A container for packaging and storing ammunition units, a unit cargo comprising such containers and a method for packaging and storing such containers.
The application is the national phase under 35 U.S.C. §371 of PCT/SE2013/000188 filed 4 Dec. 2013.
The present invention relates to a container for packaging and storing ammunition units such as rounds to prevent mass detonation, comprising a plurality of tubes arranged side by side for storing an ammunition unit each. The invention also refers to a unit cargo comprising a plurality of such containers and a method for packaging and storing ammunition units such as rounds using tubes to store an ammunition unit in each tube.
Containers for packaging and storing ammunition units of the type defined above are previously known and it can for example be referred to U.S. Pat. Nos. 3,757,933 and 7,546,917 both disclosing embedded tubs to store ammunition units.
In particular within the area of Insensitive Munitions (IM) there is a desire and requirement to protect weapon systems from external threats and in particular threats that can result in mass detonation. In order to estimate the IM-ability of a weapon system there are today available a number of standardized tests and standardized threats. Our proposed container solution has been designed to prevent mass detonation when testing “Sympathetic Reaction” (SR) according to a set standard.
The containers disclosed in the above cited US patents are not considered to fulfil now set standards.
The main object of the invention is to obtain a container, an unit cargo and a method that fulfil set standards for preventing mass detonation and effectively avoid mass detonation. Another object is to provide a non-complicated and cost effective solution avoiding mass detonation.
The objects are obtained by a container according to the first paragraph characterized in that the comprised tubes are connected in pairs, that each tube pair is separated by a T-shaped detonation protection arranged with the base of the T-shape extending into a space between the tubes of a pair and with the top section of the T-shape arranged to separate the tube pair from adjacent tube pairs. The T-shaped detonation protections effectively prevent pressure from a detonating ammunition unit to reach and detonate adjacent ammunition units.
Preferably the T-shaped detonation protections are of high density materials and for example metallic material. One such suitable material is steel.
According to one proposed embodiment the container is characterized in that at least two tube pairs are comprised in the container and that the top section of a T-shaped detonation protection of each tube pair are parallel and face each other. In particular it is proposed that three tube pairs are comprised in the container. In this connection it is in particular proposed that top sections of T-shaped detonation protections facing each other are separated by a compressible plate attached to the top section of one of the two top sections facing each other. The combining of T-shaped detonation protections creates an effective protection and facilitates an uncomplicated assembling. By the introduction of the compressible plate undesired rattling is avoided. In particular it is proposed that the compressible plate is of plastazote
In a further proposed development of the container, each comprised pairs of tubes is separated by a distance plate. This insertion of distance plates still more facilitates the packaging of the container. Suitably the distance plate is provided with a foot at a bottom section of the plate and a recess in the plate to accommodate the top section of the T-shaped detonation protection. By this embodiment the tube pairs are easily kept in position when packaging and the positioning of the T-shaped detonation protections are well defined relative to warheads of the ammunition units. One suitable material proposal for the distance plate is that it is made of foamed plastic such as polyethylene.
Preferably the T-shaped detonation protections are located in close connection to warheads of the ammunition units stored in the tubes.
The present invention also relates to a unit cargo comprising containers according to the above stapled on a pallet in a plurality of layers, each layer comprising a plurality of containers. According to one proposal there are three layers comprised, each layer comprising three containers. A unit cargo as defined is easily transportable and has a high resistance towards mass detonation. The high resistance towards mass detonation is primary due to the design and locating of T-shaped detonation protections built in.
Furthermore the invention relates to a method for packaging and storing ammunition units such as rounds using tubes to store an ammunition unit in each tube. The following method packaging steps are carried out:
The invention will now be described in more detail with reference to the accompanying drawings in which:
According to
An example of a container for packaging and storing ammunition according to the invention will now be described with reference to
In order to prevent mass detonation T-shaped detonation protections are introduced between adjacent tubes. An example of a first type T-shaped detonation protection 13 is shown in
In
In order to facilitate the packaging of the container 1 a distance plate 24 as shown in
Furthermore, a second type of distance plate 29, see
In the following a suitable packaging procedure is described with reference to
In
The container, unit cargo and method of the invention is not limited to the examples described above but may be modified within the scope of the attached claims.
Filing Document | Filing Date | Country | Kind |
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PCT/SE2013/000188 | 12/4/2013 | WO | 00 |
Publishing Document | Publishing Date | Country | Kind |
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WO2015/084219 | 6/11/2015 | WO | A |
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Entry |
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PCT/ISA/210—International Search Report—dated Jul. 28, 2014 (Issued in Application No. PCT/SE2013/000188). |
PCT/ISA/237—Written Opinion of the International Searching Authority—dated Jul. 28, 2014 (Issued in Application No. PCT/SE2013/000188). |
Number | Date | Country | |
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20160377400 A1 | Dec 2016 | US |