CN201926781U

CN201926781U - Optical fiber connector

Info

Publication number: CN201926781U
Application number: CN2010206427953U
Authority: CN
Inventors: 周健; 赵立琦
Original assignee: Tyco Electronics Shanghai Co Ltd
Current assignee: Tyco Electronics Shanghai Co Ltd
Priority date: 2010-12-02
Filing date: 2010-12-02
Publication date: 2011-08-10
Anticipated expiration: 2020-12-02

Abstract

The utility model provides an optical fiber connector comprising an insertion receptacle and a contact pin component, which are assembled together in a detachable manner, wherein a micro-pore is formed in the insertion receptacle, through which an optical fiber passes; alignment structures are formed on the insertion receptacle and the contact pin component respectively; and the alignment structures are configured to be jointed together during the assembly of the insertion receptacle and the contact pin component. Accordingly, since the alignment structures are arranged on the insertion receptacle and the contact pin component, not only is the purpose of alignment and firm connection among the individual components achieved during the assembly of the optical fiber connector, but also the installation is simplified without needing any special compression joint tool when the optical fiber connector is in butt joint with other optical fiber connectors or optical fiber communication equipment, the accuracy of butt joint is increased and the optical loss is minimized.

Description

The joints of optical fibre

Technical field

The utility model relates to optical-fibre communications field.Particularly, the utility model relates to a kind of joints of optical fibre, more specifically, relates to the adjustable joints of optical fibre of a kind of optical fiber link position.

Background technology

The joints of optical fibre be mainly used in realize in the communication system between the equipment, between equipment and the instrument, between equipment and the optical fiber and optical fiber fixedly connected with the impermanency between the optical fiber, be indispensable passive device in the optical fiber telecommunications system.

In optical fiber communication technology, in order to guarantee signal transmission quality, must consider optical fiber or optical cable to be connected with each other, to realize continuing of light path in low-loss mode.Fig. 1 shows the general principle of joints of optical fibre butt joint.As shown in the figure, optical fiber 100 inserts ceramic contact pin (ferrule) 200 and is fixed therein, and two ceramic contact pins 200 that have optical fiber are docking together by adapter sleeves 300.When as seen from Figure 1, guaranteeing two fiber cores contacts of butt joint in line (aligning) be the key of the quality of connection of guaranteeing that connector is good.

In the known joints of optical fibre, the stationkeeping of contact pin can not or be difficult to calibration (tune) in assembling process, and it is big to cause inserting loss.And some joints of optical fibre need special fore shaft instrument crimping in order to calibrate when assembling, be unsuitable for installing in some occasions.In addition, the cross section of the present Lucent Connector that generally uses is 4.4mm * 5.5mm rectangle cross section normally, and size is bigger, is not suitable for high-density installation.

Summary of the invention

Consider the problems referred to above that the existing fiber connector exists, the utility model proposes a kind of improved joints of optical fibre, it can solve a kind of in above-mentioned a plurality of problem at least.According to the joints of optical fibre of the present utility model, it has a plurality of positions adjustable, is suitable for realizing accurate butt joint when assembling, and does not need special or extra instrument, is easy to install, and can reduces size, is fit to high-density installation.

According to an aspect of the present utility model, a kind of joints of optical fibre are provided, comprise a grafting body and a contact pin assembly of removably fitting together, be formed with in this grafting body and be fit to the micropore that optical fiber passes, wherein, be formed with calibration structure respectively on grafting body and contact pin assembly, described calibration structure is configured to be suitable for be bonded with each other when assembling grafting body and contact pin assembly.

In the above-mentioned joints of optical fibre, the calibration structure on the grafting body can comprise a plurality of keyways, and the calibration structure on the contact pin assembly can comprise a plurality of aligning keies corresponding with described a plurality of keyways.

In the above-mentioned joints of optical fibre, described a plurality of aligning keies can be arranged on the excircle of this grafting body.

In the above-mentioned joints of optical fibre, the quantity of described a plurality of aligning keies can be for three or more, and can be with the excircle setting of identical distance around this grafting body.

The above-mentioned joints of optical fibre can also comprise an abutment sleeve, and this abutment sleeve is fit to hold the grafting body that fits together and at least a portion of contact pin assembly.

In the above-mentioned joints of optical fibre, on abutment sleeve and grafting body, can be formed with location structure respectively, described location structure is configured to be suitable for be bonded with each other when being assembled into the contact pin assembly in the grafting body.

In the above-mentioned joints of optical fibre, the location structure on the grafting body can comprise a plurality of positioning keys, and the location structure on the abutment sleeve can comprise a plurality of pilot holes corresponding with described a plurality of positioning keys.

The above-mentioned joints of optical fibre can also comprise a spring, and the size configurations of this spring is to be fit to be socketed on the part of this contact pin assembly and to be contained in this grafting body.

In the above-mentioned joints of optical fibre, can also be formed with a plurality of butt joint keys on this grafting body, the docking groove that described a plurality of butt joint keys are configured to be suitable for when these joints of optical fibre are socketed in the adapter sleeve in the inwall with this adapter sleeve engages.

In the above-mentioned joints of optical fibre, described grafting body, contact pin assembly and abutment sleeve are constructed with cylindrical shape substantially or have circular cross section.

Be provided with a plurality of structures that are suitable for calibrating according to the above-mentioned joints of optical fibre of the present utility model, thus, not only can when assembling optical fiber connector, can realize between each assembly calibration with firmly be connected, and when docking, install simple with other joints of optical fibre or optical fiber communication equipment, do not need other special crimping tool, the merging precision height is with minimum optical loss.

On the other hand, in according to the joints of optical fibre of the present utility model, above-mentioned grafting body, contact pin assembly and abutment sleeve can be configured to cylindrical shape substantially or have circular cross section, compare with the square joints of optical fibre, its external diameter can reduce, occupy little space, thereby very be fit to high-density installation.

After consulting following detailed embodiment and diagram of being correlated with and claim, the person of readding can understand other purpose of the present utility model, feature and advantage better.

Description of drawings

Consult follow-up diagram and can understand principle of the present utility model better with description.Not detailed row and non-restrictive example then please refer to the description of this subsequent figures in the literary composition.Element in the diagram might not meet ratio, and is to depict principle of the present utility model in the mode of emphasizing.In diagram, components identical lies in the part that marks identical correspondence in the different diagrams.

Fig. 1 is the synoptic diagram that joints of optical fibre butt joint principle is shown;

Fig. 2 is the decomposition diagram that illustrates according to the structure of the joints of optical fibre of a kind of embodiment of the present utility model;

Fig. 3 a illustrates according to two joints of optical fibre of a kind of embodiment of the present utility model synoptic diagram by the state behind the adapter docking sleeve;

Fig. 3 b illustrates according to the joints of optical fibre that are in the preceding state of butt joint of a kind of embodiment of the present utility model and the synoptic diagram of adapter sleeve;

Fig. 4 is the synoptic diagram that illustrates according to the assembling process of the joints of optical fibre of a kind of embodiment of the present utility model; And

Fig. 5 is the synoptic diagram that illustrates according to the joints of optical fibre after the assembling of a kind of embodiment of the present utility model.

Embodiment

Below in conjunction with the drawings and the specific embodiments the utility model is described further.

Fig. 2 shows the decomposition texture according to the joints of optical fibre of a kind of embodiment of the present utility model.As shown in Figure 2, in a kind of embodiment of the present utility model, the joints of optical fibre comprise a grafting body 1 and a contact pin assembly 2, and contact pin assembly 2 can removably be assembled in the grafting body 1, as inserting in the grafting body 1.

In a kind of embodiment of the present utility model, grafting body 1 can comprise a body 101 and sleeve pipe 102 that connects or be fixed together, and body 101 is fit to hold contact pin assembly 2, and sleeve pipe 102 is fit to introduce and therefrom pass the optical fiber cable (not shown).In other embodiments, body 101 and sleeve pipe 102 there is no need the assembly being arranged to separate, and for example, they can form.

In a kind of embodiment of the present utility model, contact pin assembly 2 can comprise a contact pin 201 and sleeve pipe 202 that has micropore or passage, and the optical fiber (not shown) can be crossed and be fixed therein from this passing through micropores.In one embodiment, contact pin 201 can be ceramic contact pin, and it can be fixed or be installed on the sleeve pipe.In other embodiments, contact pin 201 and sleeve pipe 202 there is no need the assembly being arranged to separate, and for example, they can form.Usually, the diameter of sleeve pipe 202 is greater than the diameter of contact pin 201, and sleeve pipe 202 is fit to the optical fiber cable (not shown) and therefrom passes.

According to the utility model, on grafting body 1 and contact pin assembly 2, be formed with calibration structure respectively, described calibration structure is configured to be suitable for be bonded with each other when assembling grafting body 1 and contact pin assembly 2 or cooperate, with the assembling of calibration grafting body 1 and contact pin assembly 2.As shown in Figure 2, in a kind of embodiment of the present utility model, the calibration structure on the grafting body 1 can comprise a plurality of keyways 103, and the calibration structure on the contact pin assembly 2 comprises a plurality of aligning keies or the projection 203 corresponding with described a plurality of keyway 103.

In one embodiment, as shown in Figure 2, on the end relative that keyway 103 is formed on body 101 with sleeve pipe 102.Keyway 103 roughly along optical axis direction or along inserting the opposite direction opening of direction of insertion of grafting bodies 1 with contact pin assembly 2, is used for engaging the aligning key 203 of the correspondence on the contact pin assembly 2 that will insert grafting body 1.In one embodiment, a plurality of keyways 103 can be provided with the interval that equates along the circumferencial direction of body 101, are formed with one between the adjacent keyway 103 and insert finger 106.

As shown in Figure 2, aligning key 203 is formed on the excircle of sleeve pipe 202 of contact pin assembly 2, and its size and shape are configured to be fit to corresponding keyway 103 joints or the cooperation with grafting body 1.In one embodiment, described a plurality of aligning keies 203 can be provided with the interval that equates along the circumferencial direction of sleeve pipe 202, and an end that is connected with contact pin 201 of close sleeve pipe 202.In the illustrated embodiment, aligning key 203 outwards protrudes from sleeve pipe 202 along the radial direction of sleeve pipe 202, thereby, can calibrate contact pin assembly 2 and grafting body 1 exactly, and prevent the relative rotation between contact pin assembly 2 and the grafting body 1 with after corresponding keyway 103 engages.

In other embodiments, keyway 103 and aligning key 203 there is no need uniformly-spaced or evenly are provided with.Will recognize that, consider that contact pin assembly 2 is inserted into the consistance in the orientation in the grafting body 1 at every turn, keyway 103 can be with the circumferencial direction setting of different intervals along body 101, and the position of aligning key 203 on contact pin assembly 2 and corresponding with keyway 103 at interval.Replacedly, keyway 103 can be with the circumferencial direction setting of identical distance along body 101, but its size is different respectively.Perhaps replacedly, the size of keyway 103 and all inequality at interval.It will be recognized by those skilled in the art that in the utility model, shape, size and the quantity of keyway 103 and aligning key 203 is not particularly limited, for example, the quantity of keyway 103 and aligning key 203 can be respectively three or more.

In a kind of embodiment of the present utility model, as shown in Figure 2, these joints of optical fibre can also comprise the spring 4 on the sleeve pipe 202 that is suitable for being socketed in contact pin assembly 2, as volute spring.In the process of assembling optical fiber connector, one end of spring 4 is connected on the contact pin assembly 2, the other end is connected to flange or the position limiting structure (not shown) in the grafting body 1, be used for oppositely (promptly, the opposite direction of direction of insertion with contact pin assembly insertion grafting body) bias voltage contact pin assembly, make the contact pin of contact pin assembly dock (as shown in Figure 1) with the contact pin of another joints of optical fibre, thereby with the two ends fiber alignment.In the illustrated embodiment, an end of spring 4 is fit to the part of the formation aligning key 203 of butt sleeve pipe 202, to apply the biasing force that docks with other contact pin to contact pin 201.In other embodiments, the assembling mode of spring 4 on the contact pin assembly is not limited thereto, and as its packing ring on can butt sleeve pipe 202 excircles, perhaps can be fixed on the sleeve pipe 202.

According to a kind of embodiment of the present utility model, these joints of optical fibre can also comprise an abutment sleeve 3, this abutment sleeve 3 is configured to be fit to hold the grafting body 1 that fits together and at least a portion of contact pin assembly 2, firmly locate contact pin assembly 2 with after being assembled at contact pin assembly 2 in the grafting body 1, prevent that contact pin assembly 2 from coming off or extruded by the biasing force of spring 4 from grafting body 1.As shown in Figure 2, abutment sleeve 3 is a cylindrical shape, and the formation that its size is fit to hold grafting body 1 is inserted and referred to 106 the part and the aligning key of contact pin assembly 2.

According to the utility model, for accurately location grafting body 1 and contact pin assembly 2, a plurality of positioning keys 104 can also be formed on grafting body 1, the corresponding pilot hole 304 of formation and described a plurality of positioning key 104 on abutment sleeve 3.After being assembled into contact pin assembly 2 in the grafting body 1, abutment sleeve 3 is socketed in the periphery that grafting body 1 is plugged with contact pin assembly 2, make on the grafting body 1 positioning key 104 respectively with abutment sleeve 3 on corresponding pilot hole 304 engage or cooperate, can firmly contact pin assembly 2 be remained in the grafting body 1 thus, prevent that contact pin assembly 2 from coming off, and the body 1 that can prevent to peg graft is with respect to abutment sleeve 3 rotations.

According to a kind of embodiment of the present utility model, as shown in Figure 2, positioning key 104 be arranged on grafting body 1 each insert to refer on 106 that but the utility model is not limited thereto, as long as positioning key 104 can engage with the pilot hole 304 on the abutment sleeve 3 when abutment sleeve 3 socket grafting bodies 1.In one embodiment, the slotting finger 106 of grafting body 1 is an elastic construction, when abutment sleeve 3 socket grafting bodies 1, radial direction by edge grafting body 1 is inwardly pushed slotting finger 106, the grafting body 1 that is provided with positioning key 104 can be inserted in the abutment sleeve 3, and rely on the elasticity of inserting finger 106 that positioning key 104 is outwards engaged with the pilot hole 304 of abutment sleeve 3 along the radial direction of grafting body 1, thus can be firmly grafting body 1 and the contact pin assembly 2 that fits together be inserted in the abutment sleeves 3, and can prevent from effectively when being subjected to slight external force etc., to come off from abutment sleeve 3.In dismounting during the joints of optical fibre, be bonded on the positioning key 104 in the pilot hole 304 of abutment sleeve 3 by extruding, can easily remove abutment sleeve 3.

According to the utility model, on grafting body 1, can also be formed with a plurality of butt joint keys 105, as shown in Figure 2.Shown in Fig. 3 a and 3b, when two joints of optical fibre that assemble being docked by adapter sleeve 6, corresponding keyway 605 on butt joint key 105 on the grafting body 1 and adapter sleeve 6 inwalls engages or cooperates, can prevent that thus the joints of optical fibre from respect to 6 rotations of adapter sleeve, making the contact pin of two joints of optical fibre can realize stable butt joint.In the illustrated embodiment, butt joint key 105 is formed on the excircle of grafting body 1.The quantity, shape and the position that it will be understood to those of skill in the art that butt joint key 105 can be provided with as required, and the utility model is not limited to illustrated embodiment.For example, the butt joint key can be arranged on the adapter sleeve, and corresponding keyway can be arranged on the grafting body.

In the illustrated embodiment, for the optical cable (not shown) in the sleeve pipe 102 of fixing introducing grafting body 1, the joints of optical fibre can also be provided with the crimping sleeve 5 that is fit to be socketed on the sleeve pipe 102.Crimping sleeve 5 can be screwed on the sleeve pipe 102, but the utility model is not limited thereto, and for example can adopt above-mentioned key, groove mode.

Fig. 4 shows the assembling process according to the joints of optical fibre of a kind of embodiment of the present utility model.Shown in Fig. 4 (a), at first spring 4 is socketed on the sleeve pipe 202 of inserting finger assembly 2 end of spring 4 and aligning key 203 butts.In one embodiment, the natural length of spring 4 make spring 4 to be socketed in fully on the sleeve pipe 202, but the utility model is not limited thereto less than the length of sleeve pipe 202.Subsequently, will be socketed with on it contact pin assembly 2 of spring 4 insert in the grafting bodies, make corresponding keyway 103 joints on aligning key 203 and the grafting body 1 on the contact pin assembly 2, and contact pin 201 exposes, shown in Fig. 4 (b).Then, abutment sleeve 3 is socketed on the contact pin assembly 2 and grafting body 1 that fits together, make that the positioning key 104 on the grafting body 1 engages with pilot hole 304 on the abutment sleeve, and contact pin 201 exposes, shown in Fig. 4 (c), be convenient to dock with the contact pin of another joints of optical fibre.At last, after optical cable has been fixed on these joints of optical fibre, crimping sleeve 5 is socketed on the grafting body 1, forms the complete joints of optical fibre, as shown in Figure 5.

According to the joints of optical fibre of the present utility model, have a plurality of structures that are suitable for calibrating, as aligning key 203 and keyway 103, positioning key 104 and pilot hole 304, butt joint key 105 and keyway 605 or the like.Thus, not only can when assembling optical fiber connector, can realize between each assembly calibration with firmly be connected, and when docking, install simply with other joints of optical fibre or optical fiber communication equipment, do not need other special crimping tool, the merging precision height is with minimum optical loss.

According to the joints of optical fibre of the present utility model, above-mentioned grafting body, contact pin assembly and abutment sleeve are configured to cylindrical shape substantially or have circular cross section, compare with the square joints of optical fibre, and its external diameter can reduce.In one embodiment, the external diameter of the joints of optical fibre of the present utility model can be reduced to 3.2mm, occupies little space, thereby very is fit to high-density installation.

The above embodiments and accompanying drawing only have recapitulative understanding for those skilled in the art for variant embodiment of the present utility model.Those diagrams and explanation are not to want description that the device that utilizes structure described herein or method and all elements in the system and feature are made integrality.By reading instructions of the present utility model, those skilled in the art will more can understand many other embodiment of the present utility model, will be derived from the content of disclosure of the present utility model.Under the situation departing from the utility model protection domain not, the utility model can carry out the displacement and the change of structure and logic.In addition, accompanying drawing of the present utility model only is used for diagram but not draws in proportion.Some part in the accompanying drawing may be exaggerated emphasizing, and other parts may be by simple.Therefore, instructions of the present utility model and accompanying drawing should be considered as describing and non-limiting matter, and will be limited by the protection domain of hereinafter claim.It should be noted that word " comprises " does not get rid of other element or step, and word " " or " one " do not get rid of a plurality of.In addition, any element numbers of claim should not be construed as and limits the scope of the invention.

Claims

1. joints of optical fibre, comprise a grafting body and a contact pin assembly, be formed with in this grafting body and be fit to the micropore that optical fiber passes, it is characterized in that, be formed with a calibration structure on this grafting body and contact pin assembly respectively, described calibration structure is configured to be suitable for be bonded with each other when this grafting body of assembling and contact pin assembly.

2. the joints of optical fibre according to claim 1 is characterized in that,

Calibration structure on the described grafting body comprises a plurality of keyways, and the calibration structure on the described contact pin assembly comprises a plurality of aligning keies corresponding with described a plurality of keyways.

3. the joints of optical fibre according to claim 2 is characterized in that,

Described a plurality of aligning key is arranged on the excircle of this grafting body.

4. the joints of optical fibre according to claim 3 is characterized in that,

The quantity of described a plurality of aligning keies is three or more, and with the excircle setting of identical distance around this grafting body.

5. the joints of optical fibre according to claim 2 is characterized in that,

Further comprise an abutment sleeve, this abutment sleeve is fit to hold the grafting body that fits together and at least a portion of contact pin assembly.

6. the joints of optical fibre according to claim 5 is characterized in that,

Be formed with a location structure on described abutment sleeve and grafting body respectively, described location structure is configured to be suitable for be bonded with each other when being assembled into the contact pin assembly in the grafting body.

7. the joints of optical fibre according to claim 6 is characterized in that,

Location structure on the described grafting body comprises a plurality of positioning keys, and the location structure on the described abutment sleeve comprises a plurality of pilot holes corresponding with described a plurality of positioning keys.

8. the joints of optical fibre according to claim 7 is characterized in that,

These joints of optical fibre also comprise a spring, and the size configurations of this spring is to be fit to be socketed on the part of this contact pin assembly and to be contained in this grafting body.

9. according to each described joints of optical fibre among the claim 1-8, it is characterized in that,

Also be formed with a plurality of butt joint keys on this grafting body, the docking groove that described a plurality of butt joint keys are configured to be suitable for when these joints of optical fibre are socketed in the adapter sleeve in the inwall with this adapter sleeve engages.

10. the joints of optical fibre according to claim 5 is characterized in that,

Described grafting body, contact pin assembly and abutment sleeve are constructed with cylindrical shape substantially or have circular cross section.