DE102012014149B3 - Mechanically adjustable delay element - Google Patents

Abstract

It proposes a simple variable mechanical delay setting. The idea is aimed at achieving a simple setting of the delay time, for example with a slight twisting of two assembly parts (7, 8) in which the adjustable delay element (10) is integrated. The core of the idea is the retardation element (10), which consists of a tube (1) which has a thread (a) or the like over part of its length and is smooth over the remaining part (b). In this smooth, cylindrical part of the tube (1) is a narrow slot (c). In the pipe (1) itself is a through hole into which a chemical mixture is pressed as a delay set (3). Mounted on the tube (1) is a sleeve (2) which fits snugly over the cylindrical part (b) of the tube (1) at one end and has the matching thread of the tube (1) at the other end. By turning the two assembly parts (7, 8) of the slot (c) with the delay set (3) is increased or decreased (shortened). As a result, after the lighting of the delay set (3), the annealing time changes accordingly. The delay time is infinitely adjustable.

Description

The invention is concerned with a mechanically adjustable delay element in an ammunition, fired in particular by a mortar, a launcher or hand held weapons. This delay time is set in the delay element by hand and then inserted into the ammunition, for example screwed. This can be programmed individually and quickly on site depending on the use of ammunition this mechanically.

The ranges of mortar shells, missile projectiles with directional elevation angles, or hand held launchers, as with other weapon systems, are determined by the strength of the propellant charge and the elevation of the tube set. Warheads may be provided with a detonator when initiated by an impact. However, if the effect unfolds earlier than the impact, proximity sensors can also be integrated. Alternatively, such projectiles may for example be given an ignition or delay time, or the ignition time may be impressed after a measurement, etc. Such projectiles are expensive due to the electronics, the sensor technology as well as the software in the production.

The DE 36 39 201 C2 discloses a friction device for the temping process on bullet lunatesters. The projectile time fuze consists essentially of an upper detonator tip, which is screwed on, a rotatable middle part of the housing and a fixed housing lower part. The middle part of the housing is designed as a Tempierring. By turning the Tempierrings the detonator is tempiert.

The DE 34 34 100 A1 relates to a projectile fuse in which the transit time is set mechanically by appropriate rotation of a projectile nose.

From the DE 23 52 967 C3 An arrangement for adjusting the Zündverzugszeit is known. The Tempierscheibe the igniter is coupled to an actuator (stepper motor). After pressing the start button and reaching the preselected number of steps of the actuator, an ignition pulse is delivered to the propellant charge of the projectile.

The DE 977 759 B deals with a clock igniter with a rotating Tempierring.

The invention has as its object to show a more cost-effective ammunition especially for hand held (hand-fired ammunition) or directional throwers.

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

The invention is based on the idea to realize a simple variable delay mechanically. Here, the idea aims that a simple adjustment of the delay time, for example, with slight twisting of two parts to each other is possible. In addition, a simple guide scale is used as the measuring or reading device.

Core of the invention is a retardation element with a tube which has a thread or the like over a part of its length and the remaining part is smooth. In this smooth, cylindrical part of the tube is a narrow slot. The pipe itself has a through hole into which a chemical mixture is pressed in as a delay set. A sleeve is mounted over the tube, which fits snugly over the cylindrical part of the tube at one end and at the other end has the matching thread of the tube. By twisting the two parts of the slot with the delay set is increased or decreased (shortened). As a result, after the ignition of the delay set, the annealing time changes accordingly. The delay time is infinitely adjustable.

The simple setting of the delay time also on site allows a wide application of the same ammunition for different scenarios. In addition, an ammunition with low susceptibility to interference is realized. An ammunition or an active body is created with increased accuracy by changing the delay time of the delay element, comparable to a Zeitzünders. In addition, an already set delay time can be reset at any time. The adjustment mechanism not only allows setting a shorter delay time, but also (re) setting an extended delay time.

Reference to an embodiment with drawing, the invention will be explained in more detail.

It shows:

1 a first embodiment for the mechanical adjustment of a delay element,

2 a second embodiment for mechanical adjustment of a delay element,

1 and 2 show a delay element 10 consisting of a tube 1 , a sleeve 2 and a chemical sentence 3 as a delay set. The pipe 1 has on one side a thread a and on the other side a cylindrical, preferably smooth surface b. On the tube cylinder b is a slot c. In the pipe 1 There is a through hole in which the chemical mixture as a delay set 3 pressed or the like.

The left edge of the cover hole d of the sleeve 2 determined for this delay element 10 the delay time. By moving the sleeve 2 on the pipe 1 in the axial direction, the left edge of the cover hole d moves to the right, which releases the delay set 3 to the ignition charge 4 causes and causes a shortening of the delay time. In the illustrated embodiment according to the figures, the edge of the cover hole d is located at the extreme left edge of the tube 1 , which means the maximum possible delay time. If the right edge of the cover hole d is at the right end of the cylindrical surface b, the max. possible slot length c is reached and the minimum delay time is set.

The setting of the delay time in the delay element 10 takes place after 1 as follows: The delay element 10 is for example in a with 11 integrated assembly that can be incorporated into an ammunition or the like in a known manner. This consists of two mutually rotatable module parts 7 . 8th that have a connection 9 , For example, a screw, firmly connected to each other. - Alternative connections such as pins or the like are also possible. - By loosening the connection 9 become the two assembly parts 7 . 8th mutually rotatable. A pen 5 prevents twisting of the sleeve 2 opposite the module part 7 , That in the thread of the part 8th preferably glued thread a of the pipe 1 prevents their mutual twisting. - By turning the part 7 and part 8th to each other, the sleeve moves 2 via the thread a in the axial direction. This changes the delay time. With a measuring pin 6 can through a cutout e in the part 8th the set delay time can be read. Via a measuring scale, which can be attached to part b, the set delay time can also be read there directly.

Another adjustment shows 2 , Here, the adjustment of the delay element via a planetary gear. By loosening the screw 9 Here are the two assembly parts 7 . 8th mutually rotatable. The thread a of the pipe 1 is also here in the thread of the part 8th preferably glued. The internally toothed gear 15 is in the part 7 centered and secured with this against twisting. The further power flow takes place via a planetary gear 16 in the sun wheel 12 , The tooth length f of the sun gear 12 is at least the sum of the tooth width of the planetary gear 16 and the required displacement path. In that now the part 7 and the part 8th to be mutually twisted becomes the sun wheel 12 put in a rotary motion. As a result, the thread a is displaced in the axial direction, the delay time changed. With the measuring pin 14 can through the cutout c in the part 8th the set delay time can be read. About a measuring scale, on the part 8th can be attached, the reading is also directly possible. Advantage of this design is that fewer turns of both parts 7 . 8th are necessary, since the gear ratio helps here. Further halving is possible by using a double thread a.

Claims (10)

Delay element ( 10 ) for an ammunition, bullet, active body and the like with an ignition charge ( 4 ), characterized by a mechanical adjustment consisting of at least one tube ( 1 ), a sleeve ( 2 ) and a chemical sentence ( 3 ) as a delay set, located in the pipe ( 1 ), wherein a displacement of the sleeve ( 2 ) on the pipe ( 1 ) in the axial direction a release of the delay set ( 3 ) to the ignition charge ( 4 ) and thus causes an adjustment of the delay time. Delay element ( 10 ) according to claim 1, characterized in that the tube ( 1 ) comprises on one side a thread (a) and on the other side a cylindrical, preferably smooth surface (b). Delay element ( 10 ) according to claim 2, characterized in that on the tube cylinder (b) is a slot (c). Delay element ( 10 ) according to one of claims 1 to 3, characterized in that in the tube ( 1 ) is a through hole in which the chemical mixture is used as a delay set ( 3 ), for example by means of pressing. Delay element ( 10 ) according to one of claims 1 to 4, characterized in that a left edge of the cover hole (d) of the sleeve ( 2 ) determines the delay time, wherein a displacement of the sleeve ( 2 ) on the pipe ( 1 ) in the axial direction causes a shortening of the delay time when the edge of the cover hole (d) at the extreme left edge of the tube ( 1 ) means the maximum possible delay time. Delay element ( 10 ) according to one of claims 1 to 5, characterized in that it is in an assembly ( 11 ) is involved. Delay element ( 10 ) according to claim 6, characterized in that the assembly ( 11 ) from two module parts ( 7 . 6 ), which has a detachable connection ( 9 ) are firmly connected to each other, wherein by releasing the compound ( 9 ) the two assembly parts ( 7 . 8th ) Are mutually rotatable and by this twisting the sleeve ( 2 ) can be moved over the thread a in the axial direction. Delay element ( 10 ) according to claim 6 or 7, characterized in that a planetary gear is integrated, consisting at least of a gear ( 15 ), a planetary gear ( 16 ) and a sun wheel ( 12 ). Delay element ( 10 ) according to claim 8, characterized in that the internally toothed gear ( 15 ) in the component ( 7 ) is centered and secured with this against rotation and the power flow through the planetary gear ( 16 ) in the sun wheel ( 12 ), wherein the tooth length (f) of the sun gear ( 12 ) At least the sum of the tooth width of the planetary gear 16 and the required displacement path. Delay element ( 10 ) according to one of claims 6 to 9, characterized in that with a measuring pin ( 6 . 14 ) through the cut-out (e, c) in the assembly part ( 8th ) the set delay time can be read, wherein a measuring scale, for example, on the module ( 8th ) allows the direct reading of the delay time.

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