeve. Stone crack cartridge according to any one of claims 5-7, characterized in that the primer sleeve (31) has an outwardly facing end (40) in the region of the mouth 27 and that the outside of the primer sleeve is cylindrical and smooth from said end to said groove, and cylindrical and also smooth between said grooves all the way to said end portion. Stone crack cartridge according to one of the preceding claims, characterized in that the end portion of the igniter sleeve is rounded and extends at least to the nose portion (12a) of the toothed assembly sleeve (7a). Stone crack cartridge according to one of Claims 5 to 9, characterized in that between the igniter assembly sleeve (7a) and the igniter sleeve (31) there is a gap (39) which has a width which is negligible for the strength of the assembly, but which allows the igniter cap (30). that during the fitting of the rock crack cartridge it is inserted into the igniter assembly sleeve (7a) without jamming, and that on the inside of the igniter assembly sleeve (7a) a constriction (26) is arranged in a zone near the tip of the igniter assembly sleeve, which constriction has an extension 534 577 in the radial direction which is greater than the width of the gap (39), all for the purpose of axing the igniter capsule in its fitted position by friction between the igniter assembly sleeve and the igniter set sleeve in the area of said constriction. Stone crack cartridge according to any one of claims 1-10, characterized in that said closure means (4) has one or more axially projecting means (19a) and at least one space adjacent said means, which projecting means (s), then the rock crack cartridge is arranged upside down in a borehole with said projecting means resting against the bottom of the borehole, forms spacers between the rock crack panon and the bottom of the borehole, so that the ignition cables can extend through said space / spaces without being damaged. Ignition housing comprising an igniter sleeve (31) in the form of a tube having an orifice (27) and an orifice portion (41) at one end and closed at the opposite end and containing an igniter (32), characterized by that the ignition sleeve consists of hard plastic, that the ignition kit comprises an electrically activatable ignition initiator (3 3) and a spark plug charge (29) which can be ignited by the ignition initiator, and that the ignition sleeve lacks the mechanical strength required to ignite the air, ie is not enclosed in one of the walls with adequate strength to produce an explosion, which means that the ignition sleeve during ignition, when the ignition capsule settles in the free air, only expands and any defects and the spark plug charge burns up without an explosion effect. 13. Igniter capsule according to claim 12, characterized in that the ignition initiator comprises an electrically triggerable ignition bead (33a) with a base (34) to which ignition cables (37) are connected, that the socket is arranged in said orifice portion of the igniter sleeve at a distance from the socket. . Ignition capsule according to Claims 12 and 13, characterized in that the ignition sleeve is provided with external grooves (35) which reduce the strength of the ignition sleeve substantially in the radial direction. Ignition cap according to claim 14, characterized in that said groove extends from a position at a distance from said orifice portion towards the closed end of the igniter sleeve, and that said groove has an extent within which at least the main part of the ignition charge extends. 16. A spark plug according to any one of the claims 14 and the like-marked grooves has a depth of at least one heel of the wall thickness of the spark plug. 10 534 577 11 Ignition cap according to claim 16, characterized in that the spreading means width thereof is of the same order of magnitude as the wall thickness of the ignition cap. Ignition cap according to any one of claims 12-17, characterized in that the ignition bead is embedded in the ignition charge, that the main part of the ignition charge is arranged between the ignition bead (33a) and the closed end pair of the ignition sleeve (36), and that said outer grooves at the height of the outer end of the spark plug along the cylindrical wall of the spark plug sleeve up to the closed end of the spark plug sleeve. Ignition capsule according to any one of claims 14-18, characterized in that the ignition sleeve (31) has an outwardly facing end (40) in the area of the mouth (27) and that the outside of the ignition sleeve axis is cylindrical and smooth from said nda to said grooves, and cylindrical and smooth also between said groove all the way to said end portion. Ignition capsule according to one of Claims 12 to 19, characterized in that the end portion of the spark plug sleeve is rounded. Ignition capsule according to one of Claims 12 to 20, characterized in that the powder charge consists of nitrocellulose.