EP1712874A1 - Safety for a weapon feed system - Google Patents

Abstract

A safety mechanism for the firing pin (12) of a weapon, while ammunition (14) is being fed into the breech, has a number of safety bolts (30) distributed around it with radial movement through the lower section (22) of the ammunition. A spring unit (60) in a beating weight (40) holds them firmly axially. When the ammunition is rammed home into a ring groove (18), the spring force is overcome to clear the firing pin path to strike the primer at the base of the ammunition.

Description

The invention relates to a safety device according to the preamble of claim 1, i. a supply and Ansetzsicherungseinrichtung for a weapon supply system.

It is known to protect ammunition against damage caused by transverse and longitudinal accelerations, for example, by a centrifugal bolt and a stop. In such known safety devices, the absolute amounts of the transverse and longitudinal accelerations, up to which damage can be avoided limited.

The invention is therefore based on the object to provide a safety device of the type mentioned, with the damage to be avoided even at higher transverse and longitudinal accelerations.

This object is achieved according to the invention in a safety device of the type mentioned by the features of the characterizing part of claim 1. Preferred embodiments and further developments of the safety device according to the invention are characterized in the subclaims.

The safety device according to the invention is relatively simple and resists comparatively high transverse and longitudinal accelerations, without causing damage.

Further details, features and advantages will become apparent from the following description of a portion of the drawing in section in an embodiment shown embodiment of the securing device according to the invention.

Figur 1

die Sicherungseinrichtung in ihrer Sicherstellung,

Figur 2

einen Querschnitt durch die Sicherungseinrichtung gemäß Figur 1, und

Figur 3

eine der Figur 1 ähnliche Längsschnittdarstellung der Sicherungseinrichtung in ihrer Entsicherungsstellung.

Show it:

FIG. 1

the safety device in its safety,

FIG. 2

a cross section through the securing device according to Figure 1, and

FIG. 3

a similar to Figure 1 longitudinal sectional view of the securing device in its armed position.

Figure 1 shows an embodiment of the safety device 10 for a, a firing pin 12 having ammunition 14, which has a housing 16. The housing 16 of the ammunition 14 is formed with a concentric with the firing pin 12 annular groove 18.

At the circumferential annular groove 18 includes at the rear a recess 20, in which a Munitionsunterteil 22 is provided. The ammunition base 22 has a bottom 24 and an annular collar 26 which protrudes materialeinstückig from the bottom 24. The annular collar 26 is formed with radially oriented through holes 28 through which securing bolts 30 extend. In the illustrated embodiment, the securing device 10 is formed with two diametrically opposite securing bolts 30. Each of the securing bolts 30 has a head part 32 and a locking shaft 34. The transition between the head part 32 and the associated locking shaft 34 is formed as an annular contact surface 36 with which the respective securing bolt 30 rests in the drawn in Figure 1 securing the securing device 10 on the outer surface 38 of the annular collar 26 of the ammunition lower part 22.

The firing pin 12 is combined with a striking weight 40 having a bottom 42 and a collar 44 which is concentric with the firing pin 12. The collar 44 is in the assurance of the securing device 10 with its annular end face 46 on the locking shank 34 of the respective securing bolt 30 at.

In addition, in securing the securing device 10, the impact weight 40 rests with its bottom 42 against an annular abutment surface 48, which is formed on the inner end face of the bottom 24 of the ammunition lower part 22.

Between the impact weight 40 and an ammunition part 50 of the ammunition 14, a helical compression spring 52 is clamped. Another helical compression spring 54 is clamped between the bottom 42 of the impact weight 40 and an annular flange 56 of the firing needle 12.

The ammunition base 22 is positively connected to the ammunition part 50. This positive connection is realized by a flanged edge 58 of the annular collar 26 of the ammunition lower part 22.

The securing bolts 30 are held by means of a spring device 60 in which the impact weight 40 axially immovably adhering to securing. The spring device 60 is formed by an annular spring 62, which has a number of closely adjacent ring coils.

The head portion 32 of each securing bolt 30 is formed with a transverse hole 64 through which the annular spring 62 extends therethrough. The securing bolts 30 are thus threaded onto the annular spring 62 quasi.

The respective securing bolt 30 is formed with an axial blind hole 66, which extends from the head part 32 into the locking shaft 34 of the respective securing bolt 30.

In the securing of the securing device 10 shown in FIG. 1, the securing bolts 30 fix the impact weight 40 in its starting position. When transverse forces, such as occur in a drop test, the corresponding securing bolt 30 can move in the radial direction to the outside, when the forces acting from outside the spring force of the mechanically biased spring device 60. The securing bolt 30 can then rest briefly in the annular groove 18. Immediately after the externally acting forces, however, are again smaller than the spring force of the spring means 60, the Locking bolt 30 is reset by the spring means 60 back into the drawn in Figure 1 starting position. That is, the securing bolts 30 go back into the initial position shown in Figure 1 due to the leadership in the ammunition lower part 22.

Figure 2 illustrates the symmetrical design of the securing device, wherein the same details in Figure 2 are designated by the same reference numerals as in Figure 1, so that it is unnecessary to describe in connection with Figure 2 all these details again in detail. FIG. 2 illustrates, in particular, the diametrically opposite arrangement of the two securing bolts 30 and the spring device 60 embodied as an annular spring 62, which extends through the head parts 32 of the securing bolts 30.

Figure 3 shows the securing device 10 in a similar to Figure 1 sectional longitudinal view in the unlocked position, the triggered safety pins 30 move as a result of acting on them centrifugal forces in the swirl-induced by a gun barrel fast rotation of the ammunition 14 radially outward, the Spring force of the spring device 60 is overcome. In this case, the axial path for the impact weight 40 is released, so that then at a target impact of the ammunition 14, the firing pin 12 in a (not shown) detonator of the ammunition 14 beats. The said centrifugal forces are available until the safety device 10 has completely completed its safety function.

The same details are designated in FIG. 3 by the same reference numerals as in FIG. 1, so that it is not necessary to describe all these details in detail again in connection with FIG.

List of reference numerals:

10

Safety device (of 14)

12

Firing pin (from 14)

14

ammunition

16

Housing (from 14)

44

Ring groove (in 16)

20

Recess (for 22)

22

Ammunition base (in 16)

24

Ground (from 22)

26

Ringbund (from 22)

28

Through holes (in FIG. 26)

30

Securing bolt (from 10 to 40)

32

Headboard (from 30)

34

Locking shaft (from 30)

36

Investment area (between 32 and 34)

38

Outer surface (of 26)

40

Beat weight (for 12)

42

Ground (from 40)

44

Bunch (from 40)

46

annular face (from 44)

48

annular contact surface (from 24)

50

Ammunition part (from 14)

52

Helical compression spring (between 40 and 50)

54

Helical compression spring (between 40 and 56)

56

Ring flange (from 12)

58

Beading edge (from 26)

60

Spring device (for 30)

62

Ring spring (from 60)

64

Cross hole (in 32)

66

Blind hole (in 30)

Claims (10)

Securing device for ammunition (14) having a firing pin (40) combined with a firing pin (12) and intended to protect against damage at high transverse and longitudinal accelerations occurring when feeding the ammunition (14) into a weapon barrel;
characterized,
in that a number of securing bolts (30) are distributed around the firing pin (12) in the circumferential direction and are guided radially movably by an ammunition lower part (22) of the ammunition (14), which by means of a spring device (60) has the impact weight ( 40) are held axially secure holding, and the passage through the barrel due to the swirling, the spring force of the spring means (60) overcoming, in an ammunition housing (16) formed annular groove (18) come to rest and an axial stroke for the impact weight (40 ), so that at a target impact of the ammunition (14) the firing pin (12) strikes in a detonator of the ammunition (14). Safety device according to claim 1,
characterized,
in that the firing needle (12) in the ammunition lower part (22) is assigned two diametrically opposite securing bolts (30). Safety device according to claim 1,
characterized,
that the impact weight (40) in the securing between the ammunition lower part (22) and the securing bolt (30) is arranged axially and radially backlash-free. Safety device according to claim 1,
characterized,
in that the spring device (60) is formed by an annular spring (62) which encloses the securing bolts (30). Safety device according to claim 1,
characterized,
in that the ammunition lower part (22) is cup-shaped with a bottom (24) and an annular collar (26) protruding from the bottom (24), the annular collar (26) having radially oriented through holes (28) through which the securing bolts (30) therethrough. Safety device according to claim 5,
characterized,
in that each securing bolt (30) has a locking shaft (34) and a head part (32), wherein the head part (32) has a bearing surface (36) with which it rests in the securing on the outer surface (38) of the ammunition lower part (22) , And the locking shaft (34) in the securing through the corresponding through hole (28) in the annular collar (26) of the ammunition lower part (22) extends through and on which the end face (46) of the annular collar (44) of the impact weight (40) in the Assurance is present. Safety device according to claims 4 and 6,
characterized,
in that the head part (32) of the respective securing bolt (30) is formed with a transverse hole (64) through which the annular spring (62) extends. Safety device according to claim 6,
characterized,
in that the respective securing bolt (30) is formed with an axial blind hole (66) which extends from the head part (32) into the locking shaft (34). Safety device according to claim 1,
characterized,
that in the ammunition housing (16) formed annular groove (18) has a radial depth which is smaller than the axial dimension of the respective securing bolt (30). Safety device according to claim 6 or 9,
characterized,
that the respective securing bolt (30) has an axial dimension which is slightly smaller than the sum of the depth of the annular groove (18) and the radial wall thickness of the annular collar (26) of the ammunition lower part (22).

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