초록 ▼

A booster explosive (10) is comprised of assembled components comprising a canister body (12, 112) having a fuse tunnel (22) formed integrally therewith and a separate cap well (14, 114) mounted within the canister body (12, 112) which is filled with a solid cast explosive (34). The connector end (1

A booster explosive (10) is comprised of assembled components comprising a canister body (12, 112) having a fuse tunnel (22) formed integrally therewith and a separate cap well (14, 114) mounted within the canister body (12, 112) which is filled with a solid cast explosive (34). The connector end (14c, 114c, 214c) of cap well (14, 114) is configured to engage cap well mounting fixture (28, 128) disposed within the canister body (12, 112). Cap well mounting fixture (28, 128) has a flexible and resilient crown-shaped locking member (28a, 128a) formed integrally therewith and is otherwise configured to positively retain a detonator (16, 116) within the cap well (14, 114). More than one cap well (214a, 214b, 214a′, 214b′) and more than one fuse tunnel (222a, 222b, 222a′, 222b′) may be provided in the canister body (212, 212′).

대표청구항 ▼

1. Components for a canister assembly for a cast booster explosive, the components comprising a canister body defining an interior of the body and, separate from the canister body, a cap well: (a) the canister body having (i) a wall defining an interior of the canister body, (ii) a canister base clo

1. Components for a canister assembly for a cast booster explosive, the components comprising a canister body defining an interior of the body and, separate from the canister body, a cap well: (a) the canister body having (i) a wall defining an interior of the canister body, (ii) a canister base closing one end of the canister body, (iii) a fuse tunnel open at both ends thereof and extending along the length of the canister body, (iv) a cap well mounting fixture open to passage of a detonator therethrough, and (v) a locking member disposed at the mounting fixture and configured to retain a detonator within the cap well; and(b) the cap well being closed at one end and open at its opposite connector end, and being configured to have its connector end seated on the cap well mounting fixture, and to receive and enclose such detonator within the cap well to isolate such detonator from the interior of the canister body. 2. Components for a canister assembly for a cast booster explosive, the components comprising a canister body and, separate from the canister body, a cap well: (a) the canister body having (i) a wall defining an interior of the canister body, (ii) a canister base closing one end of the canister body, (iii) a fuse tunnel open at both ends thereof and extending along the length of the canister body, (iv) a cap well mounting fixture open to passage of a detonator therethrough, and (v) a locking member disposed at the mounting fixture and configured to retain a detonator within the cap well; and(b) the cap well being closed at one end and open at its opposite connector end and configured to have its connector end seated on the cap well mounting fixture, and to receive such detonator within the cap well; and wherein the canister body has a canister base, the cap well connector end has an interior surface, the cap well mounting fixture comprises a cylindrical member which cooperates with the locking member to define an interior passageway which opens to a cap well access opening in the canister base, the mounting fixture has an exterior surface which is configured to be snugly engaged by the interior surface of the cap well base whereby to securely mount the cap well on the mounting fixture, and the locking member is carried on the mounting fixture and extends into the interior passageway. 3. The components of claim 2 wherein the mounting fixture and the locking member comprise an integral, one-piece member with the locking member comprising an inwardly tapering crown which partially occludes the interior passageway. 4. The components of claim 2 wherein the fuse tunnel is open to a fuse access opening in the base and the exterior surface of the mounting fixture are each of circular cross-sectional configuration. 5. A canister assembly for a cast booster explosive comprising the components of any one of claim 1, 2, 3 or 4 wherein the cap well is mounted on the mounting fixture. 6. A cast booster explosive comprising the canister assembly of claim 5 having a cast explosive contained within the interior of the canister body. 7. A canister assembly for a cast booster explosive, the canister assembly comprising: (a) a cylindrical canister body having (i) a wall defining an interior of the canister body, (ii) an open top end, (iii) an opposite bottom end closed by a canister base, (iv) a fuse tunnel open at both ends thereof and extending within the interior of the canister body from a fuse access opening in the base, (v) a cap well mounting fixture open to a cap access opening in the base, and (vi) a locking member disposed at the cap access opening and configured to engage a detonator to retain such detonator within the canister body, all the features of (i) through (vi) above being embodied in a molded single plastic piece; and(b) a cap well closed at one end and open at its opposite connector end and configured to receive such detonator therein, the connector end of the cap well being configured to be seated on the cap well mounting fixture to mount the cap well within the interior of the canister body. 8. The canister assembly of claim 7 wherein the locking member is integrally formed on the cap well mounting fixture. 9. The canister assembly of claim 7 wherein both the canister body and the cap well are injection-molded plastic structures. 10. The canister assembly of claim 7 wherein the base of the canister body has therein a recess defining a platform which extends into the interior of the canister body, and the cap access opening and the fuse access opening extend from the interior of the canister body through the platform to the recess. 11. The canister assembly of claim 10 wherein the platform has therein a groove connecting the cap access opening and the fuse access opening, the groove being configured to receive therein a detonator fuse extending between the cap access opening via the groove to the fuse access opening. 12. The canister assembly of claim 7 wherein the cap well is mounted on the cap well mounting fixture with the cap well disposed within the interior of the canister body. 13. A cast booster explosive comprising the canister assembly of claim 12 and further including a cast explosive within the interior of the canister body, the cast explosive being configured to leave unobstructed the fuse tunnel, the fuse access opening, the cap access opening, and the mounting fixture. 14. The cast booster explosive of claim 13 further comprising a detonator having a fuse extending therefrom, the detonator being disposed within the cap well and retained therein by the locking member. 15. The cast booster explosive of claim 14 wherein the base of the canister body has therein a recess defining a platform which extends into the interior of the canister body, and the cap access opening and the fuse access opening extend from the interior of the canister body through the platform to the recess, the platform having therein a groove connecting the cap access opening and the fuse access opening, and wherein a section of the fuse between the cap access opening and the fuse access opening is disposed within the groove. 16. A method for making a canister assembly for a cast booster explosive comprising the steps of: (a) molding a first synthetic polymeric material to form a one-piece cylindrical canister body having the following features (i) through (vi) inclusive: (i) a wall defining an interior of the canister body, (ii) an open top end, (iii) an opposite bottom end closed by a canister base, (iv) a fuse tunnel open at both ends thereof and extending within the interior of the canister body from a fuse access opening in the base, (v) a cap well mounting fixture open to a cap access opening in the base, and (vi) a locking member configured to engage a detonator to retain it within the canister body;(b) molding a second synthetic polymeric material to form a cap well closed at one end and open at its opposite connector end, the connector end being configured to be seated on the mounting fixture of the canister body; and(c) after step (b), mounting the cap well within the interior of the canister body onto the cap well mounting fixture to form the canister assembly. 17. The method of claim 16 wherein the first and second synthetic polymeric materials are substantially identical to each other. 18. The method of claim 16 further comprising incorporating the canister assembly into a cast booster explosive by the additional steps of: introducing a flowable explosive into the interior of the canister body; andcausing or allowing the flowable explosive to harden. 19. The method of claim 18 further comprising introducing a detonator into the cap well, the detonator having an explosive tip at one end and a fuse extending from its opposite end and out of the cap access opening into the fuse tunnel, and the detonator being retained within the cap well by the locking member.