This invention relates to shaped charge cases, in particular shaped charge cases that can be nested and more specifically hand stemmed shaped charge cases that are nestable to reduce volume for carriage without detriment to the performance of the casing.
A shaped charge is an explosive charge shaped to focus the effect of the explosive's energy. A typical device consists of a solid cylinder of explosive with a metal-lined conical hollow in one end and a central detonator at the other end contained within a casing. The enormous pressure generated by the detonation of the explosive drives the liner contained within the hollow cavity inward to collapse upon its central axis. The resulting collision forms and projects a high-velocity jet of metal forward along the axis.
Shaped charges are frequently used as warheads in anti-tank missiles (guided and unguided) and also gun-fired projectiles (spun and unspun), rifle grenades, mines, bomblets, torpedoes and for various explosive disposal purposes. The shaped charge is held within a casing for safe storage and to aid the effectiveness of the charge on detonation.
Previous use of shaped charge casings has involved the charge casing being packed with explosive material either manually (hand stemmed) or by machine and assembled for storage or use. If the user wishes to carry several shaped charge casings on his person, it means a considerable volume is taken up and thus there is less space available for other equipment to be taken. It would be advantageous then to provide a shaped charge casing designed to reduce the overall volume for carriage or storage. Prior art such as EP0185150 shows the principal of stacking warheads to save space. U.S. Pat. No. 4,114,537 discloses a multipart trenching charge case having upper and lower parts which can be nested. In this charge the upper part of the casing provides an explosive compartment and the lower part of the casing provides the required stand off distance.
It is an object of the present invention to provide a shaped charge casing whereby multiple such charge casings can be nested within each other so that they do not require a high volume for storage or carriage.
Accordingly the present invention provides a shaped charge casing comprising a body portion provided with means for mounting a shaped charge liner and a cooperating lid portion together defining an explosive compartment wherein the shapes of the body portion and the lid portion are configured to enable a plurality of casings to be nested.
The two part design is simple, easy to use, removes the possibility of the loss or failure of a small component and keeps manufacturing costs to a minimum. The design of the invention allows several lid and body portions to be nested in succession. Where nesting is used here to mean a part of one body fits inside another body so as to save volume. The same also applies to lids being nested. The body portion of the shaped charge has an internal lip to hold the shaped charge liner in place whilst explosive material such as PE4 can be packed onto the liner. Different liners can be simply inserted without changing other parts of the charge. A tapered shape design of the body and lid portions makes nesting easier.
The lid portion may be shaped as a cone. Preferably a detonator holding means can be incorporated by the lid being designed in the shape of an inverted funnel. The narrow neck of the lid can hold in position a standard demolition detonator (electric or plain) or a detonating cord booster. The detonator is simply inserted and will remain in place when subjected to normal stresses for an emplaced explosive charge. Providing chamfered edges on the lid makes it easier for stacking one lid onto another. The body of the shaped charge may be designed as a truncated cone. The tapered shape of the body reduces the distance between the bulk of the explosive and the target i.e. the standoff distance, maximizing blast damage. This is advantageous when explosive blast damage is required as well as shaped charge effects. The shaped charge being in two parts allows the easy packing and removal of explosive material within the lid and the body. The tapering encourages homogenous filing with no air gaps next to the liner, which ensures efficient jet formation. The combined shape of the body and lid portions is conducive to rapid, high quality stemming and simplifies manual stemming of the charge. The external step provided on the outside of the body also enables easy stacking of one body on top of another, with no high-stress points that might cause deformation.
The lid and body portions are connected together with attachment means such as clips. If the casing is based on a cylindrical configuration then the attachment means is preferably a cooperating screw thread. This has the advantage that when screwing together of the body and lid portions, this ensures that the explosive is compressed to ensure efficient formation of the shaped charge jet.
The lid and body portions may be formed of polymeric material. Preferably the lid and body of the shaped charge will be comprised of structural polyurethane foam. This is a lightweight material that is easy to manufacture at low cost. This material is considered non-fragmenting which allows a very low weapon danger area when compared with other commonly used shaped charge casing materials. It is also structurally strong enough to allow stacking and carriage of several shaped charges without the additional need for protective packaging. Typically the user will carry the stacked charges in a back pack where volume is limited, allowing other equipment to be packed. Other materials such as syntactic foam, thin wall, or low resin content reinforced polymers are alternatives that can be used.
A further benefit of the invention is that the liner can be assembled with the casing for nesting, this facilitates quicker hand stemming for the user.
In order that the invention might be more fully understood, an embodiment thereof will now be described, with reference to the accompanying drawings, in which:
Assembled shaped charge casing 20 is optionally pre-packed with explosive filling (not shown). The remaining shaped charge casings are packed and assembled as required. This means that explosive material does not have to be unpacked until needed, making storage easier and maintaining shelf life of the explosive. The current embodiment can hold a quantity of 1 lb of PE4 but a person skilled in the art will appreciate that by scaling the size and shape of the embodiment to accommodate different quantities of explosive and changing the shape of the liner different charge effects can be achieved. Other user filled shaped charge systems can also benefit from this stacking construction are the Miznay-Schardin plates, Explosively Formed Projectile, focussed fragments or configured as a linear system such as a truncated prism cross-section.
Number | Date | Country | Kind |
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0920745.7 | Nov 2009 | GB | national |
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Entry |
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Search Report dated Jul. 2, 2010 in connection with GB0920745.7. |
Number | Date | Country | |
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20140060369 A1 | Mar 2014 | US |