DE102016008391B4 - bullet - Google Patents

Abstract

Projectile (1) comprising a projectile casing (3) surrounding a charge (2), the projectile casing (3) having two sections (4, 5) each having a connection region (6, 7), by means of which connection regions (6, 7) two portions (4, 5) are connectable or connected to each other, wherein the charge (2) comprises at least two axially successively arranged partial charges (8, 9) and in each section at least a partial charge (8, 9) is received, wherein between the at least two partial charges (8, 9) at least one compensating element (10, 13, 14, 16 to 19, 20 to 26) for generating a biasing force in the assembled state on the two part charges (8, 9) is arranged so that they at least partially in contact stand with the projectile casing (3), characterized in that at least a partial charge (8, 9) a cover plate (11, 12) is arranged, which faces the respective other portion (4, 5).

Description

The invention relates to a projectile comprising a projectile surrounding a charge projectile shell according to the preamble of claim 1. Such a projectile is known from US 2004/0 031 380 A1 known.

In the case of ammunition, in particular explosive ammunition, it is known from the prior art to provide insensitive properties of the charge, that is to say the explosive charge. The ammunition must not be unintentionally detonated, for example during shelling or when exposed to fire. For this purpose, it is also known that one-piece bullet casings are used, which must be filled via a comparison with the bullet diameter relatively small mouth opening with the explosive charge. The use of pressable explosives is only very limited or not possible.

Compared to pressable explosives, conventional explosives, such as castable explosives, are less efficient and have significantly poorer mechanical properties, e.g. B. a higher thermal expansion coefficient. When used at low temperatures, this can lead to problems, so that the charges can not sufficiently withstand the launching loads and the axial accelerations and swirl transmissions occurring thereby. It is possible that due to the different thermal expansion coefficient of the charge and the projectile casing a detachment of the charge from the projectile casing occurs, so that inertial forces and relative movements between projectile casing and charge can occur, which lead to an unwanted detonation.

The invention is therefore based on the object to provide a bullet, which is improved in contrast.

To solve this problem is provided according to the invention in a projectile of the type mentioned that the projectile casing has two sections each having a connecting portion, by means of which connecting portions, the two sections are connected or connected to each other, wherein the charge comprises at least two axially successively arranged partial charges and in at least one partial charge is received in each section, wherein between the two partial charges at least one compensation element for generating a biasing force in the assembled state is arranged on the two partial charges, so that they are at least partially in contact with the projectile casing. At least a partial charge, a cover plate is arranged, which faces the respective other portion.

According to the invention it is thus provided that the projectile casing is formed in two parts, wherein the two sections are connected to each other by means of their connection areas or connected, so can be connected to each other. The charge, ie the explosive charge within the projectile casing of the projectile, is distributed over the two sections, so that it comprises at least two partial charges, each section being assigned at least one partial charge or at least a partial charge being accommodated in each of the sections. This greatly facilitates the introduction of the load into the projectile casing, since these do not have to be filled through a relatively small mouth opening, as is conventional in the prior art, but can be introduced into the respective section of the projectile casing over approximately the entire projectile diameter, after which the two Sections are interconnected. In other words, the individual partial charges comprising the load can be separately introduced into the corresponding section. Then the sections can be connected to each other. Thus, in the mounted state, the projectile has at least two partial charges arranged axially one behind the other, that is, at least one partial charge per section.

In the projectile according to the invention it is further provided that between the at least two partial charges at least one compensation element for generating an axial biasing force in the assembled state is arranged on the two partial charges. As a result, the resulting differences in manufacturing tolerances between the partial charges, which can not be joined together without a gap, compensate. This gap must be balanced so that the partial charges can be supported on each other, for example, the front cargo part on the rear. The compensating element, of which several can of course also be provided, further causes a biasing force on the two charge parts, so that they are biased in the mounted state against the projectile casing. This can prevent that it comes with changes in temperature, especially at low temperatures, to wall detachments or cracks in the explosive charge, so that they could be implemented unintentionally when shooting or when handling the projectile, since the charge or the partial charges in itself and is supported against the projectile casing, so that no gaps can form, through which a relative movement between projectile casing and cargo can arise.

Thus, the invention provides that the two sections are filled separately with the corresponding partial charges and then connected to each other by means of the connecting portions. One or more compensation elements are arranged between the partial charges, so that when connecting the two sections, the compensating element (s) generates a biasing force that biases the partial charges against the projectile casing.

In the projectile according to the invention, it is preferably provided that the compensating element or elements consist of or comprise an elastic material, in particular an elastomer. The compensating element, which is made of an elastic material deforms when connecting the two sections under construction of a restoring force, which is used to bias the at least two partial charges against the projectile casing.

Alternatively, the or the compensating elements, regardless of which geometry they have, be particularly preferably made of a viscoelastic material. Such a compensating element exhibits an elastic behavior, so that it builds up the restoring or biasing force in the required manner for bracing the partial charges. However, if the bullet is fired, the compensating element shows a quasi inelastic or hard behavior during the launching shock, so it does not compress so that the partial charges remain in position.

A development of the projectile according to the invention provides that the compensation element consists of a material whose thermal expansion coefficient deviates from that of the charge. Thus, the compensating element and the charge can be prevented from expanding or shrinking to the same extent with temperature changes. Particularly preferably, it is provided that the compensation element has a lower coefficient of thermal expansion than the charge, so that the charge is subject to greater thermal expansion when the temperature changes, as the compensation element. As a result, it can be ensured that if the charge changes in temperature due to its spatial extent, the biasing force can be maintained, so that the charge is supported against the projectile casing under a defined biasing force.

A further preferred embodiment of the projectile according to the invention can provide that at least one compensating element is formed annularly with a circular or rectangular cross-section and / or a compensating element disc-shaped or plate-shaped and / or a compensating element strip-shaped with a circular or rectangular cross-section. Accordingly, the compensation element can ultimately assume any cross-sectional shape and spatial arrangement, as long as it can be introduced between the two partial charges such that in the mounted state, a defined biasing force is exerted on the partial charges. Of course, any combinations of several compensation elements are possible.

According to the invention, it is provided in the projectile that at least one partial charge a cover plate is arranged, which faces the respective other portion. Such a cover plate is thus provided on at least a partial charge of a portion which faces the connection region. The cover plate is facing the respective other section or the partial charge of the other section. The at least one cover plate covers the charge of the portion to which it is associated to the outside. Of course, it is ensured that the compensating element can exert a biasing force on the charge covered by the cover plate or partial charge.

A particularly preferred development of the projectile according to the invention consists in that the at least one compensating element is arranged on at least one holding element. The retaining element causes the compensating element to be supported and centered. Thereby, it is particularly advantageous possible that a symmetrical and defined supporting force can be effected on the two partial charges by the compensation element. Furthermore, it can be done that, in particular if several compensation elements are used, they are arranged on the holding element and thus occupy defined positions when introduced into the projectile casing. Furthermore, the assembly process is simplified because, if the plurality of compensation elements are arranged on a holding element, they can be introduced together with the holding element in the space between the partial charges. It is also possible that the at least one compensation element is arranged on two holding elements, which surround this in the form of a "sandwich structure". Thus, between the two axially adjacent partial charges, between which the compensation element is to be introduced, first a respective holding element is arranged, between which the compensation element is provided.

The holding element of the projectile according to the invention is preferably made of plastic or metal. Furthermore, it is preferably provided that the one or more compensating elements are arranged by gluing or vulcanization on the holding element or that or the compensating element and the holding element are formed as a two-component plastic part.

The holding element is preferably disc-shaped or plate-shaped, so that it can ensure the best possible support and positioning and centerability of at least one compensating element. It is particularly preferred that the at least one retaining element has at least one of the partial charges facing recess in which the compensation element is arranged at least in sections. The recess preferably has at least sections a cross-section such that the compensating element can be partially accommodated. As a result, the centering or the position of the compensating element is predetermined on the retaining element. The positioning in the radial direction is thereby considerably facilitated, since the compensation element is received in the recess provided on the retaining element. Of course, it is also possible that the compensating element is arranged between two holding elements, wherein each holding element has a recess for the compensating element.

The projectile according to the invention can also be further developed in that the connecting regions are designed as mutually complementary threads. This advantageously offers the possibility that the two sections, after they have been provided with the partial charges, can be screwed together. In this case, the front portion in the direction of movement of the projectile has a connecting region designed as an internal thread and the portion of the projectile which is in the direction of movement can have a connecting region which is designed as an external thread. Of course, this assignment is reversible.

Furthermore, the formation of the threaded connection regions offers the advantage that the compensation element can be prestressed in a defined manner, since this is elastically deformed by screwing the thread so that the prestressing force results on the two adjacent partial charges.

In addition, it is preferably provided in the projectile according to the invention that the connecting regions form a predetermined breaking point of the projectile. Accordingly, in addition to connecting the two sections, the connecting areas serve the purpose of allowing the projectile to break in a defined manner at the connection area and thus having a predetermined breaking point substantially between the two sections.

Particularly preferred in the projectile according to the invention is provided that at least a partial charge is pressed into a section. Thus, compressible charges can be used which, on the one hand, are more efficient and have better mechanical properties than conventional charges, on the other hand this improves the manufacturing process, since it is not necessary, as is usual in the prior art, to use the projectile or projectile to fill the projectile casing with the cargo through a relatively small mouth opening. Instead, the sections can be filled separately with the charge, in particular, the charge can be pressed into this.

• 1 eine Querschnittsdarstellung eines erfindungsgemäßen Geschosses in unmontiertem Zustand;
• 2 die Querschnittdarstellung von 1 in montiertem Zustand;
• 3 ein Detail der Querschnittsdarstellung von 1 in teilweise montiertem Zustand;
• 4 das Detail von 3 in montiertem Zustand;
• 5 ein Detail der Querschnittsdarstellung von 1 in teilweise montiertem Zustand;
• 6 das Detail von 5 in montiertem Zustand;
• 7 ein erfindungsgemäßes Ausgleichselement an einem Halteelement;
• 8 die Darstellung von 7 in perspektivische Darstellung;
• 9 ein erfindungsgemäßes Ausgleichselement gemäß einem zweiten Ausführungsbeispiel;
• 10 ein erfindungsgemäßes Ausgleichselement gemäß einem dritten Ausführungsbeispiel; und
• 11 ein erfindungsgemäßes Ausgleichselement gemäß einem vierten Ausführungsbeispiel.

The invention will be explained below with reference to embodiments with reference to the drawings. The drawings are schematic representations and show:

• 1 a cross-sectional view of a projectile according to the invention in unassembled state;
• 2 the cross-sectional view of 1 in assembled condition;
• 3 a detail of the cross-sectional representation of 1 in partially assembled condition;
• 4 the detail of 3 in assembled condition;
• 5 a detail of the cross-sectional representation of 1 in partially assembled condition;
• 6 the detail of 5 in assembled condition;
• 7 an inventive compensation element on a holding element;
• 8th the representation of 7 in perspective view;
• 9 an inventive compensation element according to a second embodiment;
• 10 an inventive compensation element according to a third embodiment; and
• 11 an inventive compensation element according to a fourth embodiment.

1 shows a cross-sectional view of a projectile according to the invention 1 in unassembled condition. The projectile 1 includes a one charge 2 surrounding projectile shell 3 , The projectile shell 3 has two sections 4 . 5 on, each one connecting area 6 . 7 exhibit. By means of the connection areas 6 . 7 are the two sections 4 . 5 connectable to each other, which will be discussed below. The charge 2 includes two partial loads 8th . 9 which are arranged axially one behind the other viewed in the direction of movement of the projectile. Each of the two partial loads 8th . 9 is in a section 4 . 5 added. The partial charge 8th is in the section 4 and the partial charge 9 in the section 5 added.

1 shows essentially an exploded view of the unmounted projectile 1 , Between the two sections 4 . 5 is a compensation element 10 arranged. This is between the two cover plates 11 . 12 arranged the partial charges 8th . 9 in the sections 4 . 5 to back up.

2 shows the assembled state of the projectile 1 from 1 , You can see the two sections 4 . 5 over the connection areas 6 . 7 connected with each other. The connection areas 6 . 7 are formed as a thread, wherein the connection area 7 as internal thread and the connection area 6 is designed as an external thread. By screwing the two connection areas 6 . 7 together, the compensation element 10 under the construction of a restoring force elastically deformed, so compressed, so that this on the partial charges 8th . 9 a biasing force that exerts the partial loads 8th . 9 against the projectile shell 3 biases. Of course, the cover plates 11 . 12 In this case designed such that the force of the compensation element 10 is generated at the partial charge 8th . 9 can be passed on.

3 shows a detail of the projectile 1 from 1 during assembly. You can see the two sections 4 . 5 of the projectile 1 partially interconnected, with the connection areas 6 . 7 partially screwed on. The compensation element 10 , which is formed in this example as an elastic disc is not yet deformed. By further screwing on the section 5 on the section 4 or the connection area 6 . 7 The compensation element 10 is deformed with each other, whereby an elastic restoring force is built up, which biases the partial charge 8, 9.

4 shows the representation of 3 in assembled condition. The compensation element is visible 10 has been deformed by the assembly process, so that adjusts the elastic restoring force. The two sections 4 . 5 are about the connection areas 6 . 7 completely screwed together. Advantageously, by the compensation element 10 ensured that the partial charges 8th . 9 not from the projectile shell 3 can detach, leaving no gap between the partial charges 8th . 9 and the projectile shell 3 arises. Obviously, the prestressing force also prevents, if a crack in one of the partial loads 8th . 9 arises, this can lead to a gap.

5 shows one too 3 similar representation, with two compensation elements 13 , 14 between the partial loads 8th . 9 are provided. The compensation elements 13 . 14 are not like the compensation element 10 as an elastic disc, but designed as elastic rings. The compensation element 13 has a smaller diameter than the compensation element 14 , In 5 are the compensation elements 13 . 14 still undeformed, as the two connecting areas 6 . 7 are not completely engaged or screwed on each other.

6 shows the representation of 5 in fully assembled state of the projectile 1 , The two connection areas became apparent 6 . 7 completely bolted together, leaving the balancing elements 13 . 14 were deformed. The deformation, as already described, creates the elastic preload force on the two partial charges 8th . 9 ,

7 shows the compensation element 10 attached to a retaining element 15 is arranged. The compensation element 10 is, as already described, formed as an elastic disc and with the holding element 15 connected, for example, vulcanized or glued. The holding element 15 is disc-shaped and made for example of metal or plastic. 8th shows a perspective view of the compensating element 10 and the retaining element 15 from 7 , By the arrangement of the compensation element 10 on the holding element 15 will ensure that the compensation element 15 in the floor 1 centered and can be positioned. In addition, it is ensured during assembly that the compensation element 10 on the holding element 15 is arranged captive.

9 shows compensation elements 16 to 19 attached to the retaining element 15 are arranged. The compensation element 16 is essentially disc-shaped and the balancing elements 17 to 19 designed as annular compensating elements with a rectangular cross-section. The compensation elements 16 to 19 are visible concentric to the center of the holding element 15 arranged. By the arrangement of the compensation elements 17 to 19 on the holding element 15 its relative position is fixed to each other and ensures that it is maintained. Furthermore, the retaining element fulfills 15 the task that the balancing elements 16 to 19 centered and positioned in the bullet 1 can be inserted and maintain their position during the assembly-related deformation.

10 shows compensation elements 20 to 22 , in turn, on the retaining element 15 are arranged. The compensation elements 20 to 22 are concentric with the center of the retaining element 15 arranged and are designed as annular compensation elements with annular cross-section.

11 shows compensation elements 23 to 26 , which are formed as annular compensation elements with annular cross-sections. These are between two retaining elements 27 . 28 , which are formed as circular discs arranged. The holding elements 27 . 28 have recesses 29 on that the balancing elements 23 to 26 partially record. This will cause the centering and positioning of the compensation elements 23 to 26 further improved. By the arrangement of the compensation elements 23 to 26 between the two holding elements 27 . 28 is a "sandwich structure" formed.

Of course, the individual embodiments of the compensation elements and the provision of one or more holding elements can be combined with each other, if this makes sense technically. As an alternative to the use of compensating elements made of elastic material, the compensating element (s) can also be made of a viscoelastic material.

LIST OF REFERENCE NUMBERS

1

bullet

2

charge

3

projectile casing

4

section

5

section

6

connecting area

7

connecting area

8th

partial charge

9

partial charge

10

compensation element

11

cover plate

12

cover plate

13

compensation element

14

compensation element

15

retaining element

16

compensation element

17

compensation element

18

compensation element

19

compensation element

20

compensation element

21

compensation element

22

compensation element

23

compensation element

24

compensation element

25

compensation element

26

compensation element

27

retaining element

28

retaining element

29

recess

Claims (12)

Projectile (1) comprising a projectile casing (3) surrounding a charge (2), the projectile casing (3) having two sections (4, 5) each having a connection region (6, 7), by means of which connection regions (6, 7) two portions (4, 5) are connectable or connected to each other, wherein the charge (2) at least two axially successively arranged partial charges (8, 9) and in each section at least a partial charge (8, 9) is received, wherein between the at least two partial charges (8, 9) at least one compensating element (10, 13, 14, 16 to 19, 20 to 26) for generating a biasing force in the assembled state on the two part charges (8, 9) is arranged so that they at least partially in contact stand with the projectile casing (3), characterized in that at least a partial charge (8, 9) a cover plate (11, 12) is arranged, which faces the respective other portion (4, 5). Bullet after Claim 1 , characterized in that the compensating element (10, 13, 14, 16 to 19, 20 to 26) consists of or comprises an elastic material, in particular an elastomer, or a viscoelastic material. Bullet after Claim 1 or 2 , characterized in that the compensation element (10, 13, 14, 16 to 19, 20 to 26) consists of a material whose thermal expansion coefficient differs from that of the charge (2). Projectile according to one of the preceding claims, characterized in that at least one compensating element (10, 13, 14, 16 to 19, 20 to 26) has a circular or circular cross-section and / or a compensating element (10, 13, 14, 16 to 19 , 20 to 26) disc-shaped or plate-shaped and / or a compensating element (10, 13, 14, 16 to 19, 20 to 26) is formed strip-shaped with a circular or rectangular cross-section. Projectile according to one of the preceding claims, characterized in that the at least one compensating element (10, 13, 14, 16 to 19, 20 to 26) is arranged on at least one holding element (15, 26, 27). Bullet after Claim 5 , characterized in that the holding element (15, 26, 27) made of plastic or metal. Bullet after Claim 5 or 6 , characterized in that the compensating element (10, 13, 14, 16 to 19, 20 to 26) by gluing or vulcanization on the holding element (15, 26, 27) is arranged or that the compensating element (10, 13, 14, 16 to 19, 20 to 26) and the holding element (15, 26, 27) are formed as a two-component plastic part. Bullet after one of the Claims 5 to 7 , characterized in that the holding element (15, 26, 27) is disc-shaped or plate-shaped. Bullet after one of the Claims 5 to 8th , characterized in that the holding element (15, 26, 27) at least one of the partial charges (8, 9) facing recess, in which the compensating element (10, 13, 14, 16 to 19, 20 to 26) arranged at least in sections is. Projectile according to one of the preceding claims, characterized in that the connecting regions (6, 7) are designed as mutually complementary threads. Bullet after Claim 10 , characterized in that the connecting regions (6, 7) form a predetermined breaking point of the projectile (1). Projectile according to one of the preceding claims, characterized in that at least a partial charge (8, 9) in a section (4, 5) is pressed.

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