RANGE EXTENSION DEVICE

Abstract

There is provided a reversible range extension device, capable in use, of being reversibly engaged to a body of an artillery shell, said range extension device comprising at least one energetic material, and an igniter, wherein the range extension device comprises a first end with an aperture, and second closed end, wherein the range extension device, in use, is selectively arranged to be in an active orientation or inert orientation, wherein in the active orientation the range extension device is arranged such that the aperture faces rearwardly away from the shell to allow the range extension device to function, and in the inert orientation the range extension device is arranged such that the aperture faces inwardly towards the shell.

Claims

1. A reversible range extension device, capable in use, of being reversibly engaged to a body of an artillery shell, said range extension device comprising: at least one energetic material; an igniter; a first end with an aperture; and a second end that is closed; wherein the range extension device, in use, is selectively arranged to be in an active orientation or inert orientation, and wherein in the active orientation the range extension device is arranged such that the aperture faces rearwardly away from the shell to allow the range extension device to function, and in the inert orientation the range extension device is arranged such that the aperture faces inwardly towards the shell.

2. The range extension device according to claim 1, wherein the range extension device is a base bleed.

3. The range extension device according to claim 1, wherein a body of the range extension device is manufactured from high-strength tempered steel, titanium fibre reinforced composite, or aluminium alloy.

4. The range extension device according to claim 2, wherein the range extension device reversible engagement comprises co-operative threads on the range extension device and the shell body.

5. The range extension device according to claim 1, wherein the range extension device is located in a housing, wherein the housing is reversibly attached, in use, to the shell body, and wherein the range extension device is selectively positioned within the housing in the inert orientation or active orientation.

6. The range extension device according to claim 5, wherein the range extension device reversible engagement comprises co-operative threads on the range extension device and the housing.

7. The range extension device, according to claim 1, wherein in the second end is shaped as a boat tail.

8. A reversible base bleed device, capable in use of being reversibly engaged to a body of an artillery shell, said base bleed device comprising: at least one energetic material charge; an igniter; a first end with an aperture; and a second end that is closed; wherein the base bleed device in an active orientation has the aperture facing rearwardly away from the shell to allow the base bleed to function, and wherein the base bleed device in an inert orientation has the aperture facing inwardly towards the shell to provide a boat tail.

9. An artillery shell comprising: a main shell body, a fuze, and located therebetween an ogive portion, said main shell body and ogive section forming a payload cavity, said cavity capable of receiving a payload, wherein at rearward of the main shell body is the reversible range extension device according to claim 1.

10. The shell according to claim 9, wherein the range extension device is located in a housing, wherein the housing is reversibly attached to the shell body, and wherein the range extension device is selectively positioned within the housing in the inert or active orientation

11. An artillery shell comprising: a main shell body, a fuze, and located therebetween an ogive portion, said main shell body and ogive section forming a payload cavity, said cavity capable of receiving a payload, wherein at rearward of the main shell body is the reversible base bleed device according to claim 8.

12. The base bleed device according to claim 8, wherein a body of the base bleed device is manufactured from high-strength tempered steel, titanium, fibre reinforced composite, or aluminium alloy.

13. The base bleed device according to claim 8, wherein the base bleed device reversible engagement comprises co-operative threads on the range extension device and the shell body.

14. The base bleed device according to claim 8, wherein the base bleed device is located in a housing, wherein the housing is reversibly attached, in use, to the shell body, and wherein the base bleed device is selectively positioned within the housing in the inert orientation or active orientation.

15. The base bleed device according to claim 14, wherein the base bleed device reversible engagement comprises co-operative threads on the base bleed device and the housing.

16. A reversible range extension device, capable in use, of being reversibly engaged to a body of an artillery shell, said range extension device comprising: at least one energetic material; an igniter; a first end with an aperture; and a second end that is shaped as a boat tail; wherein the range extension device, in use, is selectively arranged to be in an active orientation or inert orientation, and wherein in the active orientation the range extension device is arranged such that the aperture faces rearwardly away from the shell to allow the range extension device to function, and in the inert orientation the range extension device is arranged such that the aperture faces inwardly towards the shell.

17. The range extension device according to claim 16, wherein the range extension device is a base bleed.

18. The range extension device according to claim 16, wherein a body of the range extension device is manufactured from high-strength tempered steel, titanium, fibre reinforced composite, or aluminium alloy.

19. The range extension device according to claim 16, wherein the range extension device reversible engagement comprises co-operative threads on the range extension device and the shell body.

20. The range extension device according to claim 16, wherein the range extension device is located in a housing, wherein the housing is reversibly attached, in use, to the shell body, and wherein the range extension device is selectively positioned within the housing in the inert orientation or active orientation, and wherein the range extension device reversible engagement comprises co-operative threads on the range extension device and the housing.

Description

BRIEF DESCRIPTION OF THE FIGURES

[0018] Embodiments of the invention will now be described by way of example only with reference to the figures, in which:

[0019] FIG. 1 shows a prior art base bleed device; and

[0020] FIG. 2 shows the reversible base bleed device according to the invention;

[0021] FIG. 3 shows a filled shell with a base bleed device;

[0022] FIG. 4 shows an empty shell with payload cavity;

[0023] FIG. 5 show the base bleed in the active configuration

[0024] FIG. 6 shows the base bleed in the inert configuration.

[0025] FIG. 7 shows a section of the base bleed reversibly engaged via a threaded connector to the shell body

DETAILED DESCRIPTION

[0026] Turning to FIG. 1, shows a prior art base bleed shell 70. The shell body 72 and base bleed 74 are a unitary body, which cannot be separated into component parts, to leave a shell capable of being reassembled at a forward operating site, so as to be fired. The base bleed 74 comprises a gas generating composition 76, which when ignited exits via the plenum chamber 75, to provide an infill of gas flow to the vacuum created behind the shell when flying. The shell 72 cannot be reversibly detached from the base bleed 74, so there is no means to swap over the payload 77. The shell payload 77 is therefore fixed at the point of manufacture. The shell cannot be converted to a standard range munition, once the shell is launched the base bleed will function to extend the range.

[0027] Turning to FIG. 2 shows a common carrier shell 1, with a shell body 2, fuze 3, and reversible range extension device 20. The shell body 2, comprises an ogive portion 6, which may be part of a unitary shell body as shown, or a split shell (not shown). The ogive portion 6 and main body 7 form the shell body 2, with an empty cavity 21. The empty cavity 21 is filled with a payload 9, which can be a high explosive fill, illumination, smoke, electronic, UAV, or any other desired payload. The payload 9 may be inserted into the empty cavity 21 from the rear of the shell body 2.

[0028] At the front end of the shell, the fuze 3 typically comprises a threaded portion 4, which engages with the threaded portion 5 on the front end of the shell.

[0029] The reversible range extension device 20, comprises a base bleed device 10, 10a, the base bleed device may be in the inert orientation 10a or the active orientation 10. In the inert orientation 10a, the closed end 12a, is located towards the main propellant charge not shown, the closed end 12a, may be a boat tail shape. The open end 11a, is reversibly attached by a reversible attachment means in the form of threads 13a to the threads 35 on the housing 30. Alternatively the threads 13a may be directly attached to the shell threads 8.

[0030] In the active orientation 10, the closed end 12, is located towards the shell body 8, such that the open end 11 is directed towards the main propellant charge not shown. Thereby upon ignition of the main charge propellant, the hot gases and particulates will cause the ignition of the base bleed composition 22. Alternatively the base bleed device 22 may have its own ignitor (not shown).

[0031] The closed end 12, is reversibly attached by a reversible attachment means in the form of threads 16 to the threads 35 on the housing 30. Alternatively the threads 16 may be directly attached to the shell threads 8.

[0032] Turning to FIGS. 3 and 4 show a base bleed in a loaded (engaged) form 31 in a shell body 32. The empty common carrier shell 30, shows the empty payload cavity 41. The shells 30, 31 comprise a shell body 32, fuze 33, and a reversibly engaged range extension device 43. The shell body 32 is a split shell, comprising an ogive portion 36, which has a screw thread 39 to join with the main body 37. The ogive portion 36 and main body 37 form the shell body 32, forming the empty payload cavity 41 therein. The empty cavity 41 is filled with modular payloads (1 to 4) 40, which may be incremental high explosive fills, or a number of modular illumination, smoke, electronic, UAV, or any other desired payloads, (alternatively a unitary payload may be used). The modular payload 40, may be inserted into the empty cavity 41 from the rear of the shell body 32, typically the modular payload may for ease of insertion be in a liner, which slides into the empty cavity. For payloads 40 such as illumination or smoke the fuze 33 may initiate an expulsion charge (pusher assembly) 34 to force the payload 40 out of the rear of the shell cavity 41.

[0033] The reversibly engaged range extension device 43, comprises a housing 49 and located therein a reversible base bleed device 47. The base bleed device 47 being shown in the active orientation.

[0034] The aperture 45 of the first end of base bleed device 47 is directed rearwardly towards the main propellant charge (not shown). Thereby upon ignition of the main charge propellant, the hot gases and particulates may cause the ignition of the base bleed composition 48. Alternatively the base bleed device 47 may have its own ignitor (not shown).

[0035] The base bleed composition 48 comprises a uniform cavity to ensure a consistent burn. The closed end 42 of second end of the base bleed device 47, is located towards and sits inside the housing 49.

[0036] The driving band 46 is located towards the rear of the shell body 32, so as to impart spin to the shell upon gun launch.

[0037] Turning to FIG. 5 there is a section of the rear of the shell 58 with a modular payload, showing the base bleed unit 57 in the housing 56 in the active orientation.

[0038] The first end 52 of base bleed device 57 comprises an aperture 55 which is directed rearwardly towards the main propellant charge (not shown). Thereby upon ignition of the main charge propellant, the hot gases and particulates may cause the ignition of the base bleed composition 51. Alternatively the base bleed device 47 may have its own ignitor (not shown). The closed end 54, of the second end 53) is then facing inwardly to the shell body and payload 58.

[0039] The driving band 46 is located towards the rear of the shell body, so as to impart spin to the shell upon gun launch.

[0040] Turning to FIG. 6 there is a section of the rear of the shell 58 with a modular payload, showing the base bleed unit 57a in the housing 56 in the inert orientation.

[0041] The first end 52 of base bleed device 57a comprises an aperture 55 which is directed towards the housing 56 and the main body of the shell. Thereby upon ignition of the main charge propellant, the hot gases and particulates cannot cause the ignition of the base bleed composition 51. The closed end 54, of the second end 53, faces the main propellant charge (not shown). The closed end 54 or the closed end 54 and housing 56 together may form a boat tail configuration.

[0042] The driving band 46 is located towards the rear of the shell body, so as to impart spin to the shell upon gun launch

[0043] The base bleed unit 57 in the active orientation may be detached from the housing 56, turnaround to locate it in the inert orientation 57a or vice versa.

[0044] Turning to FIG. 7, there is provided a section of the base bleed device 60, showing a section of the shell body 65 and driving band 66. The base bleed device housing 64 is reversibly engaged with the shell body 65 by co-operative threads 67, 68. This allows the housing 64 to be removed from the shell 65, to allowing loading of the payload (not shown). The base bleed device 62 is reversibly engaged with the housing 64, by co-operative threads 64, 69. This allows the base bleed device 62 to be removed from a first inert orientation and quickly turned around ie reversed to a second active orientation, as shown in FIG. 6. The base bleed device 62 comprises a gas generator composition 61.

[0045] The co-operative threads may be replaced by shear pins or other fasteners.