FI115159B - Hardware for monitoring the charge status of the bulk cannon - Google Patents

Description

115159

Hardware for monitoring the charge status of the bulk cannon

Background of the Invention

The present invention relates to an apparatus for monitoring the loading state of a 5-cannon using a bulk loading system, in which the cannon barrel is movably mounted in the cradle.

Cannons are quite typically used for so-called. a bulk action system in which the actual projectile, or grenade, is loaded into the cannon barrel first and then into the barrel, into which the projectile is fired. The projectile is typically loaded using a so-called. a projectile loading device, whereby the projectile flies freely in the charge chamber up to a distance of more than one meter before it stops between the charge chamber and the fluted portion of the cannon barrel. in the transition cone due to friction. In this case, the projectile would have to grasp the overhead cone and stay in place until it fired. Once the projectile has been loaded, the cartridge is inserted into the cartridge-15 chamber, in different sizes / lengths or packs, depending on the firing function. in the cartridge case, and finally the cartridge chamber is closed at its rear end with a cannon barrel.

Normally, the propelling charge is of such a size or length that it does not reach the rear of the projectile, and thus does not support the projectile locally. Thus, the projectile will only hang in place on the friction between its guide ring and the transition cone. During or after closing the barrel •: · The projectile may loosen and fall against the launcher. In this situation, when the space between the projectile and the barrel is not tight, gunpowder gases flowing from the • • »firing of the next charge can flow between the projectile and the barrel: v. 25 until the projectile has been pressurized by the pressure created. As a result, both the projectile and the inside of the barrel may be damaged and the projectile will not fly to the intended target but will have a shorter flight distance. In the worst case, the explosive contained in the projectile could ignite, resulting in a barrel explosion and complete destruction of the cannon.

• 30 In many cannons, the fact remains that the charge chamber is located; 1 ': slidably within a separate, e.g. tubular, cradle, because the trap I must be able to move backward from the launch position after firing. Thus, it is often not possible to attach any type of measuring device or sensor projecting from the barrel to the cartridge chamber at the charge chamber.

2,115,159

BRIEF DESCRIPTION OF THE INVENTION The object of the present invention is to provide a device for monitoring the loading state and ensuring that the projectile is in the correct position before the cannon is fired. The apparatus according to the invention is characterized in that the cradle has a radiation source mounted on one side of the cannon barrel and a receiver substantially on the opposite side of the cannon barrel to measure the amount of radiation emitted from the source and a display element with the projectile loaded in the cannon 10 barrel, the radiation passes through the cannon tube through the point of the substantially air-only charge chamber between the projectile and the propelling charge, whereupon the projectile is detached from the correct position and attenuates the amount of the position may be indicated by a display means.

An essential idea of the invention is that a radiation source is attached to the cradle around the cannon tube, which emits electromagnetic radiation through a cannon tube for receiving on its opposite side. It is still an essential idea of the invention that the radiation source and receiver 20 are positioned in the cradle such that, when the projectile is used, after charging, is in the correct position in the cartridge chambers, the cartridge chamber is * »* • · ·; the blank space behind the projectile, which does not substantially attenuate radiation. In this case, when the cannon is loaded and the barrel closed, a display element attached to the receiver detects • based on the amount of radiation received at the receiver whether the projectile has stayed in the correct position or whether it has fallen into an incorrect position. This is based on the fact that if the projectile falls, not only the material of the cannon tube but also the projectile material enters between the radiation source and the receiver, which significantly attenuates the radiation and thus the wrong position of the projectile can be detected on this basis. According to a preferred embodiment of the invention, the electromagnetic radiation is generated by using a radioactive material of sufficient short-wave and high-energy radiation to penetrate through the cannon-tube walls of the cannon. Such a radiation source is preferably a radioactive isotope emitting high-ray gamma radiation. One more kek- '. According to a preferred embodiment of the invention, radiation is sought to be concentrated; 115159 3, so that its radial but solid bores can be drilled on the outer surface of the cannon to measure the radiation. According to another preferred embodiment of the invention, the radiation source and receiver are positioned relative to the cradle so that the cannon can be displaced longitudinally so that, when using different projectiles and propellant charges, the radiation source and receiver can be moved to the appropriate position. According to yet another third preferred embodiment of the invention, two or more radiation sources are used, and the same number of receivers, respectively, which are mounted according to the dimensions of the different ammunition and propelling charges.

10 Brief Description of the Figures

The invention will be further described in the accompanying drawings, in which Fig. 1 schematically shows an apparatus according to the invention mounted in a cannon,

Figures 2a and 2b schematically illustrate the operation of the apparatus 15 according to the invention with the projectile in the correct position, cut in the longitudinal and transverse directions of the cannon respectively,

Figures 3a and 3b show a similar situation in Figures 2a and 2b with the projectile in the wrong position, and

Figures 4a and 4b show another embodiment of the apparatus 20 according to the invention.

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DETAILED DESCRIPTION OF THE INVENTION ···, Fig. 1 schematically shows an apparatus according to the invention. The • · .55 barrel and cradle of the cannon are depicted in a position where they are normal • to each other at the time of launch. The apparatus is a radiation source 3 mounted on one side of the cannon cradle 2 25 on one side of the cannon. The cradle is shown as tubular in this and other figures, but other types of crowns known per se are also possible. On the opposite side of the barrel 2 is a receiver!: * 4, where the radiation emanating from the radiation source 3 and passing through the cannon tube 1 hits.

The receiver 4 is coupled to a monitoring device 5 which has some kind of display element 30 which indicates the charge status of the cannon barrel. The display element 6 may be a signal lamp 55, a sound generating device, some kind of information display screen, or any other means by which the information provided by the detector can be assigned to the users of the cannon. The dashed arrows 3 'and 4' indicate that, if desired, the radiation source 3 and the receiver 4 may be moved relative to the barrel 2 in the longitudinal direction of the cannon 115159 4, should the size of the projectiles and propelling charges vary.

Fig. 2a shows a longitudinal section of the cannon barrel 1 at the charge chamber 1a in a position where the projectile 7 is located at the right position 5 and Fig. 2b shows a cross-sectional view of the charge chamber along line A-A. As shown in Figure 2a, the projectile 7 is positioned in its intended position for the cartridge with respect to the transition cone 1b between the chamber and the fluted portion of the cannon barrel. In this situation, the guide ring 7a, generally made of a projectile, made of a soft material such as copper or brass, is pressed 10 tight against the surface of the transition cone 1b and locked in place by friction. Behind the projectile 7, at a distance from the projectile, is a firing charge 8, which is typically formed by a plurality of separate gun-containing packages. On the backside of the driving charge is a closure piece 9 which closes the rear of the cartridge during firing.

As shown in Fig. 2a, the radiation source 3 and the receiver 4 are located in the body 2 so that they are almost attached to the outer surface of the tube 1. This distance in itself is not very substantial, but it is preferable that there is only air between the radiation source 3 and the receiver and cannon tube 1. Since the cradle 2 does not suffer significant strain in this respect, the cradle may be provided with openings 2a or holes as needed. Also, the barrel 1 of the cannon has bores 10 formed in the direction of its radius at the charge chamber 1a so that the bores 10 are substantially at the same position and most preferably substantially at the center of the charge chamber 1a; * * for the axle. The radiation source 3 and the receiver 4, in turn, are installed such that the radiation path from the radiation source is at bores 10 through the walls of the cannon ·: ··: 25. In the situation of Fig. 2a, the radiation source 3 and the receiver j '· ·; at the measuring point, only the wall thickness or bore of the cannon tube 1 ···. when used, only wall thicknesses remaining at the bores 10 and substantially air in the batch chamber 1b. Of course, if there are no openings or holes in the cradle, the thickness of the cradle material may also be present along the radiation path. In this situation, the cannon passes through tube 1 substantially * · '; * * ti is the amount of radiation that indicates that there is nothing else at that point

: material. Fig. 2b shows a similar circumstance in cross section A-A

· J along.

. Figures 3a and 3b show a similar situation in Figures 2a and 2b when the projectile 7 has been detached and dropped on the propelling charge in the wrong position. In this situation, the metal shell and explosive of the projectile are radiation 115159 5

In the passage and attenuate radiation in Figures 2a and 2b compared to the situation. This reduction in the amount of radiation is also detected by the receiver 4 and, as a result, the display element 6 indicates that the charge condition is incorrect. This way, the cannon is unknowingly fired in a situation where it could be damaged and, in the worst case scenario, harm its users.

Figures 4a and 4b show another embodiment of the apparatus according to the invention according to Figures 2a and 2b, respectively. In this embodiment, neither the barrel 2 of the I barrel nor the cannon barrel 1 has any openings or bores, but radiation passes through the material of both the barrel and the cannon barrel walls. In this embodiment, the placement of the projectile on the radiation line attenuates the radiation to such an extent that improper charge of the projectile can be detected by the receiver and detected by a display element.

The radiation source 3 employs radioactive material which emits suitable radiation. In practice, the most preferred radiation sources are radioactive isotopes emitting high-15 gamma radiation, such as Cs137 or Co60. In this case, the receiver is a radiation detector, typically a counter, which measures the amount of radioactive radiation. Because the radiation source and receiver are attached to the cradle 2, which moves significantly less when firing the cannon barrel 1 and is subjected to significantly lower acceleration forces 20 than the cannon barrel, they withstand in-use forces and stresses that they would not withstand when mounted on the cannon barrel.

. If the dimensions of the projectile and ammunition used in the cannon are the same ..; I * pivia, can be solved with a single radiation source and receiver. If the dimensions of the ammunition: '' 'and the propelling charges vary significantly, an embodiment may be used: 25, where the radiation source and receiver can be displaced in the longitudinal direction of the cannon in relation to the projectile and propelling charge used. . at the right place. Further, provided that the dimensions of the ammunition and propelling charges used · · clearly distinguish between two or more distinct points which are suitable for indicating the position of the projectile, two may also be used; 30 or more stationary radiation sources and an equal number of · · 'receivers, whereby for each combination of projectile and propelling charges a given pair of radiation source sources indicates the correct or incorrect position of the • projectile in question.

The invention is presented by way of example only in the specification and in the drawings and is in no way limited thereto. It is essential that, outside the cannon, at a point where, when the cannon is firing and the cannon is in the correct position, there is an empty air-only space, there is a radiation source and a detector on opposite sides of the barrel to ensure that the at the right time on Saturday in the betting chamber.

Claims (8)

7, 115159 Apparatus for controlling the charge state of a cannon using a bulk loading system, wherein the cannon barrel (1) is movably mounted in the cradle (2) in a longitudinal direction, characterized in that a radiation source (3) is mounted on one side of the cannon barrel (1) on the opposite side of the tube (1), the receiver (4) for measuring the amount of radiation emitted from the radiation source (3) and the display element (6) for detecting the amount of radiation entering the receiver (4); 2) with respect to the position at the time of launch of the cannon barrel (1) such that, with the projectile (7) loaded into the cannon barrel (1) in its correct position, the radiation passes through the cannon barrel (1) substantially only between the projectile (7) through the position of the air-filled cartridge chamber (1a), when the projectile (7) is disengaged from its correct position, it settles on the radiation path and attenuates the beam entering the receiver (4) so that the erroneous position of the projectile (7) can be detected by the display element (6). Apparatus according to claim 1, characterized in that the radiation source contains a radioactive isotope emitting high energy gamma radiation, such as Cs137 or Co60. Apparatus according to claim 1 or 2, characterized in that the radiation is directed substantially through the central axis of the charge chamber (1a). I * Apparatus according to any one of the preceding claims, characterized in. · N e 11 u that the display element (6) is a light or sound generator. Apparatus according to any one of the preceding claims, characterized in that one or more of the outer surface of the cannon barrel (1) per bore chamber (1a) is drilled into the cannon barrel (1). a directed closed hole (10). Apparatus according to one of the preceding claims, characterized in that the cradle (2) has openings (2a) passing through it along the radiation path. ; ' Apparatus according to one of the preceding claims, characterized in that the at least one radiation source (3) and the receiver (4), respectively, are: movable relative to the cradle in the longitudinal direction of the cannon barrel (1). . ·. Apparatus according to one of the preceding claims, characterized in that it has at least two radiation sources (3) and two receivers (4) for different projectiles mounted at different positions in the longitudinal direction of the barrel of the cannon (1). . '»I 115159