CN203881973U - Loose sleeve fiber optic cable fiber optic field event connector - Google Patents

Abstract

The utility model discloses a loose cover optical cable optic fibre on-spot connector, its structure includes shell 1, contact pin subassembly 2, spring 3, endotheca 4, mounting 5, tail cover 6, soft tail 7, loose cover optical cable 8, and wherein shell 1 cover is on contact pin subassembly 2's head end, and contact pin subassembly 2 and endotheca 4 are spring 3 within a definite time, and endotheca 4 passes through mounting 5 and connects the one end of tail cover 6, and the one end of soft tail 7 is connected to the other end of tail cover 6, and loose cover optical cable 8 is connected to the other end of soft tail 7. The advantages are that: the optical fiber and the inner sheath of the loose optical cable are simultaneously fastened on the contact pin assembly, when the connector is coupled, the contact pin assembly is stressed to axially retract, and the optical fiber and the inner sheath in the loose optical cable also retract along with the contact pin assembly, so that the optical fiber cannot be bent in the connector, and optical signal loss caused by bending of the optical fiber is avoided; the outer sheath and the reinforcing piece of the loose optical cable are fastened on the inner sheath to bear the tensile force of the optical cable, so that the direct stress of the contact pin assembly and the generation of a gap on the butt joint end face are avoided, and finally the low-loss connection of the optical fiber connector is realized.

Description

Loosely shielded optical cable optical fiber field flexible jumper

Technical field

The utility model relates to a kind of loosely shielded optical cable optical fiber field flexible jumper.Belong to technical field of optical fiber communication.

Background technology

Along with Fibre Optical Communication Technology development, optical fiber cable and the field connector of supporting application present variation, and optical fiber cable, except the butterfly optical cable that conventional fiber is applied to family, has occurred that diameter is the circular leading in cable of 2.5mm and 3mm.Field connector is also applied toward machine room from user terminal gradually, and the use of field connector efficiently solves the space hold of redundancy inside cable to machine room ODF distributing frame, has improved the optical fiber cabling of existing machine room confusion.What machine room used mostly is the indoor ordinary optical cable that diameter is 2mm and 3mm, with Fiber to the home use circular leading in cable are all loosely shielded optical cables, be optical fiber hard-pressed bale in inner sheath, inner sheath, reinforcement and oversheath right and wrong are close-connected, inner sheath is can be in oversheath movable.At present, existing field connector is for this tight sleeve optic cable design of butterfly optical cable, if be directly used in loosely shielded optical cable, can there are following two kinds of problems: the first is to put in field connector tail cover is fastened on optical fiber, reinforcement, inner sheath and oversheath simultaneously, connector is in coupling process, internal optical fiber is with the axial rollback of contact pin component, can be bending in the inner generation of connector, what the indoor single core optical cable using due to machine room adopted mostly is G652D type optical fiber, bending responsive, loss of optical signal is serious; The second is that field connector tail cover is fastened on optical fiber, reinforcement, inner sheath and oversheath on contact pin component simultaneously, connector is in coupling process, in the time of the axial rollback of contact pin, loosely shielded optical cable also retreats thereupon, and internal optical fiber can not produce bending, has avoided even opening circuit because of the loss of optical signal that fibre-optical bending causes, but such connector is in the time of optical cable tension, contact pin component retreats thereupon, and the contact pin end face being connected with opposite end produces gap, causes loss of optical signal.

Summary of the invention

The utility model proposes a kind of loosely shielded optical cable optical fiber field flexible jumper, its object is intended to overcome the existing above-mentioned defect of existing field connector, be applicable to the loosely shielded optical cables such as general room optical cable and circular leading in cable, can make optical fiber and inner sheath can follow contact pin component in loosely shielded optical cable inter-sync axially-movable, avoid fibre-optical bending; Reinforcement in loosely shielded optical cable and oversheath put in being fastened on simultaneously, bear optical cable pulling force.

Technical solution of the present utility model: it is characterized in that comprising shell, contact pin component, spring, inner sleeve, fixture, tail cover, soft tail, loosely shielded optical cable, wherein casing is on the head end of contact pin component, contact pin component and interior inner room are springs, inner sleeve connects one end of tail cover by fixture, the other end of tail cover connects one end of soft tail, and the other end of soft tail connects loosely shielded optical cable.

Advantage of the present utility model: the optical fiber of loosely shielded optical cable and inner sheath are fastened on contact pin component simultaneously, in the time that connector is coupled, the stressed axial rollback of contact pin component, optical fiber and inner sheath in loosely shielded optical cable also retreat thereupon, optical fiber can not produce bending in connector inside like this, has avoided the loss of optical signal causing because of fibre-optical bending; In the oversheath of loosely shielded optical cable and reinforcement are fastened on, put, bear optical cable pulling force, avoid contact pin component directly stressed with dock end face generation gap, finally realize the low damage connection of the joints of optical fibre.

Brief description of the drawings

Accompanying drawing 1 is the perspective exploded view of loosely shielded optical cable optical fiber field flexible jumper.

Accompanying drawing 2 is cross-sectional view of Fig. 1.

Accompanying drawing 3 is inner sleeve afterbody ledge structure schematic diagram fixing with contact pin component.

Accompanying drawing 4 is cable outer sheath and reinforcement crimping fastening structure schematic diagram of loosely shielded optical cable optical fiber field flexible jumper.

In figure 1 is shell, the 2nd, contact pin component, the 3rd, spring, the 4th, inner sleeve, the 5th, fixture, the 6th, tail cover, the 7th, soft tail, the 8th, loosely shielded optical cable.

Embodiment

Below in conjunction with further illustrating technical solution of the present utility model:

Contrast accompanying drawing 1, 2, 3, loosely shielded optical cable optical fiber field flexible jumper, its structure comprises shell 1, contact pin component 2, spring 3, inner sleeve 4, fixture 5, tail cover 6, soft tail 7, loosely shielded optical cable 8, its housing 1 is enclosed within on the head end of contact pin component 2, A cylinder 2-1 is housed on the tail end of contact pin component 2 successively, ring-shaped step 2-2, between the ring-shaped step 2-2 on contact pin component 2 tail ends and inner sleeve 4, are springs 3, inner sleeve 4 connects one end of tail cover 6 by fixture 5, the other end of tail cover 6 connects one end of soft tail 7, the other end of soft tail 7 connects the optical fiber 8-1 on loosely shielded optical cable 8, the upper cover of optical fiber 8-1 on loosely shielded optical cable 8 has inner sheath 8-2, the upper cover of inner sheath 8-2 has oversheath 8-3, between described inner sheath 8-2 and oversheath 8-3, be optical cable reinforcement 8-4, on the afterbody of described inner sleeve 4, there is step 4-1, B cylinder.

The optical fiber that described contact pin component contains is connected and fixed device, optical fiber and inner sheath can be aimed at simultaneously fixingly, and in loosely shielded optical cable, optical fiber and inner sheath can be followed contact pin component axially-movable simultaneously.

Described loosely shielded optical cable oversheath and reinforcement are fixed in connector and put, and bear optical cable pulling force.

Described fixture is contained in loosely shielded optical cable oversheath and reinforcement on the cylinder of inner sleeve afterbody in advance, and tail cover is by screw-threaded coupling reinforcement, promotes fixture simultaneously and puts in oversheath is pressed on.Or directly loosely shielded optical cable oversheath and reinforcement riveting are put in connector with riveting method.

Embodiment

Contact pin component 2 contains optical fiber and is connected and fixed device, spring 3 is enclosed within on the cylinder 2-1 of contact pin component afterbody, contact pin component 2 penetrates from inner sleeve 4 front ends, be fastened on by the ring-shaped step 2-2 of afterbody on the step 4-1 of inner sleeve 4 afterbodys, the optical fiber 8-1 of loosely shielded optical cable 8 and inner sheath 8-2 penetrate in contact pin component 2 by inner sleeve 4 afterbodys, being connected and fixed device by optical fiber fixes optical fiber 8-1 and inner sheath 8-2, then with fixture 5, oversheath 8-3 and optical cable reinforcement 8-4 are contained on the cylinder of inner sleeve 4 afterbodys in advance, by screwing tail cover 6 locking optical cable reinforcement 8-4, promoting fixture 5 will put in oversheath 8-3 locking simultaneously, shell 1 is socketed in inner sleeve 4 outsides, soft tail 7 is socketed on loosely shielded optical cable 8, wherein one end is installed on tail cover 6.

In the time of connector and opposite end coupling, the stressed axial rollback of contact pin component, spring-compressed, because optical fiber and the inner sheath of loosely shielded optical cable are fastened on contact pin component simultaneously, optical fiber and inner sheath also retreat thereupon, connector internal optical fiber can not produce bending, has avoided the loss of optical signal causing because of fibre-optical bending; Overlap and fixture by tail, in the oversheath of loosely shielded optical cable and reinforcement are fastened on, put, bear the pulling force that optical cable is subject to, avoid contact pin component directly stressed with dock end face generation gap, finally realize the low damage connection of the joints of optical fibre.

In the present embodiment, illustrate by SC type field connector, the utility model also can be applicable to the field connector of other type such as FC, LC.

Claims (5)

1. loosely shielded optical cable optical fiber field flexible jumper, it is characterized in that comprising shell, contact pin component, spring, inner sleeve, fixture, tail cover, soft tail, loosely shielded optical cable, wherein casing is on the head end of contact pin component, contact pin component and interior inner room are springs, inner sleeve connects one end of tail cover by fixture, the other end of tail cover connects one end of soft tail, and the other end of soft tail connects loosely shielded optical cable.

2. loosely shielded optical cable optical fiber field flexible jumper according to claim 1, is characterized in that, on the tail end of described contact pin component, A cylinder, ring-shaped step are housed successively.

3. loosely shielded optical cable optical fiber field flexible jumper according to claim 1, is characterized in that between described contact pin component and spring it being to join by the ring-shaped step on contact pin component tail end.

4. loosely shielded optical cable optical fiber field flexible jumper according to claim 1, it is characterized in that being equipped with on described loosely shielded optical cable optical fiber, inner sheath, oversheath, optical cable reinforcement, wherein on optical fiber, cover has inner sheath, and on inner sheath, cover has oversheath, is optical cable reinforcement between inner sheath and oversheath.

5. loosely shielded optical cable optical fiber field flexible jumper according to claim 1, is characterized in that having step, B cylinder on the afterbody of described inner sleeve.