DE9204697U1 - Reserve length sensor - Google Patents

Description

The innovation relates to a reserve length sensor for an optical fiber using a deflection device provided with a guide element, preferably for inserts that can be used in 19" magazines.

When connecting optoelectronic components with glass fibers, the possibility of subsequently fitting components into the slots must be ensured. In order to be able to pull out a slot with the front panel and the connected glass fiber coupling with the glass fibers for subsequent fitting, a certain reserve length of the optical fiber is necessary.

A reserve length sensor of the generic type is in the

Only ideas make the technology

Telecommunications Information Systems Medium Voltage Technology

KRONE Aktiengesellschaft Chairman of the Supervisory Board: Dr. Walter Sigle Management Board: Klaus Krone, Chairman; Manfred Schneider, Dr. Gerhardt Wolff Headquarters: Berlin
District Court of Charlottenburg HRB 25601

DE-OS 41 12 681 Al. In this case, each optical fiber is guided around one or more deflection rollers in the interior of the distribution box, transverse to the shortest connecting line between the input and output. The optical fibers are designed to be long enough that, in the position of the deflection rollers, in which the optical fibers take the greatest path between the input and output, they protrude beyond the outputs. This creates a reserve length sensor for each optical fiber in the distribution box, which can accommodate a corresponding length of the optical fiber. If the respective optical fiber is to be connected to a device, it can be pulled out of the distribution box via the output. The movable deflection rollers are loosely guided vertically on both sides in guide grooves, so that they can be moved upwards, shortening the reserve length.

This reserve length sensor is space-consuming and expensive due to the relatively complicated roller guide in guide grooves. The accessibility and assembly of the rollers is complex. Use in inserts is not possible due to the different structural conditions. The insert that can be moved horizontally requires a different type of reserve length sensor for the optical fiber than the distribution box that extends vertically.

The innovation is therefore based on the task of creating a reserve length sensor of the generic type which, using simple means and avoiding space-consuming and costly arrangements, ensures that the necessary reserve length of the optical waveguide is available when a plug-in module is pulled out.

To solve this problem, the innovation provides for at least two guide elements for the optical fiber.

seen and arranged at a distance from one another and that one guide element is connected to a movable component, in particular the insert, and the other guide element is connected to a positionally stable component, in particular the magazine. The optical fiber is guided, starting from a fixed point on the magazine, around the guide element attached to the magazine and from there via the guide element attached to the insert to an optical fiber coupling, which is mounted on the front panel of the insert. When the insert is pulled out, the loop of the optical fiber placed over the guide elements is shortened in accordance with the length of the insert pulled out. The optical fiber is constantly guided taut and securely by the guide elements. This ensures with simple means that the necessary reserve length of the optical fiber is available when the insert is pulled out.

Further advantageous embodiments of the innovation emerge from the subclaims.

The innovation is described below using a preferred embodiment of a reserve length sensor for an optical fiber shown in the drawing. Shown are: Fig. 1 the top view of the schematically shown reserve length sensor with the insert inserted,

Fig. 2 the top view of the schematically shown reserve length sensor with the insert pulled out,

Fig. 3 a perspective longitudinal section through the inserted insert and

Fig. 4 shows a perspective longitudinal section through the pulled out insert.

Fig. 1 and 2 show a schematic representation of a 19" magazine 4, which offers a positionally stable component, with an insert 7, which forms a movable component and in which a reserve length sensor for optical fibers 1 is installed. An optical fiber 1 consisting of pigtails or other glass fibers is guided via a guide 6 to a fixed point 5, which is formed by a strain relief and is arranged on the magazine 4. From there, the optical fiber 1 is guided as a loop 15 over the radius of a first guide element 13 and from there over the radius of a second guide element 14 to an optical fiber coupling 3, in which the optical fiber 1 is firmly mounted.

Fig. 1 and 2 show the reserve length sensor in its installed position. The reserve length sensor consists of the semicircular bodies 8 and 9 forming the guide elements 13, 14. Each of the semicircular bodies 8, 9 has a semicircular cross-section with the radius edge 8a or 9a and the straight base edge 8b or 9b. The radius of the radius edges 8a, 9a is expediently slightly larger than the permissible bending radius of the optical fiber 1 used. However, the radius must not be less than the permissible bending radius in order to avoid kinking or other damage to the optical fiber. The semicircular bodies 8, 9 are mounted so that their straight base edges 8b, 9b are opposite each other. The first semicircular body 8 is firmly connected to the 19" insert 7 and is expediently mounted in the rear part of the insert 7 so that the insert 7 can be pulled out to the mounting position. The second semicircular body 9 penetrates the insert 4 in a guide cutout 1 and is firmly connected to the magazine 4. The distance D between the straight base edges 8b, 9b of the semicircular bodies 8, 9 is selected so that it is half the length of the desired reserve length of the optical fiber 1 or, depending on

speed of the maximum extension path of the insert 7 is selected. The first semicircular body 8 acts as a driver for the optical fiber 1 due to its fixed connection to the insert 7 when the insert 7 is extended from its insertion position (Fig. 1) into its assembly position (Fig. 2) or in the reverse direction.

The reserve length for the optical waveguide 1 in the form of the loop 15 is obtained as follows. When the insert 7 is extended from its rest position (Fig. 1, 3) into the assembly position (Fig. 2, 4), the loop 15 of the optical waveguide 1 pulled over the two semicircular bodies 8, 9 is shortened by the first semicircular body 8 by pulling the optical waveguide 1 forwards over the coupling 3 attached to the front side 2 of the insert 7 and the first semicircular body 8 which acts as a driver for the optical waveguide 1 when the insert 7 is pulled out. When the insert 7 is pulled out, the second semicircular body 9, which is firmly connected to the 19" magazine 4, remains in a stable position, while the first semicircular body 8 moves towards the second semicircular body 9, so that in the end position, the extracted position of the insert 7, the two semicircular bodies 8, 9 lie against one another. The mobility of the insert 7 is ensured by the guide cutout 11 (Fig.3, 4) in the base plate 12 of the insert 7, through which the second semicircular body 9 protrudes. The optical fiber 1 is always guided tightly and precisely along the semicircular bodies 8, 9. Only the portion of the optical fiber 1 stored in the loop is moved, not the entire optical fiber 1. When the insert 7 is pushed back, the reserve length is achieved by pulling the semicircular bodies 8, 9 is pulled back tight again over the first semicircular body 8.

LIST OF REFERENCE SYMBOLS

1 optical fiber 2 Front panel 3 coupling 4 19" magazine 5 Fixed point 6 guide 7 Insert 8th Semi-circular body 8a Radius edge 8b Base edge 9 Semi-circular body 9a Radius edge 9b Base edge 10 back 11 Guide cutout 12 Base plate 13 Guide element 14 Guide element 15 loop D Distance

Claims (5)

Krone AG 31 March 1992 Beeskowdamm 3-11 (92-011 DE) Berlin 37 PROTECTION CLAIMS 1. Reserve length sensor for an optical fiber using a deflection device provided with a guide element, preferably for inserts that can be used in 19" magazines, characterized, that at least two guide elements (13, 14) are provided for the optical waveguide (1) and are arranged at a distance (D) from one another and that one guide element (13) is connected to a displaceable component (insert 7) and the other guide element (14) is connected to a positionally stable component (magazine 4). 2. Reserve length sensor according to claim 1, characterized in that two semicircular bodies (8, 9) are provided as guide elements (13, 14), which are arranged with their base edges (8b, 9b) at a distance (D) of half the reserve length of the optical waveguide (1) from one another, whereby one semicircular body (8) is directed with its radius edge (8a) towards the rear (10) of the insert (4) and is firmly connected to the insert (7) in the rear part and the other semicircular body (9) is directed with its radius edge (9a) towards the front plate (2) of the insert (7) and in the front part of the magazine (4) is firmly connected to the magazine (4), and that the optical fiber (1), starting from a fixed point (5) on the magazine (4), is guided around the radius edge (9a) of the semicircular body (9) attached to the magazine (4) and from there over the radius edge (8a) of the semicircular body (8) attached to the insert (7) to the optical fiber coupling (3), which is firmly mounted on the front plate (2) of the insert (7). 3. Reserve length sensor according to claim 2, characterized in that the semicircular bodies (8, 9) are designed to be pluggable onto the base plate (12) of the insert (7) or onto the magazine (4). 4. Reserve length sensor according to claims 2 and 3, characterized in that the radius of curvature of the radius edges (8a, 8b) of the semicircular bodies (8, 9) is larger than the permissible bending radius of the optical waveguide (1) used. 5. Reserve length sensor according to claim 1, characterized in that the guide elements (13, 14) of the optical waveguide (1) are formed by rollers.