RU96107263A

RU96107263A - OPTICAL FIBER ORGANIZATION DEVICE

Info

Publication number: RU96107263A
Application number: RU96107263/28A
Authority: RU
Inventors: Люк Йозеф Макен; Нотен Лодевийк Кордула Михаэль Ван
Original assignee: Н.В.Рейкем С.А.
Priority date: 1993-09-08
Filing date: 1994-09-02
Publication date: 1998-07-10

Claims

1. A device for accommodating optical fibers, comprising an input hole for passing the optical fiber and a cylinder for receiving it, characterized in that it includes a number of input holes and an output hole for passing the optical fibers, the cylinder for placement being located relative to the holes so that the fibers passing from the inlet openings to the outlet openings are bounded by the outer surface of the cylinder to a minimum bending radius of at least equal to the critical bending radius of the fibers, and each The inlet opening is provided with a bending control means located next to it to direct the fiber passing through this hole to the surface of the cylinder with a minimum bending radius of at least equal to the critical bending radius of this fiber.

2. The device for placement according to claim 1, characterized in that the outlet opening is located at its opposite edge relative to the input holes.

3. The device for placement according to claim 1 or 2, characterized in that it has at least four inlet openings arranged in a row along its edge.

4. A device for placement according to any one of the preceding paragraphs, characterized in that several means of bending control contain, in principle, mutually concentric curved walls.

5. A device for placement according to any one of the preceding paragraphs, characterized in that it has at least two outlet openings and at least two cylinders, the device being basically symmetrical with respect to a plane passing between the two cylinders.

6. The device for placement according to claim 5, characterized in that several means of bending control contain, in principle, mutually concentric curved walls, the walls on one side of the said plane being bent in the direction from those located on the opposite side of this plane.

7. A device for placement according to any one of the preceding paragraphs, characterized in that it is made in the form of a single structure.

8. A device for placement according to any one of the preceding paragraphs, characterized in that it further comprises at least one tray for placement, into which fibers from the inlet or outlet openings are fed.

9. A device for accommodating optical fibers, containing a hole for introducing fiber, an opening for outputting fiber and means located between the inlet and outlet openings that define the fiber passing between the inlet and outlet openings, characterized in that said means limits the fiber to a minimum radius bending, at least equal to the critical radius of the bending of the fiber, the device for placement is provided with a through hole passing through the front surface of the device for placement, contains a live inlet, an outlet and said means, to the opposite front side of the accommodation device, and / or said means comprises a placement cylinder that is hollow and allows the free end of the fiber to pass from the inlet or outlet to the inside of the cylinder for storage there with minimal a bending radius greater than that at which the fiber experiences permanent damage, or / and the input contains a set of inlet openings, each inlet opening provided with means for Before bending, located next to it to direct the fiber passing through this hole to the said means, and / or the device for placement is equipped with a device for cutting or separating optical fibers, attached to it with the possibility of removal, having a first passage to hold a larger fiber tube and one or more secondary passages for holding a series of smaller fiber tubes or fibers and allowing fiber to pass between the larger tube and, if any, each smaller tube without considerably loss of luminous flux.