Elastic retention ring for the combustible casing

Abstract

An elastic retention ring for the combustible casing of a piece of ammunition with respect to a base, said ring comprising two concentric substantially ring-shaped portions, one internal the other one external, said portions being linked by radial arms, said portions being continuous or not and being of different diameter, said external portion incorporating at least one plane part and said radial arms forming an angle with respect to the plane of said plane part.

Description

BACKGROUND OF THE INVENTION

1. Field of the Invention

The technical scope of the invention is that of means to hold the combustible casing of a piece of ammunition in place with respect to the shell base.

2. Description of the Related Art

Retention means are known by patent WO03/014654 comprising a pierced washer enabling the base to move with respect to the casing.

This washer incorporates a cup-shaped profile whose bottom matches the internal profile of the casing.

An angle is provided between a horizontal plane and the bottom of the cup so as to lend a certain rigidity to the link.

This washer, however, suffers from the drawback of generating radial stress on the combustible casing should there be any axial crushing. Such radial stress is all the prejudicial in that such a washer is somewhat rigid and risks cutting the casing.

Moreover, in the case of pre-stressed assembly, the contact surface of this washer with the bottom of the combustible casing is practically a circular line. This results in the casing bottom being embrittled thereby diminish its mechanical resistance to future stresses.

SUMMARY OF THE INVENTION

The aim of the invention is to propose an elastic retention ring which ensures the reliable retention of the base and casing whilst avoiding any radial stress on the casing and nevertheless enabling limited movements of the base with respect to the casing with minimal stressing of the casing. These limited movements enable the base to be returned to its initial position after any mechanical stressing.

Thus, the invention relates to an elastic retention ring for the combustible casing of a piece of ammunition with respect to a base, such ring wherein it comprises two concentric, substantially ring-shaped portions, linked by radial arms, such portions continuous or not, the portion of the greatest diameter incorporating at least one plane part and the radial arms forming an angle with respect to the plane of this plane part.

Advantageously, the two ring-shaped portions may be plane and parallel to each other.

According to one characteristic, the ring may incorporate an opening positioned between two consecutive arms, the external ring-shaped portion incorporating extensions extending radially in each opening.

Each extension may be pierced.

According to other embodiments, the external crown may have slots evenly spaced angularly, each slot being positioned at an equal distance from two consecutive arms.

The internal crown may have slots evenly spaced angularly, each slot being positioned at an equal distance from two consecutive arms.

According to a preferred embodiment of the invention, the external crown of the ring is separated into ring-shaped sectors, each sector being integral with an arm.

The internal crown may have a slot and it may have a hole in each side of this slot, such holes being intended to receive a tool enabling the ring to be positioned on the base.

Each ring-shaped sector may advantageously incorporate curved extremities.

BRIEF DESCRIPTION OF THE DRAWINGS

The invention will become more apparent from the following description of different embodiments, such description being made with reference to the appended drawings, in which:

FIG. 1 is a partial longitudinal section view of the rear part of a piece of ammunition incorporating an elastic ring according to the invention,

FIG. 2 is a curve giving the stress transmitted by a washer as a function of the relative axial displacements,

FIGS. 3 a and 3b are two views of a first embodiment of a ring according to the invention, FIG. 3b being a section along the plane referenced AA in FIG. 3a,

FIGS. 4 a and 4b are views of variant embodiments of the ring according to the invention,

FIGS. 5 a and 5b are two views of another embodiment of a ring according to the invention, FIG. 5b being a section along the plane referenced BB in FIG. 5a,

FIG. 6 shows a variant of this embodiment,

FIG. 7 is a lateral view of another variant embodiment.

DETAILED DESCRIPTION OF PREFERRED EMBODIMENTS

FIG. 1 shows the rear part of a piece of artillery ammunition 1 incorporating a combustible casing 2 to which an obturating base 3 is fixed. The obturating base incorporates an axial support 4 intended to receive an igniting tube (not shown).

The combustible casing 4 comprises a cylindrical part 2a which is extended by a substantially plane ring-shaped bottom 2c. The bottom 2c is linked to the cylindrical part 2a by a part 2b forming a cup and which substantially matches the internal profile 3a of the base 3.

The mechanical joining of the casing 2 and base 3 is ensured by means of an elastic ring 5 made integral with the axial support 4 by linking means, for example a snap ring (known under the name of Circlip) 6 arranged in a groove of the support 4.

In accordance with the invention, the elastic ring 5 comprises two substantially ring-shaped, concentric portions 5a, 5b, one internal the other one external. On this figure, the external diameter of the portion 5a is lower than the internal diameter of the portion 5b. The external portion is designated by the portion of the greatest diameter.

The internal portion 5a surrounds the axial support 4 and is substantially of the same internal diameter as this support. It presses against the snap ring 6 which is housed in the groove. The ring 5 also incorporates a peripheral portion 5b which presses against the bottom 2c of the casing 2.

According to one important characteristic of the invention, the ring-shaped portion 5b incorporates at least one plane part. Here, the whole peripheral portion 5b is plane.

Furthermore, portion 5a, here, is also plane and portions 5a, 5b are parallel to each other.

The circular portions 5a, 5b are made by substantially radial arms 7 forming an angle θ with respect to the plane of said portions 5a, 5b.

Thus, an axial stress F transmitted to the ring 5 by the base 3 translates into a reaction R parallel to the stress F and substantially perpendicular to the bottom 2c of the casing.

There is thus no radial stress exerted on the cylindrical part or on the cup 2b of the casing.

The stress transmitted to the bottom 2c of the casing may be easily controlled by the dimensioning of the radial arms 7.

It is naturally possible to implement other linking means than the snap ring 6. A nut onto the support 4 may thus be used screwed, with the possible addition of a washer between the nut and the ring 5.

Portion 5a may not be plane, for example, but may have a curved or undulated shape.

The plane portion 5b, in accordance with the invention, ensures the transfer and optimal distribution of the stress received whilst avoiding any radial stress on the casing.

FIGS. 3 a and 3b show a first embodiment of a ring according to the invention.

In this embodiment, the elastic ring incorporates two continuous crowns 5a and 5b, thus having not slots.

Crowns 5a and 5b are linked by six arms 7 evenly spaced angularly and an opening 8 is positioned between two consecutive arms 7.

Furthermore, the external ring-shaped portion 5b incorporates extensions 9 which extend radially into each opening towards the centre of the ring 5.

These extensions enable the contact area between the ring and the bottom 2c of the casing to be enlarged. The stresses thus transmitted are thereby distributed reducing the risk of the casing's shearing.

Each extension 9 is delimited by a substantially circular profile and incorporates a piercing 10. This piercing enables the quantity of unburned material from the casing 2 after firing to be reduced.

This embodiment furthermore enables the stresses to which the combustible casing is subjected to be strongly reduced.

FIG. 2 represents a curve 13 characterizing the resistive stress opposed by the ring as a function of the sinking δ of said ring. This sinking δ corresponds to the distance between the planes of each ring-shaped portion 5a, 5b. We observe that the characteristic of this elastic ring is to oppose relatively moderate stress around a sinking which substantially corresponds to the maximal distance δM separating planes 5a, 5b.

Such behavior is due to the specific shape of the ring which incorporates two continuous circular portions separated by arms forming springs. Beyond a certain sinking level, this ring approaches a state of mechanical balance which leads to the reduction of the stress.

Using an appropriately dimensioned ring (which someone skilled in the art will easily produce) results in the possibility of holding the casing with respect to the base with minimal stress whilst enabling the relative elastic displacements of the base with respect to the casing.

By way of example, with a spring steel ring of a thickness of 1.2 mm and maximal useful deflection δM=2.5 mm, a retention stress of around 35 deca-Newtons is obtained.

The variants shown in FIGS. 4a and 4b enable greater flexibility to be given to the ring 5.

According to FIG. 4a, slots 11 evenly spaced angularly could be positioned in the internal crown 5a, each slot being arranged at an equal distance from two consecutive arms 7.

According to FIG. 4b, slots 12 may be made in the external crown 5b, such slots being evenly spaced angularly and arranged at an equal distance from two consecutive arms 7. The slots 12 thus cut the different extensions 9.

With these variants, the rigidity and radial deformation of one or other of the crowns is reduced with respect to that observed in the embodiment described with reference to FIGS. 3a, 3b.

This results in the ring having a deformation characteristic that is different from the previous one. This characterization is given by curve 14 in FIG. 2.

We observe, however, that the stress level for a maximal deflection of 6 mm is relatively moderate (about 100 deca-Newtons).

FIGS. 5 a and 5b show another embodiment of the ring according to the invention which is also the preferred embodiment.

In this embodiment, the external crown 5b is separated into ring-shaped sectors 13 (here there are four) separated by notches 14 which open into openings 8. Each ring-shaped sector 13 is thus integral with an arm 7 and the sector is symmetrical with respect to said arm.

In a configuration which incorporates four arms 7 and four ring-shaped sectors 13, each sector 13 will have a length of between 15% and 23% of the circumference of the external crown 5b. The notches 14 will thus be of a width of between 2% and 10% of said circumference.

The internal crown 5a is continuous and may be held on the support 4 by appropriate linking means (snap ring, screwed nut . . . ).

This embodiment of the invention has the advantage of enabling the fully independent deformation of each arm 7. This results in increased flexibility. Furthermore, the stress is here directly proportional to the displacement of each zone under stress and this embodiment enables an amplitude of useful displacement to be obtained that is greater than that obtained with the previous embodiments (approximately 100% additional useful displacement).

FIG. 6 shows a variant of this embodiment in which the internal crown 5a has a single slot 15.

Furthermore, the internal crown has a hole 16 on each side of the slot 15. These holes are intended to receive a tool (not shown) enabling the ring 5 to be positioned on the support 4 of the base 3.

By way of a variant, the internal crown 5a may be of a width which increases regularly between the slot 15 and a zone diametrically opposite the slot 15.

Thus, the internal crown will be configured like a snap ring or Circlip. It may thus be directly positioned in a groove in the support 4 without it being necessary to provide additional linking means such as the snap ring 6 shown in FIG. 1. Assembly is thereby simplified and the number of parts is reduced.

Finally, FIG. 7 shows a last embodiment in which each ring-shaped sector 13 incorporates curved extremities 17. This variant has the advantage of avoiding any deterioration or cutting of the bottom 2c of the combustible casing by the extremities of the sectors 13 in the event of any relative movement between these elements.

Claims

1. An elastic retention ring for the combustible casing of a piece of ammunition with respect to a base, said ring comprising two concentric substantially ring-shaped portions, one internal the other one external, said portions being linked by radial arms, said portions being continuous or not and being of different diameter, said external portion incorporating at least one plane part and said radial arms forming an angle with respect to the plane of said plane part.

2. An elastic ring according to claim 1, wherein said two ring-shaped portions are plane and parallel to each other.

3. An elastic ring according to claim 2, wherein an opening is positioned between two consecutive arms, said external ring-shaped portion incorporating extensions extending radially in each opening.

4. An elastic ring according to claim 3, wherein each of said extension is pierced.

5. An elastic ring according to claim 3, wherein the external portion is provided with slots evenly spaced angularly, each of said slots being positioned at an equal distance from two consecutive arms.

6. An elastic ring according to claim 3, wherein said internal portion is provided with slots evenly spaced angularly, each of said slots being positioned at an equal distance from two consecutive arms.

7. An elastic ring according to claim 1, wherein said external portion is separated into ring-shaped sectors, each of said sectors being integral with an arm.

8. An elastic ring according to claim 7, wherein said internal portion is provided with a slot.

9. An elastic ring according to claim 8, wherein said internal portion has a hole in each side of said slot, said holes being intended to receive a tool enabling said ring to be positioned on said base.

10. An elastic ring according to claim 7, wherein said ring-shaped sector incorporates curved extremities.