DE1107131B - Pressure switch for a land mine - Google Patents

Description

GERMAN

The invention relates to a pressure detonator for a land mine having one of at least two telescopically nested parts existing housing, the housing parts with a Limit the air or gas-filled space in which to ignite by compressing the mine, an increase in pressure is brought about, which triggers the percussion piston.

Land mines are known in which a pressure chamber filled with air or gas is provided. By an increase in pressure in this space triggers the percussion piston. The percussion piston is on one these constructions designed and supported that as a result of the increased pressure in the pressure chamber of the Ignition needle facing away from the piston part is first separated. Only then will the upper one, with the ignition pin equipped part of the piston released for movement. The speed of the percussion piston is essentially constant over its entire stroke.

In another known embodiment, special brackets are provided around the percussion piston to be determined. Only after removing this bracket is the piston released for movement.

It has also been proposed to provide a membrane in a land mine lighter that can be moved by hydraulic fluid. This membrane actuates the head of the detonator.

The invention is based on the object of developing a pressure igniter for a land mine which is the stroke of the percussion piston as the ignition needle connected to the percussion piston approaches the squib is accelerated to achieve proper ignition.

To solve this problem, a pressure igniter of the type mentioned above is proposed, which is thereby characterized in that the boundary surface of the percussion piston which is adjacent to the pressure chamber in such a way is set off and guided like a percussion piston that the pressure chamber initially exclusively during the piston stroke the one sub-area and only then additionally exposed the other sub-area of the percussion piston is.

Further details of the invention emerge from the description of an advantageous, for example Embodiment based on the sectional drawings in which

Fig. 1 is a picture of the secured and

Fig. 2 is a picture of the unlocked or armed mine just prior to ignition.

The mine has a cylinder 1 that is open at the top and another one that can be displaced in this piston-like manner Cylinder 2, which is closed by a base 3. A tube 4 of slightly less height than the total height of the cylinder 2 is at its bottom after

Applicant:
Societa Minelba sr L, Milan (Italy)

Representative:

Dipl.-Ing. F. Thieleke, patent attorney,
Braunschweig, Wendentorwall 1 a

Claimed priority:
Switzerland from 16 '. November 1956

Constante Domenichetti, Milan (Italy),
has been named as the inventor

fixed on the inside protruding, preferably in the middle, albeit at a different attachment point would be conceivable. A short pipe socket 7 is welded to the edge of a hole in the bottom 3, which extends coaxially with the tube 4 also inside the cylinder 2 upwards. A Percussion piston 5, which is guided in airtight manner in tube 4, serves as a carrier for ignition needle 12; opposite to the attachment point for the ignition needle, the percussion piston 5 shows a bore on its "underside" 6 with a diameter equal to the outer diameter of the short pipe socket 7; so can the percussion piston 5 with a fine fit that is sufficient to create an airtight connection, move on the pipe socket 7.

The filling with explosive 11 and a squib 14 on which the detonator 12 must strike in order to triggering the explosion - as will be explained in detail below - are also inside the Cylinder 2 housed.

When the parts 1 and 2, 3 are axially approached in the mine, an increasing air pressure builds up in the space 9 between the bottom of the outer cylinder 1 and the bottom 3 of the inner cylinder 2. This acts on the circular bottom surface of the bore 6 of the percussion piston 5 in the pipe socket 7 and pushes the piston relatively upwards. Due to the tight fits between the

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Outer surface of the pipe socket 7 and the inner wall of the bore 6 and between the outer surface of the percussion piston 5 and the inner wall of the guide tube 4, which essentially allow air to pass through exclude, causes the upward movement of the percussion piston 5 in the annular space between the Underside 10 of the piston 5 and the bottom 3 of the outer cylinder 2 a negative pressure, while the Area 6 is under the effect of the increasing air pressure built up in space 9.

Until the inner cylinder 2 is pressed down, ie when the parts are in the rest position, the atmospheric pressure P ₀ prevails both in the air chamber 9 and above the percussion piston 5 in the guide tube 4; _{then when the inner cylinder 2 is pressed down,} the pressure in the air chamber 9 gradually increases to a maximum value Ρ ψαχ. If S denotes the inner cross-section of the guide tube 4, which is the same as the top of the percussion piston 5, and ^ the circular bottom surface of the bore 6, then the force acting on the percussion piston from above is constant S · P ₀ , while from below the gradually increasing force P _x ■ s begins to lift the percussion piston as soon as it becomes greater than the force S · P ₀ acting from above plus the frictional resistance to which the percussion piston is exposed on the inner wall of the guide tube 4 and on the outer wall of the pipe socket 7. If the small volume inside the pipe socket 7 is neglected, the pressure P _x in the air chamber 9 and below the circular area in the bore 6 increases approximately linearly with decreasing height of the air cushion 9 until it reaches its maximum value P _max at the moment when the underside of the percussion piston 5 is just level with the upper edge of the pipe socket 7. At this moment the maximum pressure P _max suddenly acts on the large circular area S, and the percussion piston 5 for a moment comes under the resulting effect of the forces P _max · S from below and P ₀ · S (plus frictional resistances) from above. As a result, the piston 5 is suddenly thrown upwards with great acceleration, as a result of which the firing needle 12 sitting on it strikes the firing pill 14 and ignites the mine.

The sudden rush of the percussion piston can be compared to the effect of a tension or compression spring, which is held until its change in length by the increasing external force a predetermined Has reached its value, whereupon it is suddenly released. Compared to such a mechanical one The device according to the invention with its pneumatic tensioning mechanism has the advantage of tensioning mechanism greater simplicity and less mass.

The interior of the cylinder 2 with the exception of the space occupied by the guide tube 4 is only partially filled with explosive, so that there is sufficient space for the piston 5 displaced Air remains.

The mine described can also be equipped with a fuse; this is in the example in a locking slide 13 to which the squib 14 is attached. In the secured position (Fig. 1) is this slide 13 a little out of the side wall of the cylinder 2, so that it is driving the inner cylinder 2 prevented in the outer cylinder 1, and at the same time the squib 14 is out of course Ignition needle 12 held out. To make the mine sharp, it is sufficient to move the safety slide 13 to press inside (Fig. 2); this brings the squib 14 into the path of the firing needle 12, and at the same time the mutual locking of cylinders 1 and 2 is released so that they drive into each other permit.

Apart from being secured by the locking slide 13th, there is another safeguard of the mine against premature triggering, e.g. B. by falling from a great height, in the force difference on the percussion piston, which results from the difference between the areas 6 * and s at the same (atmospheric) pressure on both sides:

ίο should once, for example as a result of an unfortunate In the event of a fall, the percussion piston tends to move into the guide tube 4 due to its inertia to move relatively upwards, a strong negative pressure arises in the annular space around the pipe socket 7, which pushes the piston back against the bottom 3 of the inner cylinder 2.

Since in this way the percussion piston 5 is always brought back to the bottom 3 of the inner cylinder 2 will, so are at the start of functioning

ao the mine at all times the same starting conditions given.

From the above it is apparent that the mine construction according to the invention only can then be caused to ignite if sufficient axial pressure is exerted on them while on the other hand a pressure in another direction and even a pressure in the axial direction, but from insufficient strength has no effect at all. This apparently gives a remarkable advantage, because you can handle mines of the construction described much safer and because they are even from large Height can fall without the risk of an untimely explosion.

Claims (4)

Patent claims: 1. Pressure igniter for a land mine with one of at least two telescopically slidable one into the other Parts of existing housing, the housing parts being filled with air or gas Limit space in which to ignite by pressing the mine together an increase in pressure is brought about, which triggers the percussion piston, characterized in that the pressure chamber (9) adjacent boundary surface (6, 10) of the percussion piston (5) so offset and the Percussion piston is guided in such a way that the pressure chamber (9) initially exclusively during the piston stroke one sub-area (6) and only then additionally the other sub-area (10) of the percussion piston (5) is exposed. 2. igniter according to claim 1, characterized in that the percussion piston (5) inside on one with the pressure chamber connected pipe socket (7) and outside in a pipe (4) is closely guided. 3. Igniter according to claim 2, characterized in that the connecting piece (7) has a central opening the bottom (3) of the upper inner cylinder (2) that holds the primer and the primer cap (14) encompasses, with the connector (7) and guide tube (4) attached to the bottom (3) of the inner cylinder (2) are. 4. igniter according to one of claims 1 to 3, characterized in that the detonator (14) a locking slide (13) is attached, which is slidably guided above inside the inner cylinder (2) is such that it protrudes laterally therefrom in the secured position (Fig. 1), wherein it is a telescoping of the two housing parts (1, 2) and the primer (14) keeps out of the path of the ignition needle (12). Documents considered: French patent specifications no. 1 057 637, 630; Belgian Patent No. 521 822; British Patent No. 541,624; U.S. Patent Nos. 2,678,604, 2,693,147. Older patents considered: German Patent No. 1,054,351. 1 sheet of drawings