RU2001122723A - PASSIVE PLATFORM FOR HOLDING OPTICAL ELEMENTS - Google Patents

Claims (17)

1. A platform for receiving optical elements, comprising a substrate having a surface, a plurality of finger elements located along a surface for holding the optical elements in a plurality of predetermined positions, and a guide for the fiber turns protruding upward from a surface adjacent to at least one of the plurality finger elements, in which a guide for the coils of fiber and many finger elements determine the path for winding optical fibers. 2. The platform according to claim 1, characterized in that each of the plurality of finger elements is adjacent to at least one other of the plurality of finger elements, the adjacent finger elements define a cavity between them for attaching optical elements. 3. The platform according to claim 2, characterized in that the adjacent finger elements further define a passage for access to the cavity. 4. The platform according to claim 1, characterized in that each of the many finger elements includes rounded ends. 5. The platform according to claim 1, characterized in that the guide for the turns of fiber and at least one of the many finger elements define between them a slot for receiving optical fiber. 6. The platform according to claim 1, characterized in that the guide for the turns of fiber has a generally rectangular shape. 7. The platform according to claim 6, characterized in that the guide for the turns of fiber includes rounded corners. 8. The platform according to claim 7, characterized in that the guide for the fiber turns includes two internal recesses, and two passes, each of which provides access to one of the two internal recesses. 9. The platform according to claim 2, characterized in that it further comprises a wall extending upward from said surface, wherein the wall surrounds a plurality of finger elements and a guide for turns of fiber. 10. The platform according to claim 9, characterized in that the wall defines a plurality of holes, each of the plurality of holes being arranged to receive an optical fiber attached to one of the optical elements. 11. The platform of claim 10, wherein the wall defines a plurality of holes. 12. The platform according to claim 1, characterized in that the platform is made of foam. 13. The platform according to claim 1, characterized in that it further comprises a rigid substrate attached to the platform. 14. A platform for receiving optical elements, comprising a surface, a plurality of finger elements located along a surface for holding the optical elements in a plurality of predetermined positions, and a guide for the fiber turns protruding upward from a surface adjacent to at least one of the plurality of finger elements, in which the guide for the turns of fiber and many finger elements determine the path for winding optical fibers, characterized in that each of the many fingers new elements adjacent to at least one other of the many finger elements, and adjacent finger elements define between them a cavity for fixing optical elements. 15. A method of creating an optical device, comprising the following steps, position the first optical element on the receiving platform, the first optical element having many terminals of the optical fibers, positioning the second optical element on the receiving platform, while the second optical element has many terminals of the optical fibers, select one from the set of terminals of the optical fibers of the first optical element, one of the set of terminals of the optical fibers of the second optical element is selected, the spliced point In each selected terminal, the selected terminals are spliced with each other, while the splicing occurs at the selected splicing points, and the spliced terminals are stored on the receiving platform. 16. The method according to clause 15, wherein the receiving platform comprises a surface, a plurality of finger elements located along the surface for holding the optical elements in a plurality of predetermined positions, and a guide for the fiber turns protruding upward from the surface adjacent to at least one of the many finger elements, in which the guide for the turns of fiber and many finger elements determine the path for winding optical fibers, in which each of the many fingers x elements adjacent to at least one of another plurality of finger elements, the adjacent finger elements define therebetween a cavity for fixing the optical elements. 17. The method according to clause 16, wherein the step of selecting a splicing point on each selected terminals further comprises the steps of winding the selected terminal of the optical fiber of the first optical element in one direction along the path, winding the selected terminal of the optical fiber of the second optical element in the opposite direction to the mentioned path, each of the selected leads of the optical fibers is marked so that splicing is performed at the marked places in a predetermined position on the track.