WO2009049719A1 - Device for preventing assembly errors during the assembly of a projectile, particularly smoke projectiles - Google Patents

Abstract

Disclosed is a device for preventing assembly errors during the assembly of a projectile (10), particularly smoke projectiles, comprising diverse components and smoke products (1), wherein each smoke product (1) is designed in such a way that, due to its dimensions, it can be installed into the projectile (10) only in a particular position so that, in case one or several smoke products (1) have been falsely mounted into the projectile (10), it is no longer possible to mount the projectile bottom (12).

Description

 DESCRIPTION

Device for avoiding assembly errors during the assembly of a projectile, in particular with missiles

The invention relates to a device for preventing assembly errors during assembly, in particular of smoke bullets.

In order to protect certain areas or areas, etc., for example by fogging, so-called pyrotechnic active masses are brought to the target with so-called fog bullets. This is done, inter alia, by projectiles or a smoke munition. As projectiles artillery and mortar smoke bullets are known. The pyrotechnic active mass of the mists burns off at the bottom, achieving a desired mist effect.

In the newer storeys, the pyrotechnic active mass is housed in individual nebulas. At a certain height, these can then be expelled from the projectile by a discharge charge and at the same time ignited by the combustion gases and particles. By means of delay elements, etc., the nebulized bodies can also be burned so that they only generate the nebula when the nebulized bodies have hit the ground.

The mists are usually cylindrical containers, in particular metal containers, in which a support tube is mounted centrally. This support tube partially absorbs the launch load and allows ignition by the combustion gases and particles of the discharge charge. In this container, the pyrotechnic mass is introduced and sealed with a lid.

Currently, depending on the type of projectile and floor size, three to eight fog bodies are housed in the floors. These are stacked on one another in the projectile, so that together they form a cylindrical nebulized body, with a continuous, preferably centrally arranged bore, as known, for example, from DE 102 49 920 A1.

When assembling this smoke body, it may now happen that one or more of the smoke body are installed with its bottom up in the floor. Because the pyrotechnic active mass may be sensitive to shock loads, there is the possibility here that a mist body built in upside down can suddenly react abruptly during firing or explode.

In order to avoid such a scenario, therefore, visual inspections are carried out during assembly, which are carried out by an employee or else by optical devices and X-ray inspection.

The aforementioned controls, however, have the safety factor that they can not completely avoid incorrect assembly.

Here, the invention has the object to show a device with the mounting errors in the assembly of the projectiles are avoided.

The object is achieved by the features of claim 1. Advantageous embodiments are contained in the subclaims.

The invention is based on the idea to ensure by constructive measures on the smoke body that they can not be installed the wrong way round in the floor. For this purpose, the fog bodies are primarily designed so that they are due to their dimensions only in a concrete location can be installed in the floor. With one or more incorrectly installed fog bodies, it is no longer possible after the introduction of the fog body in the projectile casing to mount the floor, a final assembly is not feasible. The error is discovered directly and can be corrected.

In principle, it is provided that the smoke bodies mesh with one another during stacking, ie the upper side of a smoke body has an integration cooperating with a lower side of the other smoke body. This can for example be a hole, a groove, a hole, etc. in the top of the other fog body or mist pot or vice versa in a pin or survey on the bottom of a fog body or mist pot. Interlocking devices are also possible, that is to say have a correspondingly shaped cover, in particular in the absence of a support tube, for example. Alternatively, a paragraph on the fog head, etc. are involved, which engages the counterpart during assembly in a groove or recess. Taking into account the manufacturing tolerances as well as the use of deformable elements in the floor, such as O-rings, the design changes are to be chosen so that even if only one fog body of the floor can not be mounted in case of false appearance.

The advantage of these structural adjustments u. a. The fact that they do not cause any weakening of the material or unfavorable forms for the flow of force, the permissible load of the fog body or mist pot is not reduced thereby.

Based on a very simplified illustrated embodiment with drawing so !! the invention will be explained in more detail.

It shows:

1 is a structurally modified fog body,

2a, b is a comparison of a correct against a false installation,

Fig. 3 is a projectile with the fog bodies.

Fig. 1 shows a smoke body 1, which has a bore 2 for the implementation of a support tube 3 in this embodiment. The support tube 3 or a part of a lid 4 projects centrally above the top 5 of the nebulizer body 1 at a distance L1. The diameter D1 of this survey can be varied according to an optimal construction, wherein also a diameter D1 is conceivable, which is almost equal to the total diameter of the fog body 1.

Accordingly, the support tube 3 is shorter or a pocket 7 in the bottom 8 of the fog body 1 integrated on the bottom 6. The diameter D2 and the height L2 of this pocket 7 should be at least as large as their equivalents L1 and D2 (L2> L2; D2> D1). However, the diameters D1, D2 are to be chosen such that an interference fit between the two is excluded and that they are adapted to the other components of a projectile 10 (FIG. 3), for example with an ejection plate 13 which is located on the uppermost mist body 1 ,

Alternatively, the construction of the survey in the bottom 6 and the pocket 7 are introduced into the top 5. A correct installation of the smoke body 1 in a projectile 10 not shown here is shown in Fig. 2a, the wrong installation in Fig. 2b.

Fig. 3 shows the projectile 10 with several nebulosity 1. All projectile components that determine how long the interior of the projectile 10, in particular the area in which the nebulas 1 are introduced, are provided with predetermined tolerances, so that for the total length the interior 11 is to assume a tolerance of a few millimeters. Therefore, the heights L1 and L2 are to be selected so that in case of unfavorable manufacturing tolerances in case of false building even a single smoke body 1, the bottom 12 of the projectile 10 can not be mounted.

Claims

1. A device for avoiding assembly errors in the assembly of a projectile (10), in particular at nacelles, consisting of various components and nebulized bodies (1), characterized in that each nebulized body (1) is constructed so that it due to its dimensions only in one concrete position in the projectile (10) can be installed, wherein it is no longer possible to mount the floor (12) in one or more wrongly incorporated fog bodies (1) in the projectile (10). 2. Device according to claim 1, characterized in that the mist body (1) engage in successive stacking, wherein the upper side (5) of a fog body (1) with the lower side (6) of another fog body (1) cooperating integration (3, 4, 7). 3. Device according to claim 2, characterized in that the integration (3, 4, 7) a pin or a survey on the bottom (6) of the one mist body (1) has a hole, a groove, a bore, etc. in the top (5) of the other fog body (1) or vice versa. 4. Device according to claim 1, characterized in that a positive engagement is provided, wherein the mist body (1) have correspondingly shaped lid. 5. A device according to claim 1, characterized in that a paragraph on the fog body edge, etc. may be involved, which engages the other fog body (1) during assembly into a groove or recess in the edge. 6. Device according to one of claims 1 to 5, characterized in that the height (L1, L2) of the integrations (3, 4, 7) and the diameter (D1, D2) are chosen so that at unfavorable manufacturing tolerances in a false structure also only one mist body (1) the bottom (12) of the projectile (10) can not be mounted.