DE2810637C2 - Adjustment device for aligning the axis of an optical fiber with the axis of a complementary body - Google Patents

Description

An adjusting device according to the preamble of claim 1 is already from DE-OS 26 11 658 known. It essentially consists of a base plate with two bearing blocks arranged on it, one of which is firmly connected to the base plate, while the other is longitudinally displaceable therein is guided and can be moved towards the fixed bearing block by means of a rotary knob. In the The end of an optical fiber is fixed in each case to the bearing blocks. The axis of the longitudinally displaceable The light guide end held in the bearing block is by means of two set screws arranged at right angles to one another adjustable on the axis of the other optical fiber. The operation of one set screw causes a height position of the light guide holder that can be changed relative to the base plate of the device, while the other adjusting screw causes it to shift sideways. The adjustment device is also still provided with an optics that can be swiveled between the two bearing blocks, which shows the position of the end faces makes recognizable to each other. Devices of this type are used in the manufacture of optical fibers Used to make permanent splice connections. For use as a coupling device in a message transmission system constructed with optical conductors are those for use in the Production facility of optical fibers provided devices, however, not suitable.

The invention has for its object to be one for use in one with optical conductors established message transmission system to create suitable setting device, which is a plane-parallel Displacement of the end face of an optical fiber compared to the end face of an optoelectronic Component formed body or z. B. also the end face of a second optical fiber in the way

allows that by one with degrees of adjustment in the micrometer range This task can be carried out manually to achieve optimum coupling is according to the invention by the specified in the characterizing part of claim 1 constructive Measures resolved

Advantages that can be achieved with the invention are mentioned in the description. Advantageous embodiments the subject matter of claim 1 can be found in the subclaims.

The invention is described in more detail with reference to the embodiment shown in a drawing. In the drawing shows

F i g. 1 shows the setting device, partially in longitudinal section, shown in a side view;

F i g. Fig. 2 partially shows the setting device mounted on a fastening part containing a laser diode cut out and shown in plan view.

In the F i g. I and 2, the setting device is generally denoted by 1 As in particular the F i g. 1 illustrated, the setting device 1 has an angular shape, for example, designed as a housing Holding frame 2 on. In this holding frame 2 are, among other things, several cooperating screw and Wedge gear arranged To clearly identify the position and direction of movement of the various gear parts to be able to determine, it is assumed that the long frame legs 3, 3 'of the preferably rectangular shaped holding frame 2 within a coordinate system axially parallel to the X coordinate extend, while its two shorter frame legs 4,4 'have an axially parallel position to the V coordinate take and the opening 5 limited by the frame legs, the holding frame 2 in the direction of Z coordinate interspersed.

Within the holding frame 2, in the area of the one short frame leg 4, there is a first screw gear arranged. It consists of an actuatable from outside the holding frame 2 and against axial movement secured adjusting screw 6 and an adjusting wedge 7. The screw shaft provided with a fine thread 8 is arranged at a small distance parallel to the short frame leg 4 of the holding frame 2 and it penetrates the adjusting wedge 7, which is provided with a corresponding threaded hole. The shaft end of the adjusting screw 6 is in a bearing bush 9 attached to the lower frame leg 3 '. The one for the short frame leg 4 directed end of the adjusting wedge 7 slides on actuation of the adjusting screw 6 so that it cannot rotate Inside 10 of the frame leg 4 along while its opposite end is in engagement with the inclined surface of a further wedge 11, the adjusting wedge 7 and the wedge 11 engaged with it form a first wedge gear.

The driven wedge 11 of the first wedge gear is part of one in the holding frame 2 in the direction of the .Y-coordinate displaceably arranged inner frame 12, which is also a rectangular configuration has and whose longer frame legs 13, 13 'play-free between the frame legs 3, 3' of the outer holding frame 2 are mounted. The one short frame leg 14 of the inner frame 12 carries the outside the driven wedge 11 of the first wedge gear, while on its inside 15 one of the first Helical gear in training, location and function of the same second helical gear is arranged. About the movability. of the inner frame 12 and the ensure that the second screw gear is operated from the outside as well, are for the latter Adjusting screw 16 and its bearing bushing 9 'sufficiently large elongated holes 17, 17' in the Legs 3, 3 'of the holding frame 2 are provided. The adjusting wedge 18 of the second screw gear is with its end facing away from the inside 15 of the short frame leg 14 with the inclined surface another wedge 19 in operative connection. The adjusting wedge 18 of the second screw gear and with Wedge 19 that is operatively connected to it form a second wedge gear.

The last-mentioned wedge 19 is designed as a sliding block, which is free of play between the longer Rahmenschenkelii 13, 13 'of the inner frame 12 is mounted is seen in the direction of the Z coordinate, the sliding block is roughly U-shaped and therefore with two upstanding legs 20, 21 are provided, of which one leg 20 on the outside with the adjusting wedge 18 of the second helical gear in operative connection. Inclined surface has In the other leg 21 of the sliding block are two .parallel to each other arranged guide pins 22, 22 'in \ Dn outside in the Leg 21 drilled recordings pressed in The guide pins 22,22 'each carry a compression spring 23,23', which penetrate the second short frame leg of the inner frame; 2 and are located on the inside 10 'of the Support the outer holding frame 2. The length of the guide pins 22, 22 'is such that their free Ends in each adjustment position still protrude from holes in the holding frame 2, which for this purpose in the short Frame legs 4 'are arranged.

In the case of the sliding block, the inside of the transverse web connecting the two legs 20, 21 forms an inclined sliding surface 24 which encloses a relatively small acute angle with the X coordinate. The spring-loaded light guide holder is supported on this sliding surface of the sliding block. The wedge 19, which is designed as a sliding block, and the light guide holder, which is also a wedge 25, form a third wedge gear, the driven wedge of the second wedge gear being at the same time the driving wedge of the third wedge gear.

The light guide holder is fixed by means of two guide pins 26 so that it is only in the direction of The V coordinate is movable. In order to ensure this, the guide pins 26 are arranged parallel to one another and firmly connected at one end to the upper frame leg 13 of the inner frame 12, while their free ends without play in corresponding fitting bores of the light guide holder protrude. On each of the guide pins 26 a compression spring 27 is mounted, which between the light guide holder and the upper leg of the inner frame 12 »are clamped. Between the two fitting holes the light guide holder also contains one that also extends in the direction of the V coordinate Threaded bore opening into a receptacle 28 penetrating the holder in the direction of the Z coordinate In the receptacle 28, the end of the optical fiber 30 glued into a sleeve 29, for example, is of one Grub screw 31 clamped.

The actuation of the adjustment device 1 must ensure a smooth and jolt-free movement of the individual Trigger gear parts. To ensure this, at least the surfaces rubbing against each other are the three described wedge gear 7, 11; 18, 19; 19, 25 polished. The adjusting wedges 7, 18 and the driven wedges 11, 19, 25 therefore generally consist of stainless steel

Metal, preferably made of stainless steel. The wedge arranged on the outside of the inner frame 12 11 can be made of plastic, however. / .. B. polyamide. For making the holding and the inner frame 2, 12 can, for example, relatively narrow strips made of stainless Sheet metal can be used.

2 shows a fastening part 32 connected to the adjustment device I. It contains a Receptacle 33 with housing 34 screwed into it, for example from a photo or laser diode. the One flat side of the adjustment device 1 rests directly on the fastening part 32 and is either through Screw your holding frame 2 directly connected to the fastening part or, as in FIG. 2 shown, by means of a bracket 35 placed over the other flat side of the adjustment device I, on the one hand is attached to the adjustment device I and the other hand a releasable connection to the fastening part 32 has.

The parts arranged within the holding frame 2 of the adjusting device 1, such as 7, B. the inner frame 12 or the sliding block 19, are thus guided between the surfaces of the fastening bracket 35 and the fastening part 32. In the fastening system described, the sleeve 29 containing the light guide protrudes laterally from the adjustment device I and ends according to the method shown in FIG. 2, roughly aligned, directly in front of the laser chip 36 embedded in the diode housing.

If the optical fiber 30 is now to be deflected in the direction of the A "coordinate, the im Holding frame 2 mounted adjusting screw 6 rotated counterclockwise, whereby your adjusting wedge 7 on the slides along the inclined surface of the adjacent wedge 11, thereby advancing the inner frame 12 causes and this including its then arranged Parts moved against the compression springs 23, 23 supported in the outer holding frame 2. Will the If the adjusting screw 6 is turned back, the adjusting wedge 7 again assumes its original starting position, with the tensioned compression springs 23, 23 ′ via the sliding block and adjusting wedge 18 equally / hastily also the inner frame 12 track.

In order to achieve a deflection of the optical fiber 30 in the direction of the V coordinate, the in the inner frame 12 mounted Sieli screw 16 actuated, whereby your adjusting wedge 18 the sliding block against the in Holding frame 2 supporting compression springs 23, 23 'moved. At the same time, the light guide holder from pushed up the inclined sliding surface 24 of the sliding block, whereby it is exactly in Direction of the V 'coordinate against the more strongly tensioning compression springs 27 is moved. When actuated the adjusting screw 16 in the opposite direction of rotation, in turn, take care of the outer ones Holding frame 2 supporting compression springs 23, 23 'for the fact that the wedge surface of the sliding block engages with it that of the adjusting wedge 18 retains. The compression springs 27 supported on the inner frame 12 have an effect at the same time, the functionally reliable lowering of the light guide holder.

The end of an optical fiber 30 glued into the sleeve 29 can thus be moved back and forth by means of one adjusting screw in the X direction and by means of the other adjusting screw 16 in the V direction, the center axis of the plane-ground optical fiber end face being shifted so that, for example, every point reached within an area of 4 mm ² . Of course, the movement resolution or the step-down of the rotary movement of the adjusting screws 6, 16 for advancing the optical fiber 30 is dependent on the thread pitch and the various angles of the wedge surfaces. With a suitable design, however, z. B. achieve a straight feed of 1μ in the X-direction and V'-direction by turning the adjusting screws 6, 16 by 12 °.

1 sheet of drawings

Claims (15)

1 claims: 1. Adjustment device for aligning the axis of an optical fiber to the "in the Z coordinate running axis of a complementary body by means of one of the -f-coordinate and the y-coordinate associated adjusting screw, characterized in that one of the adjusting screws (6) actuates a first wedge gear (7, 11) arranged within a holding frame (2), whose of an adjusting wedge (7) 'in ^ -direction driven wedge (11) part of a within the Holding frame (2) guided inner frame (12) which contains a second wedge gear (18,19) whose from the other adjusting screw (16) by means of an adjusting wedge (18) also driven in the Λ-direction Wedge (19) is part of a third wedge gear (19, 25), the driven wedge (25) of which the axially parallel contains optical fiber (30) fixed to the Z coordinate and that of the driving wedge (19) in K-direction is movable. 2. Adjusting device according to claim I, characterized in that the holding frame and the inner frame (2, 12) have a rectangular shape and that the inner frame (12) has no play between the longer frame legs (3.3 ') of the holding frame (2) is arranged. 3. Adjusting device according to one of claims 1 or 2, characterized in that the first Wedge gear (7, 11) actuating adjusting screw (6) in a small distance parallel to the inside (10) of the short Rahriiensche'nkels (4) from the outer holding frame (2) is stored. 4. Adjusting device according to one of claims 1 or 2, characterized in "that the second Wedge gear (18, 19) directly actuating adjusting screw (16) at a small distance parallel to the Inside (15) of the short frame leg (14) is supported by the inner frame (12). 5. Adjusting device according to one of claims 1 to 4, characterized in that both adjusting screws (6, 16) can be operated from the same side of the holding frame (2). 6. Adjustment device according to one of claims 1 to 5, characterized in that the adjusting wedge (7) of the first wedge gear driven wedge (11) the outside of the short frame leg (14) is arranged from the inner frame (12). 7. Adjustment device according to one of claims I. to 6, characterized in that the said second spline gear driven by the driving wedge so (18) wedge (19) is designed as a sliding block U-like shape, the two legs (20, 21) connecting cross-victory inside an acute angle to the longer frame members (3 'or 13') arranged sliding surface (24). 8. Adjusting device according to one of claims 1 to 7, characterized in that the sliding block is pressed resiliently against its driving wedge (18). 9. Adjusting device according to one of claims I to 8, characterized in that between the Inside (10 ') of the short holding frame leg (4') and the outside of the sliding block leg (21) at least one compression spring (23) mounted on a guide pin (22) is clamped. 10. Adjusting device according to one of claims I to 9, characterized in that the sliding surface (24) of the sliding block represents the driving wedge of the third wedge gear (19, 25), its as Light guide holder formed driven wedge (25) is pressed resiliently against the sliding surface (24) 11. Adjusting device according to one of claims 1 to 10, characterized in that the light guide holder is secured against displacement in the direction of the X coordinate by at least one guide pin (26) extending in the direction of the Y coordinate 12. Adjusting device according to one of claims 1 to 11, characterized in that the holding and the inner frame (2,12) and the individual parts (e.g. 7, 16, 19, 25) the screw and wedge gears are made of stainless metal. 13. Adjusting device according to one of claims 1 to 12, characterized in that the individual parts (e.g. 6, 18) the screw and wedge gears are made of stainless steel. 14. Adjusting device according to one of claims 1 to 13, characterized in that the driven Wedge (11) of the first wedge gear (7, 11) is made of plastic. 15. Adjusting device according to one of claims 1 to 14, characterized in that the one another the friction surfaces of the three wedge gears (7, 11; 18, 19; 19, 25) are polished.