FI93158B - Optical fiber control arrangement and fiber guide - Google Patents

Description

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Optical fiber control arrangement and fiber guide

The invention relates to an arrangement for guiding an optical fiber consisting of a tubular cable guide, a support plate, fastening means for fastening the tubular cable guide to the frame and a fiber guide.

The invention further relates to a fiber guide for guiding a fiber, the fiber guide having mounting levels for attaching the fiber guide to the frame and guides for guiding the guide of the cable 10 to the fiber guide.

Traditionally, the transport of optical fiber in premises made without regard to optical fibers has to be handled in a well-controlled manner and with awareness of optical fiber handling problems. The very precise curve must take into account the minimum bending radius of the fiber, so that when the fiber is bent to a smaller radius, it can easily break and cause signal transmission problems. In particular, the instrument frames often lack the necessary bushings and optical fiber wiring paths, so that the fiber-optic cables are easily installed like a normal conductor. In this case, however, the above-mentioned problem in which the optical fiber is bent to too small a radius is easily caused. Correspondingly, without optical cable shields and wiring paths, the installation time of the optical cable in the instrument frame is very long and becomes very expensive. It should also be noted that efforts are now being made to bring all possible cables behind the instrument frame, requiring separate wiring paths for the optical fiber.

The purpose of this arrangement is to allow easy and quick installation of the op-30 optical fiber in the instrument frame and to ensure a sufficiently large bending-> «radius for the optical fiber.

This arrangement is characterized in that the support plate has a fastening surface to which the fastening members for the tube-35 cable guide are fastened, that the fastening surface is at a distance from the frame wall and that the tubular cable guide is fastened to a second plane perpendicular to the first wall plane of the frame. wherein the arc formed by the tubular cable guide 5 has a bending radius at least equal to the minimum bending radius of the fiber cable.

Furthermore, the fiber guide according to the invention is characterized in that the fiber guide has a guide plate, that the guide plate is bent so that its bending radius is greater than or equal to the minimum bending radius of the fiber cable and that the guide plate has a plane at which the guide plate is supported.

The essential idea of the arrangement is that the optical fibers are transported in a separate tubular space bent at the necessary points so that its bending radius is greater than or equal to the minimum bending radius of the optical fiber. Therefore, since the optical cable runs inside the tubular structure, its bending radius is always larger than its minimum bending radius. A further essential idea is that when the optical fiber enters or enters the tubular structure, a fiber guide is used as an extension of the tubular structure, which also prevents the optical fiber from bending to a smaller bending radius than is allowed.

. The advantage of the arrangement according to the invention is that it is possible to make the arrangement from very simple materials, whereby it becomes very cheap. Correspondingly, the arrangement is very easy to attach to the instrument, making the installation and transport of the optical fibers very easy and fast and further avoidable. bending the optical fiber to too small a bending radius. Further, for these reasons, a great deal of cost and installation time is saved.

The invention is described in the following drawing, in which Fig. 3 93158 Fig. 1 shows an arrangement according to the invention in a perspective view from the side and Fig. 2 shows an arrangement according to the invention placed in its operating position.

Figure 1 shows an arrangement 1 according to the invention, consisting of tubular fiber cable guides 2a and 2b and a fiber guide 3. The fiber cable guides 2a and 2b are fastened by fastening members 4a, 4b, 4c and 4d to a support plate 5 intended to be fastened to the rear wall of the instrument frame. The bending radius of the tubular cable guides 2a and 2b when they make a 90 ° turn at 6 is obtained by lifting the fixing surface 7 of the support plate 5 to which the fiber cable guides 2a and 2b are fastened by the fastening members 4a-4d , that when bending the fiber optic cable guides 2a and 2b, they do not have to be bent to a smaller radius than the minimum bending radius of the fiber optic cable. Thus, the fiber optic cables can be advantageously introduced, for example, along a cable shelf on the instrument frame 20, after which they are threaded into the fiber optic cable guides 2a and 2b. In this case, they are very well protected against possible over-bending. Correspondingly, a fiber guide 3 is arranged at one end of the fiber cable guides 2a and 2b, which can be fastened to the bottom of the instrument frame, for example. 25 mounting levels 8a, 8b, 8c and 8d. Most preferably, the fiber guide 3 is formed by bending the sheet metal. When the fiber cable comes out of the fiber cable guides 2a and 2b and is then bent upwards, it is also important at this point that the cables cannot bend to a radius smaller than the minimum bending radius. Therefore, as-. a guide plate 9 is bent on the front part of the guide 3, the radius of curvature of which is also larger than the minimum bending radius of the fiber optic cables. Furthermore, the guide plate 9 has a plane 10 which supports the guide plate 9 against the bottom of the instrument frame 35, for example.

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Figure 2 shows an arrangement according to the invention seen from the side and attached to the instrument frame 11. The numbering in Figure 2 corresponds to the numbering in Figure 1. The fiber-optic game controllers 2a and 2b are attached to the case 12 of the instrument frame 11 by means of a support plate 5. Since the surface 7 of the support plate is bent at a preferred distance from the fixing plane of the support plate 5, the fixing members 4a to 4d of the fiber cable guides 2a and 2b can be fixed to the surface 7 at a suitable distance from the rear wall 12 of the instrument frame 11. As the cable guide 10 met 2a and 2b 7, the fiber optic cable guides 2a and 2b can be bent at 6 so that their bending radius is greater than or equal to the minimum allowable bending radius of the fiber optic cable. Thus, by adjusting the distance of the surface 7 from the rear wall 12 of the device-15 frame 11 and at the same time also from the mounting plane of the support plate 5, the bending radius of the fiber cable guides 2a and 2b can also be adjusted. Correspondingly, a fiber guide 3 is attached to the front part of the base 13 of the instrument frame 11, whereby when the fiber cable comes out of the fiber cable guide 2a and is pushed upwards into the instrument frame 11, the guide plate 9 prevents the fiber cable from bending to too small a radius. Thus, the wiring of the fiber optic cables to the instrument frame 11 is very easy and simple, and the installation time of the fiber optic cables, 25, is very short thanks to the ready-made wiring routes. The fiber guide 3 is preferably formed of bent sheet metal, whereby the blank can be cut from a larger sheet metal sheet and then bent into its shape. In this case, guides 14a and 14b centering the fiber cable guides 2a and 2b are formed in the fiber guide 3, which are shown in Fig. 1. Respectively, they support the fiber cable guides. 2a and 2b very precisely to the bottom 13 of the instrument frame 11.

Furthermore, the guide plate 9 is very easy to bend with the desired radius and then to support it on the bottom 13 of the instrument frame 11 by means of the level 10.

35 The invention and the related description are intended 931 58 5 only to illustrate the idea of the invention. The details of the invention according to the arrangement may vary within the scope of the claims.

Claims (2)

Device for protecting an optical cable, said device consisting of a tubular cable guide (2a), a support plate (5), fastening means (4a - 4d) for attaching the tubular cable guide (2a) to a frame (11) and by a fiber guide (3), characterized in that the support plate (5) has a fastening surface (7), in which the fastening means (4a - 4d) of the tubular cable guide (2a) are attached, that the fastening surface (7) lies pi 10 is a distance from the wall plane (12) of the frame (11) and that the tubular cable guide (2a) is fixed in a second plane (13) with the fiber guide (3) perpendicular to the first wall plane (12), (6) formed by the tubular cable guide (2a) has a bending radius greater than or equal to the minimum bending radius of the fiber cable. 2. Fiber guide, which for fastening in a frame (11) has fastening planes (8a - 8d) and guides (14a, 14b) for guiding a cable guide (2a) to the fiber guide (3), characterized in that the fiber guide (3) has a guide plate 20 (9), that the guide plate (9) is curved in that its bending radius is greater or equal to the mini-smoking radius of a fiber cable and that the guide plate has a plane (10) with which the guide plate (9) is supported against the device frame. (11) *. wall plane.