RU1788496C - Device for injecting laser radiation into optical fiber - Google Patents

Abstract

Usage: field of fiber optics. SUMMARY OF THE INVENTION: in a cylindrical housing of the device, an optical fiber holder is arranged coaxially with the input end of which is in the focal plane of the lens, made in the form of a cylindrical sleeve and made of magnetic material magnetized in the axial direction. The holder is connected by a flexible connection to a housing made in the form of two electromagnets connected to adjustable voltage sources. 2 ill.

Description

The invention relates to fiber optics, to elements for introducing radiation into an optical fiber.

A device for adjusting fiber optic objects is known, comprising a fixed base plate and an intermediate and a carrier plate connected to it by hinges, the main plate being placed between them, and together with the intermediate and carrier plates, are spring-loaded with each other.

A disadvantage of such a device is the low accuracy of alignment of optics.

A device for introducing laser radiation into an optical fiber, selected as a prototype, is known. The device comprises an optical fiber holder, a cylindrical body, a cylindrical sleeve with an annular spherical tide at the end and with an annular recess in the middle, opposite which there are screws with lock nuts and a clamping nut, as well as a lens, installed in the side wall

aligned with the optical fiber, the center of the input section is in the focus of the lens.

A disadvantage of this device is the large loss of radiation when introduced into the optical fiber due to the low accuracy of alignment of the optical fiber.

The purpose of the invention is to increase the accuracy of the introduction of radiation into the fiber while simplifying the design.

The goal is achieved in that the device comprises a cylindrical body c. coaxially placed in it by an optical fiber holder. made of magnetic material magnetized in the axial direction and made in the form of a cylindrical sleeve with a spherical surface at one end of it, articulating with its reciprocal body surface, and the second end of the holder is spring-loaded to the body, lens, focus which is located in the plane of the input end of the fiber, and two electromagnets, size XI

00 00 4 U O

wired inside the housing and connected to an adjustable voltage source.

The device comprises a cylindrical housing / in contact with the lens 2, the housing 1 contains electromagnets 3 installed inside it, connected to sources of constant constant voltage 4 and magnetized perpendicular to each other and to the axial direction of the housing 1, from which the optical holder 5 is coaxially mounted fiber 6 connected to the housing i, and the focal plane of the lens. 2, coincides with the end of the fiber 6, the output end of the holder 5 is made in the form of a spherical Nriljev, hinged to the housing, the input end being connected to the housing through a spring 7 in contact with the pin 8, which in turn interacts with the centering recesses of the holder and the screw 9.

The device operates as follows. Lens 2 and the housing, with the elements fixed in it, are mounted on the optical axis of the laser. Then, by moving the lens 2 by focussing, its focal plane is aligned with the input end of the fiber by the glow registered at the output end of the fiber. By changing the magnitude and sign of the voltage of the sources 4, the magnetic flux of the electromagnets 3 is changed, under the influence of which the magnetic moment of the holder arises and the holder is displaced, while the centering recess acts on the pin 8, which deforms the spring 7, the elastic force of which compensates for the magnetic moment. provides0

5

0

5

0

5

from the shift of the input end of the holder 5 of the fiber b to the maximum power of the detected radiation transmitted through the fiber 6, due to the orthogonality of the magnetic fields of the electromagnets 3, the shift of the input end of the optical fiber 6 is carried out in two coordinates in the focal plane of the lens 2.

Claims (1)

The claimed solution provides an increase in the accuracy of radiation input into the fiber, and also provides a simplification of the device, because the holder simultaneously functions as a quotation device /. .-:. . . Formula and sample A device for introducing laser radiation into an optical fiber, comprising a cylindrical body with an optical fiber holder coaxially placed therein, made in the form of a cylindrical sleeve with a spherical surface on one of it. the end, sharingly interacting with the body surface responding to it, and the lens, the focus of which is placed on the plane of the input end of the fiber, 6 tles, in order to increase the accuracy of radiation input into the fiber while simplifying the design of the device, the holder is made of magnetic material magnetized in the axial direction, and two electromagnets are placed inside the housing connected to an adjustable voltage source, while the second end of the holder is spring-loaded to the housing. FIG. 1