DE20321123U1 - Optical cable plug terminal arrangement has three balls about cable between cone and counter bearing; cone and counter bearing are axially movable relative to each other and biased towards each other - Google Patents

Abstract

The arrangement has a light conductor (2) and three balls arranged in a plane about the light conductor, axially and radially movable in a sleeve (10) and biased radially inwards. The balls are arranged between a cone with a cone angle of approx. 60 degrees up to about 120 degrees, especially about 90 degrees, and a counter bearing, whereby the cone and counter bearing are axially movable relative to each other and biases towards each other.

Description

The The present invention relates to an optical fiber connector assembly with a light guide, a plug and one inside a central opening of the Plug arranged sleeve, in which the optical fiber is clamped.

Such a light guide plug arrangement is, for example, by the DE 2853649 C2 known.

Optical fiber, which for transmission are used by high laser light powers, consist of a Light leading Core and at least one coat, which by appropriate doping a lower optical refractive index than the light-guiding core so that at the interface Core / mantle up to certain angles Total reflection occurs. In The optical fiber manufacturing can either be the core diameter in tighter tolerances and the jacket diameter in larger tolerances be manufactured, or vice versa. The beam quality of the im Guided light guide Light is the better the tighter the tolerance of the light Core diameter is.

From the DE 2853649 C2 Two plugs for coupling two light guides are known. Each plug has an axially spring-mounted sleeve with three arranged in a plane balls, between which the optical fiber is clamped. The balls also serve to center the light guide. It is essential that the jacket diameter is exactly defined to the three balls. Now, if the two connectors are connected to each other, so they are directed by the balls to each other, and the shell diameter of the two light guides are aligned in accordance concentric with each other. However, eccentricities occur between the core and the jacket in the case of optical fibers as a result of production, so that in this known light conductor plug arrangement the light-guiding cores can be correspondingly eccentric to one another. This has the consequence that a high proportion of the light output is not coupled into the other light guide, but absorbed in the plug and converted into heat loss.

at Solid state lasers, such as. with Nd: YAG lasers, the tendency is for ever higher laser powers with simultaneously improving beam quality. So that this beam quality on to be machined workpiece is reached, the light must be leading Core of the laser light guide in its cross section are getting smaller. To be here as possible lossless plug & play to ensure the fiber optic cable on the laser or on the processing unit, is a very accurate positioning of the laser fiber core in radial direction within the connector required.

task Therefore, it is the object of the present invention to provide an optical fiber connector assembly of the type mentioned in such a way that the Light leading Core of the optical fiber in the connector as exactly as possible in the radial direction is aligned.

These Task is inventively characterized solved, that the diameter of the opening greater than the outside diameter the sleeve is and that the sleeve in the plug in the position in which the light guiding core in the sleeve clamped light guide centered to the plug axis is fixed is.

at preferred embodiments the optical fiber connector assembly are the sleeve and the plug with each other cohesively, force fit or connected by means of an adhesive.

The Once fixed position of the light guide in the plug must be as possible stable over the entire operating temperature range, without changing the temperature a play in the light guide holder or deformation forces on the light guide occur.

Also have to at temperature change diameter changes and axial length changes of the light guide or the plug be possible without that Adjust game in the optical fiber mount or act on the optical fiber external forces, which lead to tensions and deformations in the light guide. As in the invention the tolerance of the cladding diameter has no effect on the light guide centering has, the light guide with very tightly tolerated core diameter be produced, which is extremely positive on the beam quality of the laser system.

Preferably has the sleeve a radially inwardly biased three-point mount, in which the light guide is clamped. This statically defined Three-point mount allows one backlash-free and temperature-compensated mounting of the light guide inside the sleeve.

at a very particularly preferred embodiment of the light guide plug assembly according to the invention points the three-point mount three in a plane around the light guide arranged around, radially slidably mounted balls, the are biased radially inward.

Preferably, the balls are arranged between a cone with a cone angle of about 60 ° to about 120 °, preferably about 90 °, and an abutment, wherein the cone and the anvil relative to each other axially displaceable and by at least one spring in the direction of each other too before are curious. The force acting between cone and thrust bearing spring force is divided by the cone in a radially directed force component with which press the balls against the jacket of the light guide and keep it free of play. The pressure force can be defined by the cone angle and the spring force. In addition, the balls allow axial changes in length between the light guide and sleeve due to different coefficients of linear expansion of the various components, without causing stress on the light guide.

In An advantageous development of this embodiment is the spring an axially adjustable spring counter bearing, e.g. on a threaded ring, supported about the spring force and thus the bias acting on the balls to be able to adjust.

at another preferred embodiment the optical fiber connector assembly according to the invention the three-point mount has three intersecting round pins, which form a triangular, preferably isosceles, clamping opening. In the clamping opening is the light guide by the bias of the tangentially adjacent Pins kept free of play, with axial length changes between optical fibers and sleeve due to different coefficients of linear expansion the various components without additional on the light guide acting stresses possible stay.

The on the light guide acting bias is due to the elastic Deflection of the pins as a result of the introduced into the terminal opening optical fiber given. The pins can in the sleeve be arranged fixed, wherein the clamping opening without a light guide smaller as the sheath diameter is. With adjustable mounted pins Can the bias from the outside be adjusted by appropriate deflection of the pins. To For example, the one end of a pin in the optical fiber holder fixed and the other end be mounted deflectable. It is also possible, to bias one or all pins by means of a torsion spring with a defined torque, so that the torsion spring permanently on a defined biasing force who exercises pens, so keep the light guide free of play.

Prefers the balls and the pins are either made of quartz glass, which is a high transmittance for Laser light of the corresponding wavelength of a solid-state laser has, or ceramic, which has a high temperature compatibility having. Alternatively you can Also balls made of a metallic material are used polished or with a highly reflective coating, for example made of gold, are provided and therefore reflect the laser radiation mainly. So can be a harmful Influence of the laser radiation on the optical fiber mount due to of scattered radiation and radiation, which during the adjustment or not exactly coupled into the light guide in the case of a not exactly radial alignment will be avoided.

Further Advantages of the invention will become apparent from the description and the Drawing. Likewise the above-mentioned and the features further mentioned ever for to use one or more in any combination. The shown and described embodiments are not as final enumeration but rather have exemplary character for the description the invention.

It demonstrate:

1 a longitudinal section of the optical fiber connector assembly according to the invention with a light-free held in a sleeve optical fiber;

2 an enlarged view of the in 1 shown sleeve;

3 a cross-sectional view of the sleeve according to III-III in 2 ;

4 another embodiment of in 2 shown sleeve;

5 a perspective view of a differently shaped sleeve of the optical fiber connector assembly according to the invention; and

6 the front view of in 4 shown sleeve.

In the 1 shown optical fiber connector assembly 1 includes a sleeve 10 , in which the jacket of a light guide 2 is held in place and a plug 3 with a central opening 4 in which the sleeve 10 is attached. The diameter of the opening 4 is greater than the outer diameter of the sleeve 10 in the opening 4 in the position in which the light-guiding core of the in the sleeve 10 clamped light guide 2 centered to the plug axis 5 is, is fixed. Aligning the sleeve 10 in the plug 3 takes place by means of an adjusting device, which is the sleeve 10 grips and then in the opening 4 radial (double arrow 6 ) shifts until the light-guiding core of the clamped held light guide 2 coaxial with the plug axis 5 or concentric with its conical mating surface 7 adjusted. When this position is reached, the sleeve becomes 10 with the plug 3 firmly connected (welded, soldered, glued, braced, ...).

As in 2 and 3 shown is the light guide 2 in the sleeve 10 by three, each in a plane offset by 120 ° arranged balls 11 out Quartz glass held between one in the sleeve 10 provided cone 12 and a counter bearing 13 are arranged. The cone 12 and the counter bearing 13 each have a central opening 14 . 15 for the light guide 2 on. The formed as a thrust washer abutment 13 is in the sleeve 10 mounted axially displaceable (double arrow 16 ) and by an axially acting compression spring 17 in the direction of the cone 12 biased. The compression spring 17 is in the sleeve 10 on a spring pad 18 supported, that to adjust the on the counter bearing 13 acting spring force is axially adjustable. The balls 11 be from the compression spring 17 over the counter bearing 13 to the cone 12 pressed, where the axially acting force also in a radial on the balls 11 acting force component is split, with the balls 11 on the laser light guide 2 press and hold this play free. This on the light guide 2 acting pressure force is due to the cone angle, which is 90 ° in the embodiment, and the spring force of the compression spring 17 Are defined. The balls 11 allow for temperature changes both a radial extension of the light guide 2 against the force of the compression spring 17 as well as an axial length change between optical fibers 2 and sleeve 10 due to different coefficients of linear expansion of the various components.

Opposite the sleeve 10 is different in the 4 shown sleeve 10 ' in that the cone 12 ' at the axially displaceable (double arrow 16 ) mounted thrust washer 19 is provided and the counter bearing 13 ' at the bottom of the sleeve 10 ' is attached. The of the compression spring 17 applied pressure disk 19 push the balls 11 against the counter bearing 13 ' and because of the cone 12 ' also against the light guide 2 ,

In the 5 and 6 shown sleeve 20 has three intersecting round pins 21 . 22 . 23 made of quartz glass. The pins arranged at 120 ° form inside the sleeve 20 a triangular isosceles clamping opening 24 in which the light guide 2 is held clamped. The two pens 21 . 22 are firmly in the sleeve 20 fixed while the third pin 23 in the sleeve 20 along the double arrow 25 is mounted adjustable. This is one end of the third pin 23 in the sleeve 20 and the other end in a ring 26 fixed on the outside of the sleeve 20 is rotatably mounted. When the light guide 2 in the terminal opening 24 is introduced, the ring becomes 26 twisted so far that the third pin 23 the light guide 2 positioned so that it bears tangentially on all three pins in one plane. In this position, the ring becomes 26 on the sleeve 20 fixed. The pencils 21 . 22 . 23 allow for temperature changes both a radial extension of the light guide 2 either because of their elasticity or against the effect of one on the third pin 23 acting torsion spring (not shown) and an axial length changes between optical fibers 2 and sleeve 20 due to different coefficients of linear expansion of the various components.

Claims (11)

Fiber optic connector assembly ( 1 ) with a light guide ( 2 ), a plug ( 3 ) and one within a central opening ( 4 ) of the plug ( 3 ) arranged sleeve ( 10 ; 10 '; 20 ), in which the light guide ( 2 ) is clamped, characterized in that the diameter of the opening ( 4 ) greater than the outer diameter of the sleeve ( 10 ; 10 '; 20 ) and that the sleeve ( 10 ; 10 '; 20 ) in the plug ( 3 ) in the position in which the light-guiding core of the in the sleeve ( 10 ; 10 '; 20 ) holding the optical fiber ( 2 ) centered to the plug axis ( 5 ) is fixed. Optical fiber connector assembly according to claim 1, characterized in that the sleeve ( 10 ; 10 '; 20 ) and the plug ( 3 ) are connected to one another in a cohesive, non-positive or adhesive manner. Optical fiber connector arrangement according to claim 1 or 2, characterized in that the sleeve ( 10 ; 10 '; 20 ) has a radially inwardly biased three-point mount, in which the optical fiber ( 2 ) is held clamped. Optical fiber connector assembly according to claim 3, characterized in that the three-point support three in a plane around the light guide ( 2 ) arranged around, radially displaceably mounted balls ( 11 ) which are biased radially inwardly. Optical fiber connector assembly according to claim 4, characterized in that the balls ( 11 ) between a cone ( 12 ; 12 ' ) with a cone angle of about 60 ° to about 120 °, in particular about 90 °, and an abutment ( 13 ; 13 ' ) are arranged, wherein the cone ( 12 ; 12 ' ) and the counter bearing ( 13 ; 13 ' ) are axially displaceable relative to each other and biased towards each other. Optical conductor plug arrangement according to claim 5, characterized in that the cone ( 12 ; 12 ' ) and the counter bearing ( 13 ; 13 ' ) by at least one spring ( 17 ) are biased. Optical fiber connector assembly according to claim 6, characterized in that the at least one spring ( 17 ) on an axially adjustable spring counter bearing ( 18 ) is supported. Optical fiber connector assembly according to claim 3, characterized in that the three-point support three intersecting round pins ( 21 . 22 . 23 ), which has a triangular, preferably isosceles, clamping opening ( 24 ) form. Optical fiber connector assembly according to claim 8, characterized in that at least one pin ( 23 ) for changing the cross section of the triangular clamping opening ( 24 ) is adjustable. Optical fiber connector assembly according to claim 9, characterized in that the one end of the adjustable pin ( 23 ) in the sleeve ( 20 Fixed) and the other end is mounted deflectable. Optical fiber connector arrangement according to one of claims 4 to 10, characterized in that the balls ( 11 ) or the pens ( 21 . 22 . 23 ) are made of quartz glass, of ceramic or of polished or with a reflective coating, in particular a gold coating, provided metal.