DE19913449A1 - Optical plug connector for connecting two optical waveguides to one another or an optical waveguide to another with plug-socket connection, using spring element around waveguide in recess allowing longitudinal extension of spring - Google Patents

Abstract

The spring element (11) is fixed in the axial direction of the plug-socket connection unit (1) supporting at abutment (15) to provide necessary contact pressure as well as to hold the surrounding section (13) of the optical waveguide (2) held in the sleeve (5). A device meshing with the encasement (22) of the optical waveguide forms a positive connection effective in the axial direction between holding section (12) and encasement. The spring element is a flat band spring, with holding section (13) formed in meander shape that can be compressed against the spring in a U-shaped recess (20) for receiving the optical waveguide with its encasement. The recess has a funnel-shaped insertion inlet. Spring chamber is sub-divided into contact pressure chamber (9) and holding chamber (10). A snap-in catch (16) on the spring element meshes with a stop recess (17) of plug housing (3).

Description

The invention relates to an optical connector for example way to connect two optical fibers. In particular, the Invention an optical connector for connecting a Lichtwel lenleiters with another optical fiber comprising a connector manure part with a connector housing and with one in the connector housing se movable against the force of a spring element in the axial direction arranged sleeve for grasping the free end of the to be connected Optical fiber, through which spring element the front of the light waveguide with pressure against the end face of the further optical waveguide is pushed into the plugged connector.

Optical connectors are needed to, for example, two lights to connect waveguides with each other or also around an optical waveguide ter can be connected to an optoelectronic converter. With egg When connecting two optical fibers, make sure that that the coupling-in or coupling-out ends of the conductors to be connected adjacent to each other to prevent unintentional decoupling to avoid transmitting light waves. It must also be ensured that that this arrangement is maintained during the operation of the optical waveguide. Such an optical connector is known from DE 197 29 978 A1 knows. This connector includes a connector part with a Connector housing in which a sleeve rests against the force of a coil spring is arranged in the axial direction. The sleeve is used to grasp the free  End of the one optical waveguide, with its free end in one the sleeve is glued axially through the optical waveguide channel. As Another connector part, this connector includes a cylinder cal trained further sleeve for receiving the free end of the their optical fiber. To connect the two connectors parts, a bayonet connection is provided, the connector manure part with the movable sleeve as a sleeve and the other sleeve as Plug part are formed with a radially projecting bayonet cam. The plug part is inserted against the force of the other Ren plug connector used coil spring, so that by the se both the bayonet lock is maintained and likewise the two axially aligned optical fibers which are kept under a certain contact pressure.

So that the actual fiber optic body are arranged in their intended contact to each other, the light-guiding body itself must be glued into the sleeves. Is to it is necessary to end the optical waveguide from its sheathing to free. The length of the end of such a sleeve Optical fiber must be dimensioned long enough for one to be off sufficient bonding area to create the desired material key connection is provided. Is the set length of the end cut of the fiber optic cable too short, can only small on a sol Chen tensile stresses attacking optical fibers the.

An additional jamming of the optical fiber in an umman section, such as electrical connectors possible, is not desirable since the optical fiber is sensitive to pressure.

The invention lies on the basis of this prior art discussed therefore the task of an optical plug mentioned above connector for connecting one optical fiber to another To further develop optical waveguides such that a simple improved fixation of the optical fiber in a connector part is possible.  

This object is achieved in that the Federele ment an acting in the axial direction of the connector part, itself on an abutment supporting pressure section for providing of the required pressure force and a holding section which at least partially surrounds the optical waveguide contained in the sleeve and which comprises means engaging in the cladding of the optical waveguide, so that by these means acting in the axial direction positive ge connection between the holding portion and the casing of the Optical fiber can be produced.

According to the invention in a connector part of such an opti rule connector used a spring element, which both ei NEN pressure acting in the axial direction of the connector part cut with which be on the front contact surface of the light guide necessary pressing force is provided and includes a holding section, is the part of the spring element and carries means that are in the casing of the optical fiber. By in the casing of the Optical waveguide engaging means is one in the axial direction of the Plug connection part acting positive connection between the holding section and the cladding of the optical fiber bar. This dual function intended for the spring element allows the loading provision of a plug that is simply designed with regard to its structure connecting part, in the sleeve only a short of the casing exempted section of the optical fiber is bordered. The socket connection dung can be done for example by gluing. Beyond that ensures that when attacking a greater tension on the in the connector part used fiber optic pulling out of in the sleeve, for example by an adhesive bordered section is prevented.

The spring element with the pressure section and is expedient the holding section constructed such that the holding section back tig borders on the sleeve, and that the holding portion is made of the same material continues in the pressure section. Such a spring element can be made from a spring band, for example, the pressure of which cut meandering and thus like an accordion can be pushed together. In such an embodiment, the length is extension of the spring element following a recess in this  brings, so that the spring element at least partially the optical fiber surrounds it. It is provided that the recess of the Federele dimensions in the area of its pressure section sufficiently large is that the optical waveguide is movable longitudinally axially therein. In contrast, at least one section is provided in the holding section which the clear width of the recess for receiving the Lichtwellenlei ters is slightly smaller than the outer diameter of the Lichtwellenlei ters including its casing. When putting together Optical waveguide and spring element intersect this section forming leg slightly in the sheath of the optical fiber a, so that we in the longitudinal extension of the optical waveguide a positive connection between these two elements given is. It is advantageous if the holding section to the free end of the optical waveguide bordering sleeve, because then on the Sleeve and thus contact pressure acting on the fiber optic cable assembled connector through the holding portion of the spring lementes is caught.

To accommodate such a spring element in the connector part can be provided a spring chamber at the rear end of the To form sleeve, the spring chamber expediently in a Pressure chamber and a holding chamber is divided. The subdivision can be formed by a web, wherein in the pressure chamber Pressure section and in the holding chamber of the holding section of the spring element are arranged.

In a further development of this spring element it is provided that this at its one free end a protrusion formed like a nose gender section is arranged, the assembled plug connecting part engages in a locking recess of the connector housing. Through this clamping section of the spring element is the rearward shift amount of the sleeve in the connector housing be limitable, since the clamping section with the plug housing se associated stop is provided cooperatively. About that In addition, the bracket portion can be used to create a he most secure assembly position of the connector part, namely that Insert the sleeve with the optical fiber and the spring into it Connector housing. Only after this insertion is a rear ver  end piece as a cable outlet for closing the connector housing attached like a clip to the connector housing.

The connector according to the invention can have one or two of these Have connector parts. It is advisable to use two such connector parts to create an optical connector connector. The fiber optic cables held in the connector parts ter can by the sliding arrangement in the respective connector housing can also be moved to a certain amount when the connector housings are fixed. This may be necessary, for example to compensate for thermal changes in length.

Further refinements of the invention are part of further Un claims and the following description of a preferred Embodiment of the invention with reference to the beige added figures. Show it:

Fig. 1 shows a longitudinal section through a plug connector part of a connector op tables,

Fig. 2 in a three-dimensional view of the spring member of the connector part of Fig. 1,

Fig. 3 shows an optical connector using two identical connector parts according to FIG. 1 in a sectional plan view and

Fig. 4 shows the optical connector of Fig. 3 in a lateral longitudinal section.

A connector part 1 of an optical connector is used to establish a connection between a first optical fiber 2 and a further optical fiber. The plug connection part 1 consists of a plug housing 3 , in which an insert 4 arranged movably in the axial direction of the plug connection part 1 is arranged. The insert 4 comprises a sleeve 5 for bordering the free end of the Lichtwel lenleiters 2nd The bordering sleeve 5 is of stepped design, a front section having a through-channel 6 having a smaller diameter and a rear section having a through-channel 6 'having a larger diameter. The through channel 6 serves to surround the end of the optical waveguide 2 which has been stripped of its sheathing; In the through channel 6 , the optical fiber with the first sheathed section is used. In the socket 5 , the free end of the Lichtwel lenleiters 2 is held by an adhesive bond. The set 4 also includes a spring chamber 7 , which is divided by a web 8 into a pressure chamber 9 and a holding chamber 10 . The web 8 has a U-shaped receptacle on the upper side, into which the optical waveguide 2 is inserted.

In the insert 4 , a spring element 11 is arranged, which is made of spring steel. The spring element 11 itself is divided into a pressure section 12 and a holding section 13 . At the pressure section 12 of the spring element 11 is formed by a meandering configuration of the spring element 11 , so that the Federele element 11 in the region of its pressure section 12 is accordion-like compressible against the spring force. The rear free end 14 of the spring element 11 is supported on a closure piece 15 serving as a line outlet. The spring element 11 also includes a Ver bracket portion 16 which engages in the composite connector part 1 in a recess 17 of the connector housing 3 . This free end 18 of the spring element 11 serves to limit the rearward displacement amount of the insert 4 on a stop surface 19 assigned to the plug housing 3 .

As can be seen in FIG. 2, a recess 20 is made in the spring element 11 , into which the optical waveguide 2 can be inserted. The optical waveguide 2 inserted into the recess 20 of the spring element 11 is then surrounded on the top and on the side by the spring element 11 . The clear width of the recess 20 in the region of the pressure section 12 is slightly larger than the outer diameter of the optical waveguide 2 including its sheathing. With a movement in the axial direction Rich the pressure section 12 of the spring element 11 , these spring element sections can move relative to the enclosed light wave conductor 2 . The recess 20 in the region of the holding section, on the other hand, is slightly smaller than the outer diameter of the optical waveguide 2, including its sheath, with respect to its internal width. The inside width of this section of the recess 20 is larger than the actual light guide body, so that the Ausneh tion 20 in the region of the holding portion 13 forming leg S of the spring element 11 with their sides facing the recess 20 act as cutting edges, which are in the casing cut the optical fiber 2 . The recess 20 is funnel-shaped in the region of the holding portion 13 towards its opening, so that a sliding of the spring element 11 onto an inserted in an insert 4 light waveguide 2 leads to a centering of the optical waveguide 2 in the Ausneh line 20 and thus a with respect to Cutting depth symmetrical cutting into the sheathing takes place through the legs S.

An optical connector 21 created from two identical plug connection parts 1 , 1 'is shown in FIG. 3. A connector 1 , 1 'is designed to connect two optical fibers 2 , 2 ', so that two inserts 4 are provided in each connector part 1 , 1 '. From the sectional plan view, it is clear that the leg S of the spring element 11 have cut into the casing 22 of each optical waveguide 2 , 2 'in a plug connection part 1 , 1 '. It becomes clear that the sheathing 22 has not been severed in order to achieve the desired fixing of the optical waveguides 2 , 2 'in the axial direction.

The two connector parts 1 , 1 'are held by a coupling sleeve 23 in their connected position to each other, this connec tion is done by clipping the two connector parts 1 , 1 ' into the coupling sleeve 23 .

From the connector 21 facing in a longitudinal section, Fig. 4 is evident in a comparison with the example shown in Fig. 1 plug connector part 1 so that the pressing portion 12 of the spring element 11 in the mounted position, compressed against that shown in Fig. 1 Stel is lung. The amount of displacement of the insert 4 is limited by the interlocking section 16 of the spring element 11 . Fig. 4 shows the one with the connector parts 1 in an arrangement in which the two inserts 4 , 4 'with their clamping sections 16 , 16 ' still allow a certain amount of displacement. This is useful in order to compensate for example thermally induced tensile stresses in the Lichtwellenlei tern 2 , 2 ', so that in this arrangement the light waveguide 2 , 2 ' are held floating in the two connector parts 1 , 1 '.

Compilation of the reference symbols

1

,

1

'' Connector part

2nd

,

2nd

' Optical fiber

3rd

Connector housing

4th

,

4th

' Commitment

5

Socket sleeve

6

,

6

'Through channel

7

Spring chamber

8th

web

9

Pressure chamber

10th

Holding chamber

11

Spring element

12th

Pressure section

13

Holding section

14

Rear free end of the spring element

15

Closure piece

16

,

16

'Parenting section

17th

Notch

18th

Another free end of the spring element

19th

Stop surface on the connector housing

20th

Recess

21

Optical connector

22

Sheath of the optical fiber

23

Coupling sleeve
S thigh

Claims (10)

1. Optical connector for connecting an optical fiber ( 2 ) to a further optical fiber ( 2 ') comprising a plug connection part ( 1 , 1 ') with a connector housing ( 3 ) and with one in the connector housing ( 3 ) against the force of a spring element ( 11 ) sleeve ( 5 ) movably arranged in the axial direction for grasping the free end of the optical waveguide ( 2 , 2 ') to be connected, by means of which spring element ( 11 ) the end face of the light waveguide ( 2 ) with pressure against the end face of the further light waveguide ( 2 ') in the plug-in connector ( 21 ) is pressed, characterized in that the spring element ( 11 ) acts in an axial direction of the plug-in connection part ( 1 , 1 '), which is supported on an abutment ( 15 ) by pressing section ( 12 ) comprising providing the required pressing force and a holding portion (13) of the at least partially the decision taken in the sleeve (5) optical waveguide (2, 2 ') surrounds and which engages in the sheathing ( 22 ) of the optical waveguide ( 2 , 2 ') engaging means (S), so that these means (S) act in the axial direction with a positive connection between the holding section ( 12 ) and the Sheath ( 22 ) of the optical waveguide ( 2 , 2 ') is adjustable. 2. Connector according to claim 1, characterized in that the spring element ( 11 ) is a flat ribbon spring, the Andruckab section ( 12 ) is meandering, so that it can be compressed like an accordion against the spring force, and in the U-shaped recess ( 20th ) for receiving the optical waveguide ( 2 , 2 ') with its sheathing ( 22 ) is introduced, the clear width of the recess ( 20 ) being slightly larger than the outer diameter of the optical waveguide ( 2 , 2 ') including its sheathing ( 22 ) is. 3. Connector according to claim 1 or 2, characterized in that the holding section ( 12 ) of the spring element ( 11 ) has at least one leg (S) which is arranged in a plane transverse to the longitudinal axis of the optical waveguide ( 2 , 2 ') and in which a recess ( 20 ) is made, the inside width of which is less than the outside diameter of the optical waveguide ( 2 , 2 ') including its sheath ( 22 ), but larger than the outside diameter of the actual light guide body. 4. Connector according to claim 3, characterized in that the recess ( 20 ) has a funnel-shaped insertion opening. 5. Connector according to one of claims 1 to 5, characterized in that on the sleeve ( 5 ) for gripping the free end of the optical waveguide ( 2 , 2 '), a spring chamber ( 7 ) for receiving the spring element ( 11 ) is formed. 6. Connector according to claim 5, characterized in that the spring chamber ( 7 ) in a by a web ( 8 ) separated to pressure chamber ( 9 ) and a holding chamber ( 10 ) is divided, the pressure section ( 12 ) in the pressure chamber ( 9 ) ) and in the holding chamber ( 10 ) of the holding section ( 13 ) of the spring element ( 11 ) are arranged. 7. Connector according to one of claims 1 to 6, characterized in that the spring element ( 11 ) comprises a detent-like section ( 16 ) which in the assembled connector part ( 1 , 1 ') in a detent recess ( 17 ) of the connector housing ( 3 ) engages and through which the rearward ge shift amount of the sleeve ( 5 ) in the connector housing ( 3 ) is limited. 8. Connector according to claim 7, characterized in that the detent-like section ( 16 ) of the spring element ( 11 ) on the holding section ( 12 ) is integrally formed. 9. Connector according to one of claims 1 to 8, characterized in that the connector ( 1 ) has a further, with the first connector part ( 1 ) identical connector part ( 1 ) and one of the two connector parts ( 1 , 1 ') connecting coupling sleeve ( 23 ) are assigned. 10. Connector according to claim 9, characterized in that the two connector parts ( 1 , 1 ') for creating the connector ( 21 ) in the coupling sleeve ( 23 ) can be clipped.