NL1041893B1 - Coupling means and method for interconnecting optical conductors - Google Patents

Abstract

Coupling means for coupling optical conductors, comprising: a first part comprising a first connector; a second part comprising a second connector; and a third part comprising a first receiving space suitable for at least partially receiving the first connector and a second receiving space suitable for at least partially receiving the second connector, characterized in that: the first part also comprises: a first connecting member capable of being connected to the first connector; and a second connector adapted to be connected to the tube of the first optical conductor, the first connector and the second connector engaging each other in the mounted state such that the first connector is connected to the first optical conductor; the second part also comprises: a first connector adapted to be connected to the second connector; and a second connector adapted to be connected to the tube of the second optical conductor, the first connector and the second connector in the mounted state engaging each other such that the second connector is connected to the second optical conductor. Preferably, a first connecting member and a second connecting member, when mounted, engage with each other such that they are rotatably connected to each other. The connector in question can thus rotate with respect to the optical conductor in question and can thus be oriented with respect to the other connector and the third part. Also method for connecting such conductors.

Description

Coupling means and method for interconnecting optical conductors Field of the invention

The invention relates to coupling means for mutually coupling a first optical conductor and a second optical conductor, each optical conductor comprising a jacket and a tube, the coupling means comprising: a first part comprising a first connector; a second part comprising a second connector; and a third part comprising a first receiving space suitable for at least partially receiving the first connector and a second receiving space suitable for receiving at least partially the second connector.

The invention also relates to a method for mutually coupling such conductors by means of such coupling means.

These are optical conductors, each comprising a tube with one or more glass fibers incorporated therein, wherein each glass fiber can again comprise a core, a cladding, and a primary coating enclosed by a jacket. All this as usual.

BACKGROUND OF THE INVENTION

It is known to couple said optical conductors, wherein use is made of connectors and a third part comprising receiving spaces suitable for at least partially receiving the connectors. The connectors can be attached on-site or off-site to the ends of the optical conductors.

To make the coupling, the connectors must be correctly oriented with respect to each other and the third part. This can be done by rotating at least one of the connectors about the longitudinal axis. However, this is difficult or even impossible in certain situations because the angle over which can be rotated is limited by the angle through which a given length of an optical conductor can be twisted without damage or breakage of the glass fiber or glass fibers.

Furthermore, the coupling must be sufficiently strong and adequately protected against moisture and dirt, which is of particular importance when it concerns an underground coupling.

The present invention now provides a solution for this.

Summary of the invention

The invention provides coupling means according to claim 1 and a method according to claim 12. By "coupling" and "connecting" is meant in the context of the invention always "optical and mechanical coupling" or "mechanical connecting". The optical conductors can thus be mutually coupled.

Preferably, a first connecting member and a second connecting member, when mounted, engage with each other such that they are rotatably connected to each other. The connector in question can thus rotate with respect to the optical conductor in question and can thus be oriented with respect to the other connector and the third part. More preferably, the angle over which a first connecting member and a second connecting member can be rotated relative to each other is limited. To this end, a first connecting member and a second connecting member can be provided with mutually cooperating cams. For example, the angle over which the optical guide in question can be twisted is limited, which is desirable to prevent damage and breakage of the glass fiber or glass fibers.

In a preferred embodiment, a first second connecting member, when mounted, grips tightly on the outside of an end of a tube. In this case, a second second connecting member, in the mounted state, can grip clampingly on the inside of an end of the tube. In this way a durable connection between a connector and an optical conductor can be realized.

The coupling means preferably also comprise a fourth part which comprises at least one first containment member which in mounted condition encloses and connects at least partly the first part, the second part and the third part. The first part, the second part and the third part are thus held together and protected in a coupled state. The fourth part preferably also comprises a first sealing member which, in the mounted state, extends between an enclosure member and an optical conductor and is suitable for forming a seal between the enclosure member and the optical conductor. The coupling means herein preferably also comprise enclosing means, more preferably a heat shrink tubing, suitable for enclosing the first part, the second part, the third part and the fourth part or the enclosing members in the mounted state. In this way the whole is held together and a very good protection against moisture and dirt is formed.

Preferably the coupling means also comprise a second sealing member which, in the mounted state, extends into the space between a casing and a tube and is suitable for forming a seal between the casing and the tube.

Brief description of the drawings

The invention is explained in more detail below with reference to exemplary embodiments. In the drawings: figure 1 shows a cross-section of a first part of coupling means according to the invention comprising a first connector, - figure 2 a perspective view of two parts thereof, and - figure 3 a perspective view of the first part; figure 4 shows a cross-section of a second part of coupling means according to the invention comprising a second connector; figure 5 shows a cross section of coupling means according to the invention in mounted condition; figure 6 the construction of the first part; and - figure 7 the construction of the second part.

Embodiments

The coupling means (I) shown in the drawings are suitable for mutually coupling a first optical conductor (2) and a second optical conductor (3). In the example given, each optical conductor (2; 3) comprises a glass fiber comprising a core (21; 3I), a cladding (22; 32) and a primary coating (23; 33) enclosed by a sheath (24; 34) and a tube (25; 35). In another embodiment, however, an optical conductor can also comprise two or more glass fibers. The coupling means (1) comprise a first part (4) comprising a first connector (44), a second part (5) comprising a second connector (54) and a third part (6) comprising a first receiving space (61) suitable for at least partially receiving the first connector (44) and a second receiving space (62) suitable for at least partially receiving the second connector (54). All this as usual.

According to the invention, the first part (4) also comprises a first connecting member (41) adapted to be connected to the first connector (44), a first second connecting member (42) adapted to be clamp-tightly connected to the outside of the tube (25) of the first optical conductor (2), and a second second connector (43) adapted to be clamp-tightly connected to the inside of the tube (25) of the first optical conductor (2). The first connection member (41) and the second connection members (42, 43) herein engage with each other in such a way that the first connector (44) and the first optical conductor (2) are rotatably connected to each other. The angle at which rotation is possible is thereby limited by cams (411; 431), in the given example arranged on the first connecting member (41) and the second second connecting member (43), but the cams can, for example, also be mounted on the first connecting member ( 41) and the first second connecting member (42) are provided. This prevents the optical conductor (2) or the fiber optic from being damaged or breaking during the rotation of the connector. In the given example (1), the second part (5) comprising the second connector (54) is constructed in the same way as the first part (4).

The coupling means (I) also comprise a fourth part (7) which comprises two containment members (71,72) which, when mounted, enclose and connect the first part (4), the second part (5) and the third part (6). In the example given there are two containment members (71.72), but in another embodiment, there may also be three. The fourth part (7) here also comprises two first sealing members (73,74), a first first sealing member (73) forming a seal between the containment members (71,72) and the first optical guide (2) or the jacket (25) ) thereof, and a second first sealing member (74) forms a seal between the containment members (71,72) and the second optical guide (3) or the jacket (35) thereof.

The coupling means (I) also comprise enclosing means (8), here a heat-shrink tubing (81), namely a cold-shrink tubing, for enclosing the first part (4), the second part (5), the third part (7) and the fourth part (7). In this way the whole is held together in coupled condition and protected against damage and external influences such as moisture and dirt. The coupling means (1) here also comprise a second sealing member (9) which, in the vicinity of the second first sealing member (74), extends in the space between the jacket (34) and the tube (35) of the second optical conductor (3) and forms a seal between them. In the given example there is only a single second sealing member (9), but, for example, depending on the situation, a second sealing member may also be provided in the vicinity of the first first sealing member (73) in another embodiment.

Proceed as follows when coupling the two optical conductors (2, 3). The first connector (44) is attached to the first optical conductor (2), as shown in Figure 6. The first connector (44) here is a standard SC snap-in connector consisting of three connector parts (441,442,443). The first connector (41) is attached to the first connector part (441) with the help of a crimping tool. The first second connector (42) is slid over the end of the tube (25) of the first optical guide (2) and attached, again with the help of a crimping tool. The second second connecting member (43) is slid into the tube. The second connector (54) is attached to the second optical conductor (3) in the same way, as shown in Figure 7. The second sealing member (9) is now also connected in the space between the casing (34) and the tube ( 35) slid where it forms a seal between the jacket (34) and the tube (35).

Next, the two connectors (44; 54) are inserted into the two receiving spaces (6l; 62) provided in the third part (6), as shown in Figure 5. Thereby, the connectors (44,54) and the third part (6) ) are correctly oriented relative to each other by rotating one or both of the connectors (44; 54) relative to the optical conductors (2; 3). In the given example, the angle at which a connector (44; 54) can rotate relative to an optical conductor (2; 3) is limited to approximately 270 °, (more than) sufficient to cover the connectors (44,54) during coupling being able to orientate correctly, and also sufficiently limited to prevent damage and breakage.

The first containment member (71) and the second containment member (72) are then arranged. A first sealing member (73; 74) is thereby arranged on each side between the containment members (71,72) and the optical guide (2; 3) concerned. Finally, the whole is enclosed by a heat shrink (81). A strong coupling can thus be achieved which is well held together and is protected against damage and external influences such as moisture and dirt.

It will be clear that the invention is not limited to the exemplary embodiments given, but that all kinds of variants which are obvious to a person skilled in the art are possible within the scope of the invention. For example, it is possible that only one of the connectors is rotatably connected to an optical conductor, or that a second closing member is provided on both sides. The optical conductors can also in principle comprise several glass fibers.

Reference numbers used 1 coupling means 2 first optical conductor 21 core 22 cladding 23 primary coating 24 jacket 25 tube 3 second optical conductor 31 core 32 cladding 33 primary coating 34 jacket 35 tube 4 first part 41 first connecting member 41I cam 42 (first) second connecting member 43 (second) second connector 431 cam 44 first connector 441 first connector member 442 second connector member 443 third connector member 5 second member 51 first connector 511 cam 52 (first) second connector 53 (second) second connector 531 cam 54 second connector 541 first connector member 542 second connector part 543 third connector part 6 third part 61 first receiving space 62 second receiving space 7 fourth part 71 first containment member 72 second containment member 73 (first) first sealing member 74 (second) first sealing member 8 enclosing means 81 heat shrink 9 second sealing member

Claims (22)

A coupling means (I) for mutually coupling a first optical conductor (2) and a second optical conductor (3), each optical conductor (2; 3) comprising a jacket (24; 34) and a tube (25; 35) ), the coupling means (1) comprising: - a first part (4) comprising a first connector (44); - a second part (5) comprising a second connector (54); and - a third part (6) comprising a first receiving space (61) suitable for at least partially receiving the first connector (44) and a second receiving space (62) suitable for at least partially receiving the second connector (54) characterized in that: the first part (4) also comprises: a first connector (41) adapted to be connected to the first connector (44); and a second connector (42.43) adapted to be connected to the tube (25) of the first optical conductor (2), the first connector (41) and the second connector (42.43) being mounted in such a way as to engaging each other that the first connector (44) is connected to the first optical conductor (2); the second part (5) also comprises: a first connector (51) adapted to be connected to the second connector (54); and a second connector (52.53) adapted to be connected to the tube (35) of the second optical guide (3), the first connector (51) and the second connector (52.53) being mounted in such a way that mutually engage that the second connector (54) is connected to the second optical conductor (3). Coupling means according to claim 1, characterized in that a first connecting member (41; 51) and a second connecting member (42,43; 52,53) engage each other in the mounted state such that they are rotatably connected to each other. 3. Coupling means as claimed in claim 2, characterized in that the angle over which a first connecting member (41; 51) and a second connecting member (42,43; 52,53) are rotatable to one another is limited. 4. Ladling means according to claim 3, characterized in that a first connecting member (41; 51) and a second connecting member (43; 53) are provided with mutually cooperating cams (411,431; 511,531). Coupling means according to one of the preceding claims, characterized in that, in the mounted state, a first second connecting member (42; 52) grips firmly on the outside of an end of a tube (2; 3). Coupling means according to one of the preceding claims, characterized in that a second second connecting member (43; 53), when mounted, grips clampingly on the inside of an end of the tube (2; 3). Ladling means according to one of the preceding claims, characterized in that the ladling means also comprise a fourth part (7), which fourth part (7) comprises at least one first containment member (71,72) which, when mounted, the first part (4) ), the second part (5) and the third part (6) at least partially enclose and connect. 8. Ladling means according to claim 7, characterized in that the fourth part (7) also comprises a first sealing member (73,74) which, in the mounted state, extends between an enclosing member (7I; 72) and an optical guide (2; 3) ) and is suitable for forming a seal between the containment member (7I; 72) and the optical guide (2; 3). 9. Boiling means according to claim 7 or 8, characterized in that the boiling means also comprise enclosing means (8) suitable for enclosing the first part (4), the second part (5), the third part (6) in the mounted state and the fourth part (7). Coupling means according to claim 9, characterized in that the enclosing means comprise a shrink sleeve (81). Coupling means according to one of the preceding claims, characterized in that the coupling means also comprise a second sealing member (9) which, in the mounted state, extends into the space between a casing (34) and a tube (35) and is suitable for forming a seal between the jacket (34) and the tube (35). 12. Method for interconnecting a first optical conductor (2) and a second optical conductor (3), each optical conductor (2; 3) comprising a jacket (24; 34) and a tube (25; 35) by coupling means (1) provided for this purpose comprising: - a first part (4) comprising a first connector (44); - a second part (5) comprising a second connector (54); and - a third part (6) comprising a first receiving space (61) suitable for at least partially receiving the first connector and a second receiving space (62) suitable for at least partially receiving the second connector, characterized in that : a first connector (41) provided for this purpose is connected to the first connector (44); and a second connector (42.43) provided for this purpose is connected to the tube (25) of the first optical guide (2), the first connector (41) and the second connector (42.43) being engaged with each other that the first connector (44) is connected to the first optical conductor (2); and a first connector (51) provided for this purpose is connected to the second connector (54); and a second connection member (52,53) provided for this purpose is connected to the tube (35) of the second optical guide (3), the first connection member (51) and the second connection member (52,53) being engaged on each other in such a way that the second connector (54) is connected to the second optical conductor (3). A method according to claim 12, characterized in that a first connecting member (41; 51) and a second connecting member (42,43; 52,53) are allowed to engage with each other such that they are rotatably connected to each other. A method according to claim 13, characterized in that the angle through which a first connecting member (41; 51) and a second connecting member (42,43; 52,53) are rotatable to one another is limited. Method according to claim 14, characterized in that a first connecting member (41; 51) and a second connecting member (43; 53) are provided with mutually cooperating cams (41, 43, 511, 531). A method according to any one of claims 12-15, characterized in that a first second connecting member (42; 52) is gripped firmly on the outside of an end of a tube (2; 3). A method according to any one of claims 12-16, characterized in that a second second connecting member (43; 53) is gripped firmly on the inside of an end of the tube (2; 3). A method according to any one of claims 12-17, characterized in that at least one first containment member (71,72) provided for this purpose is also the first part (4), the second part (5) and the third part (6) at least partially embedded and connected. A method according to claim 18, characterized in that a first sealing member (73,74) provided for this purpose is also extended between an enclosing member (71,72) and an optical guide (2; 3) and a seal is formed between the containment member (71,72) and the optical guide (2; 3). A method according to claim 18 or 19, characterized in that enclosing means (8) provided for this purpose are also the first part (4), the second part (5), the third part (6) and the at least one containment member (71) , 72). Method according to claim 20, characterized in that a shrink sleeve (81) is used for the enclosing means (8). A method according to any one of claims 12-21, characterized in that a second sealing member (9) provided for this purpose is also extended into the space between a casing (34) and a tube (35) and a seal is formed between the jacket (34) and the tube (35).