CARTRIDGE FOR A FEEDING DEVICE

Abstract

A cartridge (1) in the form of a cylindrical container with eternal fixing ribs, a releasing unit (3) of the rear cartridge in the rear window (4) of the cartridge and a mechanism pressing the shell against the inner surface of the cartridge through the front window (5) of the cartridge (1). The front window (5) of the cartridge (1), together with the pressure plate unit (6), are placed inside the cartridge (1) within the cylindrical part of the shell loaded into this cartridge (1). At least two transverse rods (8) are affixed to the pressure plate (6), the ends of which are moving within slots (14) of side guides (12) affixed onto the cartridge (1), on both sides of the front window (5), wherein the pair of ends (11) of each transverse rod (8) is moving within the pair of slots (14) of side guides (12). Each of the side guides (12) is located near the side edge of the front window (5) of the cartridge (1) and is placed on linear moving guide (13) provided with a return spring (18). Each of the slots (14) in the side guide (12) has a section running at an angle against the surface of cartridge (1), connected to a section parallel to the surface of that cartridge (1).

Claims

1. Cartridge of a feeding device in the form of a cylindrical container with internal diameter corresponding to the external shell diameter, provided with external fixing ribs, a unit releasing the rear flange of a shell through the rear window of the cartridge and a mechanism pressing the shell against the internal surface of the cartridge through the front window of the cartridge, wherein the pressing mechanism has a pressure plate within the front window of the cartridge, the working surface of which is adapted to the shape of the shell surface, wherein the mechanism locking the rear shell flange and the pressure mechanism acting on the front part of the shell are concerted and controlled by an actuator, while rotation axis of the drive element levers are parallel and pass through planes orthogonal to the symmetry axis of the cartridge, wherein the front window of the cartridge together with the pressure plate unit are placed in the cartridge in the cylindrical part of the shell loaded into this cartridge, wherein at least two transverse rods are installed on the pressure plate, the ends of which are sliding in slots of side guides affixed on the cartridge, on both sides of the front window of this cartridge, wherein the pair of ends of every transverse rod is sliding in the pair of slots of side guides, wherein each side guide is located near the side edge of the front edge of the cartridge and is placed on a movable linear guide equipped with a return spring .

2. A cartridge according to claim 1, wherein each of the slots of the side guide has a section running at an angle against the surface of cartridge, connected to a section parallel to the surface of that cartridge.

3. A cartridge according to claim 1, wherein the ends of transverse rods, placed in slots of side guides, are eccentric to these transverse rods.

4. A cartridge according to claim 1, wherein the pressure plate unit is affixed on the outer surface of the cartridge case using fixing swing arms.

5. A cartridge according to claim 1, wherein the releasing unit of the rear shell flange contains the central, swing lever of the releasing unit with a releasing wheel on one side and with drive arms of the drive of the right and left slipper and lever units.

6. A cartridge according to claim 5, wherein the releasing wheel is fixed on and can rotate around the swing lever of the lock.

7. A cartridge according to claim 5, wherein the rotation axis of the lock lever inside the releasing unit is parallel to the transverse rods within the pressure plate unit, wherein the swing arm of the lock within the releasing unit contains rotating axes controlling the slipper and lever units controlling the movement of side guides of the pressure plate unit.

8. A cartridge according to claim 1, wherein the holes in ribs connecting individual cartridges contain brass bushings.

9. A cartridge according to claim 2, wherein the pressure plate unit is affixed on the outer surface of the cartridge case using fixing swing arms.

Description

[0020] The object of the invention has been presented in an embodiment in the attached drawing, in which individual figures of the drawing represent as follows:

[0021] FIG. 1a perspective view of the cartridge,

[0022] FIG. 2the pressure plate unit,

[0023] FIG. 3the releasing unit,

[0024] FIG. 4a detail of a connection between two cartridges.

[0025] FIG. 1 presents the cartridge 1 of a feeding device. The cartridge 1 is formed as a cylindrical container with internal diameter corresponding to the external diameter of the shell to be placed inside this cartridge 1. The cartridge 1 has external fixing ribs 2, a releasing unit 3 of the rear shell flange through the rear window 4 of the cartridge 1.

[0026] The cartridge 1 has a mechanism pressing the shell against the inner surface of this cartridge 1. The shell is not shown in the attached figures. This is a known mortar shell, with a 120 mm calibre in this embodiment. The cartridge 1 has a mechanism pressing the shell within the front window 5. The attached FIG. 1 and FIG. 4 present the pressure plate 6 placed within the front window 5.

[0027] The pressure plate 6 has a working surface adapted to the shape of the window 5 and formed according to the surface shape of the cylindrical part of the known mortar shell, not shown in the attached figures. The releasing unit 3 of the rear shell flange and the pressure plate unit 6 of the front part of the shell are concerted as described below, and controlled by a releasing wheel 7. The rotation axis of the locking mechanism and of the compression mechanism are parallel and pass through planes orthogonal to the symmetry axis of the cartridge 1.

[0028] The cartridge according to the invention is characterised in that the front window 5 of the cartridge 1, together with the pressure plate unit 6 are placed inside the cartridge 1, within the cylindrical part of the transferred shell. FIG. 1 shows that the cartridge has two windows: the front window 5 and the rear window 4. A moving pressure plate 6 is installed in the front window 5, generally moving within the window, in the direction orthogonal to the symmetry axis of the cartridge 1. In this embodiment, two transverse rods 8 placed in four holes 10 of two brackets 9 installed on the pressure plate 6 are installed on the pressure plate 6. The pressure plate 6 with brackets 9 and holes 10 is presented in FIG. 2.

[0029] The ends 11 of transverse rods 8 of the pressure plate 6 are sliding within slots of side guides 12 installed on the cartridge 1, on both sides of the front window 5 of this cartridge 1. On the right and the left sides of the front window 5 a single guide 12 is present, with two slots guiding the aforementioned ends 11 of transverse rods 8. Thus, in this embodiment, two ends 11 of each transverse rod 8 are guided in two guiding slots 14, namely in the left slot 14 and in the right slot 14.

[0030] Two guiding slots 14 are present in each of the side guides 12, the left and the right side guide. One pair of the guiding slots 14 in opposite guides 12 guides the ends 11 of one guiding rod 8, while the other pair of guiding slots 14 in opposite side guides 12 guides the ends 11 of the other guiding rod 8 of the pressure plate 6. Each of the side guides 12 is located near the side edge of the front window 5 of the cartridge 1 and is fixed within a linear guide 13 provided with a return spring. The linear guide 13 is placed on a longitudinal slipper 16. The left slipper 16 with the linear guide 13 is placed on the left side of the front window 5, while the second linear guide 13 is placed on the right longitudinal slipper 16, on the right side of the front window 5. The left and the right guide 13 return during loading and shifting of a shell from the cartridge 1 to a known trough, not shown in the figure, feeding individual known shells, not shown in the figure, to a known loading compartment.

[0031] The pair of side guides 12 moves together with the pair of linear guides 13.

[0032] As shown in FIG. 1, both linear guides 13 are driven by units of slippers and levers and move back and forth within holes of fixing ribs 2. This is shown in FIG. 1. In this embodiment, in the guiding slots 14 in the linear guides we can identify in both slots 14 two connected sections of a slot: one running diagonally upwards and the other one, closer to the cylindrical wall of the cartridge 1, running in parallel to the wall of this cartridge 1. This is shown in FIG. 1 and FIG. 4. Ends 11 of both transverse rods 8 parallel to each other are sliding in the aforementioned guiding slots 14. Both transverse rods 8 are connected with the pressure plate 6 via brackets 9. Thus, the pressure plate 6 is suspended on two transverse rods 8 in this embodiment. FIG. 1 shows that one of the rods 8 is fixed and can be tilted using fixing swing arms 17.

[0033] In a preferred embodiment of the invention, each of the guiding slots of the side guide has a section running at an angle against the surface of cartridge 1, connected to a section parallel to the surface of that cartridge 1. These two sections of slot 14 are connected in each of the cartridges 1 such that if the bracket 28 is pulled or if the handle 29 is pushed, the side guides move towards the releasing units, causing the ends 11 of rods 8 to enter the slanted part of guiding slots 14 and the rods 8 to raise together with the pressure plate 6, thus releasing the pressing unit fixing the cylindrical part of the shell inside cartridge 1. The motion of the pressure plate 6 is here generally orthogonal to the cylindrical surface of the shell (not shown) inside the cartridge 1. This motion actually takes place around the rotation axis of fixing arms 17, the ends of which move together with the rod 8 around an arc, but as a result of the use of the proposed design of the described drive unit, the pressure plate 6 retains its position parallel to the cylindrical surface of the shell during its motion towards the shell surface and away from the shell surface, as was the objective of the invention. The slipper and lever units 15 on the right side and on the left side of the cartridge 1, shown in FIG. 1, contain known elements connecting kinematically the releasing unit 3 with the pressure plate 6 unit in order to synchronise the time at which the shell flange is locked by the releasing unit 3 and the time at which the shell position inside the cartridge is fixed by the pressure plate 6. On the other hand, in the position in which the shell is transferred from the cartridge to the trough feeding the shell compartment, not shown in the figure, the releasing unit 3 is released and the pressure plate 6 is raised simultaneously.

[0034] The slipper and lever units 17 use return springs 18, which cause the right and the left slipper units 15 to return to the closed position of the releasing unit 3 and of the pressure plate 6 once the releasing unit 3 is unlocked by raising the wheel 7 of the releasing unit 3 as a result of another shell being loaded into the cartridge 1. Once the cartridge is loaded, the wheel 7 of the releasing unit is lifted by the shell flange and both slipper and lever units 15 move the pressure plate 6 using the guiding slots 15 until it contacts the shell case, pressing the cylindrical body of the shell to the opposite wall of the cartridge 1, thus fixing the shell inside the cartridge 1. In the section of all four guiding slots 14 parallel to the surface of the cartridge 1, both pairs of slots 14 move at the ends 11 of transverse rods 8 in the parallel direction, locking the position of the pressure plate 6 such that it presses the shell against the opposite wall of the cartridge 1. This eliminates any possible slack of the pressure plate 6, the position of which was set by pressure exerted by the springs. In an embodiment of the invention, return springs 18 only set the position of the ends 11 of transverse rods 8 in sections of the guiding slots 14 parallel to the symmetry axis of the cartridge 1. FIG. 1 also shows the base 19, which is used to fix the brackets 9 of transverse rods 8 on the pressure plate 6.

[0035] FIG. 1 and FIG. 3 present the releasing unit 3, containing levers 20 of the releasing unit and the wheel 7 of the releasing unit connected with the lock 21 of the releasing unit in the rear window 4 of the cartridge 1. The lock 21 is fixed on its axis 22 on the rotation axis of the releasing unit, inside a bushing 23 fixed to the base 24 affixed to the body of the cartridge 1. The bushing 25 of the slipper and lever unit 15 is also installed on the lock axis 22. The slipper and lever unit 15 is connected via its arm 26 to the aforementioned bushing 23 concerted with the axis 22 of the lock 21 of the releasing unit. As the shell is introduced into the cartridge 1, the wheel 7 of the releasing unit is lifted by the shell flange, resulting in the cartridge being locked by the lock 21 once the shell is placed inside the cartridge 1. This locks the shell at the rear flange of its case. At the same time, operation of bushings 20, 25 shown in the figure drives both slipper and lever units 15 via arm 26, 27 installed on the bushings, resulting in the shell being locked by the pressure plate 6. The bracket 28 of the cartridge 1 and the handle 29 of the releasing unit cooperate with both the right and the left slipper and lever units, designated as 15. The handle 29 enables the releasing unit to be released and the pressure plate 6 to be lifted, the shell to be released into the trough (not shown) and a new shell to be placed inside the cartridge 1.

[0036] In this embodiment, the ends 11 of transverse rods, placed in slots 14 of side guides 12, are eccentric to these transverse rods 8. This enables pressure of the pressure plate 6 to be adjusted, depending on any differences between shell diameters.

[0037] Holes in ribs used to connect neighbouring cartridges contain sliding brass bushings.

[0038] FIG. 1 shows the fixing ribs 2. In addition to fixing individual, functional units to the cartridge 1, the fixing ribs 2 are used to connect the neighbouring, parallel cartridges 1 into an endless chain. FIG. 4 presents a fragment of the connection between two cartridges 1 using connectors 30 in the form of connecting bolts. Individual cartridges 1 are connected in parallel and form a closed circuit, in which each and every individual cartridge 1 is filled with a shell in its loading position, and the shell is transferred via a known trough to the shell compartment of the vehicles in the unloading position. Cartridges 1 are guided within known guides and driven by a chain using toothed gears.

[0039] Individual cartridges 1 are connected with articulated connections using connectors 30 passing through holes in corners of the ribs 2. According to the invention, the holes in corners of the ribs 2 are provided with brass bushings 31. A hole in the corner of a rib 2 with a bushing 31 is presented in FIG. 4. Bushings 31 prevent wear of the hole edge. If the bushing 31 becomes worn, only said brass bushing 31 is replaced. Previously known solutions required the cartridge 1 to be replaced if the edge of this hole became worn.

[0040] The shell is placed inside the compartment of the cartridge 1 and pressing the releasing wheel 7 with its fixture, causing the lever unit to move the lock 21 and, through the right and the left slipper and lever units 15, a simultaneous drop of the pressure plate 6 and of the lock 21, which then locks on the fixture, fixing the shell in position.

[0041] The motion of the pressure plate 6 is caused by the side guides 12 and limited in the locked position of the cartridge by the described shape of the guiding slot 14 in side guides 12. The position of transverse rods 8 defines the position of the pressure plate 6 within the front window 5 provided in the cartridge at the level of the cylindrical surface of the shell, ensuring the adequate pressure. It is possible to adjust the position of the pressure plate, if necessary, by rotating the transverse rods at the eccentric ends 11 of these rods 8. The shell can be unlocked within the cartridge by pulling on the bracket 28 or by pressing the handle 29, until the shell is unlocked.

LIST OF REFERENCES

[0042] 1. Cartridge [0043] 2. Fixing rib [0044] 3. Releasing unit [0045] 4. Rear window [0046] 5. Front window [0047] 6. Pressure plate [0048] 7. Releasing wheel [0049] 8. Transverse rod [0050] 9. Bracket [0051] 10. Hole [0052] 11. Transverse rod end [0053] 12. Side guide [0054] 13. Linear guide [0055] 14. Guiding slot [0056] 15. Slipper and lever unit [0057] 16. Longitudinal slipper [0058] 17. Fixing arm [0059] 18. Return spring [0060] 19. Base [0061] 20. Releasing unit bushing [0062] 21. Releasing unit lock [0063] 22. Lock axis [0064] 23. Bushing [0065] 24. Bushing base [0066] 25. Lever unit bushing [0067] 26. Drive arm [0068] 27. Drive arm [0069] 28. Handle [0070] 29. Bracket [0071] 30. Connector [0072] 31. Brass bushing