The invention relates to an arrangement for supporting a shell, such as a mortar shell, into the barrel of a breech-loading weapon, the arrangement comprising a support element to be fastened to a mortar shell tail, the element comprising a rear part provided with a rim flange and means for fastening the support element to the mortar shell tail, and a firing member in the support element for firing the actual primer of the mortar shell for firing the mortar shell.
The invention further relates to a support element to be fastened to a shell and a method of supporting a shell into the barrel of a breech-loading weapon, comprising a rear part provided with a rim flange and means for fastening the support element to a mortar shell tail, and a firing member in the support element for firing the actual primer of a shell, such as a mortar shell, for firing the mortar shell.
Mortars are nowadays mounted on movable bases, allowing them to be moved from one place to another and, correspondingly, allowing them to be rapidly moved from the emplacement. A problem in such solutions is the ability of said base, i.e. vehicle, to defend itself against possible attacks, and the use thereof for destroying close-range targets on the ground. A moving base provided with a heavy shell mortar is normally unable to carry heavy defensive facilities in addition to the shell mortar, instead, it is at most provided with a heavy machine gun or corresponding lighter armature. In such a situation, the vehicle needs to be able to use the shell mortar for also firing horizontally or below it, for which normal mortar shells and shell mortars are not suited. A mortar shell inside a normal shell mortar having a smooth barrel is able to move when the shell mortar is oriented in the horizontal direction or below it in the barrel in such a manner that it either falls from the barrel or moves to such an extent that the mortar shell does not go off.
This problem is solved in the solution according to WO application FI 98/00064, wherein a separate control piece and a locking piece are attached to the tail of a conventional mortar shell with a mechanical locking. The locking piece fractures in connection with the firing. In this solution, separate parts have to be added in between the mortar shell and the control piece, which complicate the fastening of the control piece.
An object of the present invention is to provide a new and improved arrangement, support element and method so as to make a shell of a mortar stay at the right position in the barrel of a breech-leading mortar with a sufficient certainty and operate reliably and safely in all situations.
The arrangement of the invention is characterized in that the means for fastening the support element to the shell tail tube are arranged in the support element by means of fastening members settling onto the tail tube of the mortar shell and arranged to constitute an interference fit between the mortar shell and the support element.
The support element of the invention is characterized in that the means for fastening the support element to the tail of the shell are arranged in the support element by means of fastening members settling onto the tail tube of the mortar shell and arranged to constitute an interference fit between the mortar shell and the support element.
The method of the invention is characterized by using a support element in the fastening, wherein means for fastening the support element to the tail of the shell are provided in the support element by means of fastening members settling onto the tail tube of the mortar shell and arranged to constitute an interference fit between the mortar shell and the support element when fastened to the tail of the mortar shell.
An idea of the invention is to lock a shell, such as a mortar shell, to a support element by an interference fit between the tail tube of the mortar shell and the support element. The interference fit is provided by means of fastening members that settle on top of the tail tube of the mortar shell. The fastening members are provided in the support element by milling, for example. An advantage of the invention is that no separate fragile parts are required for the fastening, but the mortar shell is released from the interference fit between the support element and the mortar shell during firing by force of the gunpowder gases.
The idea of an embodiment of the invention is that the dimensions and position of the fastening members that settle on top of the tail tube are determined according to the tail tube of the mortar shell to be placed therein in such a manner that the diameter of the circumference constituted by the inner surfaces of the fastening members is slightly smaller than the outer diameter of the tail tube of the mortar shell to be placed in the support element. The interference fit between the support element and the tail tube of the mortar shell is selected in such manner that the fastening is sufficient to operate at all temperatures and in all operating environments required. An advantage is that no separate parts are required for the fastening.
The essential idea of another embodiment of the invention is that the fastening members settling onto the tail tube are finger-like and extend on the tail tube into a space between the control fins.
The essential idea of a third embodiment of the invention is that the surface of the fastening member of the support element settling onto the shell tail tube is provided with rifles or other corresponding projections that are pressed against the shell tail tube in the interference fit between the shell and the support element. The rifles or projections may also be provided in the shell tail part, on the outer surface of the fastening piece of the primer placed in the shell tail tube, for example. An advantage is that no separate parts are required for the fastening and the shaping of the opposite parts may be used to add the friction between the parts in the interference fit.
The essential idea of a fourth embodiment of the invention is that the fastening member has a fastening opening provided with a threading, to which a screw-like fastening means can be placed. The fastening means may be screwed through the fastening opening against the shell tail tube. The fastening opening is provided in the finger-like fastening member in a direction deviating from a direction perpendicular relative to the axial direction of the shell in a manner allowing the screw-like fastening means to be placed in the fastening opening when the shell is placed in the support element. The direction of the fastening opening deviates from a direction perpendicular relative to the axial direction of the shell preferably by 20 to 80 degrees and more preferably 30 to 70 degrees. In practice, the length of the rim jacket determines the angle of the fastening opening. In practice, the angle should be set such that the screw can be tightened fixed when the shell is placed inside the support element. The fastening openings may be provided in one or more finger-like fastening members extending upwards from the bottom of the support element. An advantage is that the friction between the parts can be increased in the interference fit.
The essential idea of a fifth embodiment of the invention is that finger-like fastening members are provided in the support element numerically such that during fastening, instead of one fastening member, two finger-like fastening members extend between two adjacent control fins of the shell.
In the following, the invention will be described in more detail in connection with preferred embodiments with reference to the accompanying drawings, in which
a schematically shows a shell supported into a weapon barrel by means of the arrangement of the invention,
b shows a back view of the arrangement of
In the figures, some embodiments of the invention are shown in a simplified manner for the sake of clarity. In the figures, like parts are denoted with like reference numerals.
In
b shows a back view of the support element 8 arranged in the barrel of the weapon according to
In the following, the structure of the arrangement and the support element of the invention will be described with reference to
In the middle of the support element are finger-like fastening members 80 extending from the upper surface of the firing means 9 in the direction of the shell in such a manner that they settle onto the tail tube 3 between the shell control fins 4. A fastening surface 81 of the fastening members 80 is a surface settling against the shell tail tube. The distance between the fastening surfaces is dimensioned according to the diameter of the tail tube of the shell to be placed in said support element in such a manner that, during fastening of the shell to the support element 8, a tight fit is created between the fastening members 80 and the tail tube.
The screw-like fastening means 85 may be for instance a retainer screw that can be threaded with a tool, such as an Allen wrench, to the shell tail tube 3. The retainer screw may be sharp-pointed, whereby the tips are pressed more easily to the tail tube. During firing, short tracks in the longitudinal direction of the tail tube are produced by the screw tips in the tail end of the tail tube. In the fastening opening, threads corresponding to the retainer screws used are threaded.
The fastening opening 82 is provided in the finger-like fastening member 80 in a direction deviating from a direction perpendicular relative to the axial direction of the shell (shown in the figure with reference marking A) in such a manner that the screw-like fastening means 85 may be placed in the fastening opening 82 when the shell 1 is placed in the support element 8. The direction of the fastening opening 82 deviates from a direction perpendicular to the axial direction of the shell 1 preferably by 20 to 80 degrees and more preferably 30 to 70 degrees. The angle being determined in a manner allowing the tool to be placed from the upper edge of the rim jacket 88 of the support member 8 towards the fastening opening 82. The screw-like fastening means 85 at the angle, such as retainer screws, press the tail against the support element 8 and the firing means 9. In such a support element, the machining time is slightly longer, but no separate breaking ring is required.
The middle of the support element is provided with fastening means 80 extending from the upper surface of the firing means 9 in the direction of the shell in such a manner that they settle onto the shell tail tube 3. The fastening surface 81 of the fastening members 80 is a surface settling against the shell tail tube. The inner circumference created in the fastening members 80 is dimensioned according to the outer circumference of the tail tube of the shell to be placed in said support element in such a manner that during the fastening of the shell to the support element 8, a tight fitting is created between the fastening member 80 and the tail tube. The figure illustrates that the rear part of the control fin 4 of the shell is shaped in a manner allowing the fastening members 80 to be fastened to the tail tube 3. This being so, the support element is fastened to the tail tube along the entire portion of the outer circumference thereof. It is to be noted that the solutions shown in
It is obvious to a person skilled in the art that as technology advances, the basic idea of the invention can be implemented in a variety of ways. Consequently, the invention and its embodiments are not restricted to the above examples, but may vary within the scope of the claims.
Number | Date | Country | Kind |
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20085078 | Jan 2008 | FI | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/FI2009/050078 | 1/30/2009 | WO | 00 | 7/30/2010 |
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WO2009/095540 | 8/6/2009 | WO | A |
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