SE512331C2 - Shock - Google Patents

Abstract

The device includes a coil spring (8) and at least one clamp (20,21) connected to at least one end of the spring and operable for clamping an optical fibre, or a wire link (5) extending through the spring. Each clamp has a first portion (10,11) which is screw-threaded and which has a number of axially extending resiliently deformable clamping fingers (14). A second portion (9,12) is screw-threaded for engagement with the first portion over the clamping fingers to force them towards one another. A collar (15) of relatively soft force-spreading material is contained between the clamping fingers. The collar is compressed in clamping engagement with the elongate flexible element as the second portion is engaged with the first and the clamping fingers are forced towards one another. A guide can support the elongate flexible element.

Description

10 15 20 25 30 35 | H1 | 512 33.1 »- 2 of the spring, each one being arranged to tension the elongate, flexible element, which extends through the spring, in the direction of its geometric axis, wherein the clamp or each clamp has a first portion, which is threaded and which has a plurality of axial, elastically deformable clamping fingers, a second portion, which is provided with thread for engagement with the first the part over the clamping fingers to press them in the against each other, and a sleeve of relatively soft, distributing material, which is arranged between the clamping fingers. and through which the elongated, flexible elements can extend to compress the sleeve to clamping engagement with the elongate, flexible element, when the second party intervenes with the first and squeezes the fingers are pressed in the direction of each other.

Reference will now be made to the accompanying drawings using an example, in which Fig. 1 shows a diagram of a ground-missile communication communication link system, Fig. 2 is an exploded view of a first embodiment; form of a shock absorber for use in the arrangement in Fig. 1, Fig. 3 shows a cross section through an assembled strut damper according to Fig. 2 and Fig. 4 shows a cross section through a second embodiment for use in the arrangement of Fig. 1.

The missile system shown in part in Fig. 1 has a missile 2 for firing from a barrel 3. The missile is connected to a control system 4 via a communication link 5. The communication link, which is, for example, an single mode fiber, is releasable from a spool placed inside the missile body. The fiber 5 is unwound underneath and after firing the missile to secure a permanent link between the missile 2 and the control system 4. The other end of the coil 6 is connected to the control of the missile system (not shown). Both firing shock waves and sudden movements of the missile can cause tension 10 15 20 25 30 35 512531 - 3 in the fiber 5, which can be absorbed by means of a rigid tensioned tether and shock absorber 7.

An embodiment of the shock absorber 7 is shown in more detail in detail in Figs. 2 and 3. The shock absorber 7 has a spiral spring element 8 of flexible material of plastic type. One end of the spring ends in female thread portion 9 and the other the end ends in a hanging thread portion 10. The portion 9 is arranged to receive a second hanging thread portion ll from a first clamp 20 and the portion 10 is arranged to receive one second female thread portion 12 to form a second clamp 21. Lots ll and 10 are essentially the same and each and one has a threaded portion 13, which ends in a number resilient, deformable clamping fingers 14. A sleeve of relatively soft, force-distributing material 15 is provided in the portions 10 and 11 between the clamping fingers 14 and has a central aperture through which the optical fiber 5 passes. The fingers 14 are deformable when applied of pressure, so that they can be squeezed inwards. This gets the sleeve To be squeezed to hold the optical fiber 5 steadily without destroying it. The gang sections are fit, 9 to ll and 10 to 12, into 9 and 10 in 12. By matching the parties on this way a pressure is developed on each set of fingers 14 from both portions 9 and 12. This may the clamps to clamp the sleeve 15 and thereby hold the fiber 16 and 17. points, the fiber is drawn with a certain slackness through the center so that ll screwed steady at two points, Between these two of the spring member 8 to allow the spring to expand without breaking the fiber. The entire shock absorber system 7 is fixed relative to the control station and can thanks to the spring stretched, compressed, twisted, bent and generally stirred in any way so that voltages and shocks to the missile movement ab- as a result of the firing and sorberas. This protects the optical fiber link 5 and allows For continuous transmission of information. a multi-mode optical fiber, a second embodiment form of the shock absorber is used. This is shown in Fig. 4. 10 15 20 25 30 35 qulwlïr "r 512 331 4 It essentially corresponds to the shock absorber in Figs. 1-3, why equal elements are given equal reference numerals. Following however, there are differences. The optical fiber 5 is held in the shock absorber only at point 16 by means of clamp 21. The function of clamp 20 in this embodiment will appear later. The fiber 5 is held in a guide 22 through the shock absorber to ensure that the fiber 5 is kept straight and that there is no slackening between points 16 and 17. The steering is held at The clamp 20 can hold the guide if it is telescopic. Alternatively, it can hold the steering easily, so that it can move relative to the clamp 20. Moving the direction will be in a direction parallel to it optical fiber 5 and will depend on the pressing or expanding the spring 8. The fiber 5 is held straight of the guide 22 and to allow expansion and compression of the spring 8, there is a slack (not shown) between the terminal 20 and the earth station. Pla- the curing of the slackening area ensures that the fiber 5 can be stored to minimize attenuation.

In some cases, it may be possible to dispense with the man 20 altogether. supported by the spring 8 or some other type of outer In such a case, the control can support.

Although the first embodiment is preferred for a single mode fiber and the second embodiment is preferred for a multi-mode fiber, it will be appreciated that both embodiments the molds can be used with any type of fiber or wire communication link.

Elastic plastic materials of which the shock absorber is made can be any suitable plastic, which has sufficient strength and elasticity. About the shock absorber to be placed near the missile, when fired, can plastic with heat protection or high melting point is needed. The sleeve Can be made of any suitable plastic or rubber, which is force-distributing.

Claims (6)

10 15 20 25 30 35 11 512 331 “tf 5 PATENTKRAV Device for absorbing shock waves, as a flexible element (5) in and controlled in a wire or fiber optically controlled transmission along an elongate, a connecting line between missile (2) station (4) characterized by a coil spring (20) , at least one end of the spring (8) missile system, (8) and at least one clamp which is connected to and arranged to (5), in the direction of the one (20) which is provided with a thread and as elastically deformable clamping fingers (14), a second portion (9), which clamps the elongate, flexible element extending through the spring (8) that the clamp or each clamp has (11), has a plurality of axially extending geometric axis, a first portion being provided with threads for engagement with the first portion (11) (14) toward each other, and a sleeve for pressing them into (15) which is received between the clamping fingers of relatively soft, force-distributing material, the clamping fingers (14) and through which the elongate, flexible the element (5) can size so that the sleeve (15) is stretched, can be compressed into clamping engagement with the long-flexible element (5), when the second portion (9) is in engagement with the first (11) and the clamping fingers (14) are pressed in the direction against each other. Shock wave absorbing device according to claim 1, characterized by a guide means (22) for supporting the elongate, flexible element (22) at the control station end and held in clamping engagement at (5), which guide means runs through said clamp (20). ) missile lands. Device for absorbing shock waves according to the fact that at the missile end of claim 1 or 2, there is only one clamping device. Device for absorbing shock waves according to which there are two claims 1, characterized by 512 331m = ~ 6 clamps (20, 21), which are connected to each end of the spring (8). Device for absorbing shock waves according to one of the preceding claims, characterized in that the elongate, flexible element (5) is an optical multi-mode fiber. Device for absorbing shock waves according to one of Claims 1, 2, 3 or 4, characterized in that the elongate, flexible element (5) is a single-mode optical fiber. är en eæs-u: -23 16:14 e; \ sarxfunxassxkazvxaz fi ic331.dec