CN104101959A - Locking device and optical-fiber transceiving module - Google Patents

Abstract

The invention discloses a locking device used for locking an optical-fiber joint in an optical device. The optical-fiber joint includes an insert end. The optical device includes a light port. The insert end is inserted into the light port. The locking device includes a support. The support includes a first abutting end and a second abutting end which is arranged to be facing the first abutting end. The optical-fiber joint includes a first fixing part. The optical device includes a second fixing part. The first abutting end and the second abutting end of the support are inserted into the optical-fiber joint and the optical device respectively and abut against the first fixing part of the optical-fiber joint and the second fixing part of the optical device so as to fixedly connect the optical-fiber joint and the optical device. The invention also provides an optical-fiber transceiving module. The locking device and the optical-fiber transceiving module adopt one support to fixedly connect a corresponding optical-fiber joint and a corresponding optical device; and the locking device and the optical-fiber transceiving module are simple in structure, small in occupied space and complying with a miniaturization development trend of optical-fiber transceiving modules.

Description

Locked instrument and optical fiber transceiving module

Technical field

The present invention relates to the communications field, relate in particular to a kind of locked instrument and optical fiber transceiving module.

Background technology

In miniaturization high integration optical fiber transceiving module, fibre-optical splice inserts after optical device light mouth, conventionally adopts locking device that fibre-optical splice is fixedly connected with optical device.The lock solid structure of fibre-optical splice of the prior art and optical device normally arranges spring on fibre-optical splice, is fixed in a stationary installation together with after fibre-optical splice is assembled with optical device, then by card clamping fibre-optical splice and stationary installation.There is following shortcoming in lock solid structure of the prior art: this lock solid structure is complicated, takes up room large, and need the fibre-optical splice of docking need design complicated structure with optical device to coordinate with described lock solid structure, be unfavorable for the development trend of optical fiber transceiving module miniaturization.

Summary of the invention

Technical matters to be solved by this invention is, complicated for solving the lock solid structure of prior art fibre-optical splice and optical device, large problem takes up room.

To achieve these goals, embodiment of the present invention provides following technical scheme:

On the one hand, provide a kind of locked instrument, it is for fibre-optical splice is locked in to optical device, and described fibre-optical splice comprises insertion end, and described optical device comprises light mouth, and described insertion end is inserted described light mouth.Described locked instrument comprises support, described support comprise first support end and with described first support that end is oppositely arranged second support end, described fibre-optical splice comprises the first fixed part, described optical device comprises the second fixed part.First of described support supports end and described second and supports end and snap in respectively described fibre-optical splice and described optical device, and be held in respectively the first fixed part of described fibre-optical splice and the second fixed part of described optical device, so that described fibre-optical splice is fixedly connected with described optical device.

In the possible embodiment of the first, described support comprises main body, first of described support supports end and comprises a pair of the first butt sheet extending to form from one end of described body, between described the first butt sheet, form the first breach, described the first breach snaps in described fibre-optical splice, and described the first butt sheet is held in the first fixed part of described fibre-optical splice.

In conjunction with the possible embodiment of the first, in the possible embodiment of the second, described fibre-optical splice comprises link, and described link and described insertion end are oppositely extended from the first fixed part of described optical fiber respectively, and described the first breach snaps in the link of described fibre-optical splice.

In conjunction with the possible embodiment of the first, in the third possible embodiment, second of described support supports end and comprises the second butt sheet that a pair of other end from described body extends to form, between described the second butt sheet, form the second breach, described the second breach snaps in the light mouth of described optical device, and described the second butt sheet is connected to the second fixed part of described optical device.

In conjunction with the possible embodiment of the first, in the 4th kind of possible embodiment, described locked instrument also comprises shell fragment, and described shell fragment is positioned between the first butt sheet and described main body of described support, and described shell fragment is held in the first fixed part of described fibre-optical splice.

In conjunction with the 4th kind of possible embodiment, in the 5th kind of possible embodiment, the end of each the first butt sheet forms a stop block, described main body comprises a pair of the first stop surface, described the first stop surface is formed at described main body and is connected part with described the first butt sheet, and the two ends of described shell fragment are held in respectively between described stop block and described the first stop surface.

In conjunction with the 5th kind of possible embodiment, in the 6th kind of possible embodiment, described stop block oppositely extends from described the first butt sheet respectively, each stop block comprises the second stop surface, described the first stop surface and described the second stop surface are positioned at same plane, and the two ends of described shell fragment are held in respectively between described the first stop surface and described the second stop surface.

In conjunction with the 5th kind of possible embodiment, in the 7th kind of possible embodiment, described shell fragment comprises body, a pair of the first spacer and a pair of the second spacer, described the first spacer and described the second spacer are located at respectively the two ends of described body, described the first spacer is connected to respectively described stop block, described the second spacer is connected to respectively the first stop surface of described support, and described body snaps in described fibre-optical splice and is held in the first fixed part of described fibre-optical splice.

In conjunction with the 7th kind of possible embodiment, in the 8th kind of possible embodiment, the body of described shell fragment comprises the first elastic that brace and a pair of curving from described brace extend to form, between described the first elastic, form the 3rd breach, described the first spacer is formed at respectively the end of described the first elastic, described the second spacer extends towards the direction away from described the first elastic from the opposite side of described brace respectively, described the 3rd breach snaps in described fibre-optical splice, described the first elastic is held in the first fixed part of described fibre-optical splice.

In conjunction with the 8th kind of possible embodiment, in the 9th kind of possible embodiment, described the first elastic is curved, described the first spacer extends to form towards the direction that is parallel to described brace from described the first elastic, and described the second spacer extends to form towards the direction that is parallel to described brace from described brace.

In conjunction with the third possible embodiment, in the tenth kind of possible embodiment, described the first butt sheet is respectively from the crooked extension of described main body, each first butt sheet comprises the connecting portion that extends to form from one end of described main body, from described connecting portion the second elastic extending to form towards the second direction that supports end near described support and the extension that extends to form towards the second direction that supports end away from described support from described the second elastic, described the second elastic is held in the first fixed part of described fibre-optical splice.

On the other hand, provide a kind of locked instrument, it comprise support and with the shell fragment of described support assorted.Described support comprises main body and is located at first the supporting end and second support end of two ends of described main body, described first supports end comprises a pair of the first butt sheet extending to form from one end of described body, between described the first butt sheet, form the first breach, the end of described each the first butt sheet forms stop block, described stop block oppositely extends from described the first butt sheet respectively, and described body is connected part with described the first butt sheet and forms the first stop surface.The two ends of described shell fragment are held in respectively between described stop block and described the first stop surface, described second supports end comprises the second butt sheet that a pair of other end from described body extends to form, between described the second butt sheet, form the second breach, described the second breach communicates with described the first breach.

In the possible embodiment of the first, each stop block comprises the second stop surface, and described the first stop surface and described the second stop surface are positioned at same plane, and the two ends of described shell fragment are held in respectively between described the first stop surface and described the second stop surface.

In the possible embodiment of the second, described shell fragment comprises body, a pair of the first spacer and a pair of the second spacer, described the first spacer and described the second spacer are located at respectively the two ends of described body, described the first spacer is held in respectively the stop block of described support, and described the second spacer is held in respectively the first stop surface of described support.

In conjunction with the possible embodiment of the second, in the third possible embodiment, the body of described shell fragment comprises the first elastic that brace and a pair of curving from described brace extend to form, between described the first elastic, form the 3rd breach, described the first spacer is formed at respectively the end of described the first elastic, described the second spacer extends towards the direction away from described the first elastic from the opposite side of described brace respectively, and described the 3rd breach communicates with described the first breach and described the second breach.

In conjunction with the third possible embodiment, in the 4th kind of possible embodiment, described the first elastic is curved, described the first spacer extends towards the direction that is parallel to described brace from described the first elastic, and described the second spacer extends towards the direction that is parallel to described brace from described brace.

On the other hand, provide a kind of locked instrument, it comprises support, and described support comprises main body and is located at first the supporting end and second support end of two ends of described main body.Described first supports end comprises a pair of the first butt sheet extending to form from one end of described body, between described the first butt sheet, forms the first breach.Each first butt sheet extends from described main body bending respectively, and comprises the connecting portion extending to form from one end of described main body, the second elastic extending to form towards the second direction that supports end near described support from described connecting portion and the extension extending to form towards the second direction that supports end away from described support from described the second elastic.Described second supports end comprises and between described the second butt sheet, forms the second breach by the second butt sheet that a pair of other end from described body extends to form, and described the second breach communicates with described the first breach.

On the other hand, provide a kind of optical fiber transceiving module, it comprises a plurality of fiber optical transceivers, and each fiber optical transceiver comprises fibre-optical splice, the optical device being connected with described fibre-optical splice and described fibre-optical splice is fixed on to the above-mentioned locked instrument of described optical device.

Locked instrument provided by the invention and optical fiber transceiving module, by adopting a support that fibre-optical splice is fixedly connected with optical device, simple in structure, the space taking is little, meets the development trend of optical fiber transceiving module miniaturization.

Accompanying drawing explanation

In order to be illustrated more clearly in technical scheme of the present invention, to the accompanying drawing of required use in embodiment be briefly described below, apparently, accompanying drawing in the following describes is only some embodiments of the present invention, for those of ordinary skills, do not paying under the prerequisite of creative work, can also obtain as these accompanying drawings other accompanying drawing.

Fig. 1 is the optical fiber transceiving module schematic diagram that the embodiment of the present invention provides, wherein, described optical fiber transceiving module comprises a plurality of fiber optical transceivers, and each fiber optical transceiver comprises fibre-optical splice, the optical device coordinating with described fibre-optical splice and the locked instrument that described fibre-optical splice is fixedly connected with described optical device.

Fig. 2 is the structural representation of a fiber optical transceiver shown in Fig. 1.

Fig. 3 is the exploded perspective view of the fiber optical transceiver in Fig. 2.

Fig. 4 is the schematic diagram of another direction of fiber optical transceiver shown in Fig. 3.

Fig. 5 is the front elevation of the fiber optical transceiver in Fig. 2.

Fig. 6 is the structural representation of shell fragment in Fig. 3.

Fig. 7 is that in Fig. 3, shell fragment is assembled into the process schematic diagram on support.

Fig. 8 is the schematic diagram of shell fragment together with bracket assembled in Fig. 3.

Fig. 9 is the structural representation of the locked instrument that provides of another embodiment of the present invention.

Embodiment

Below in conjunction with the accompanying drawing in the embodiment of the present invention, the technical scheme in the embodiment of the present invention is clearly and completely described.

As shown in Figure 1, the optical fiber transceiving module 300 providing in the embodiment of the present invention is for reception/utilizing emitted light signal, and comprises a plurality of fiber optical transceivers 200.Each fiber optical transceiver 200 comprises fibre-optical splice 30, the optical device 40 being connected with fibre-optical splice 30 and fibre-optical splice 30 is fixed on to the locked instrument 100 of optical device 40.

Referring to Fig. 2, Fig. 3, Fig. 4 and Fig. 5, fibre-optical splice 30 comprises insertion end 31, the first fixed parts 32 and link 33, and insertion end 31 is oppositely extended from the first fixed part 32 respectively with link 33.Optical device 40 comprises light mouth 41 and second fixed part 42 of the insertion end 31 of up-winding fiber joint 30.Described the second fixed part 42 is socketed on the circumferencial direction of described light mouth 41 outside surfaces.The light mouth 41 that the insertion end 31 of fibre-optical splice 30 is inserted optical devices 40 is to realize being connected between fibre-optical splice 30 and optical device 40.

Locked instrument 100 comprises support 10, support 10 comprise first support end 12 and with first support end 12 be oppositely arranged second support end 13.The insertion end 31 of fibre-optical splice 30 is inserted the light mouth 41 of described optical device 40, first of support 10 supports end 12 and second and supports end 13 and snap in respectively the link 33 of described fibre-optical splice 30 and the light mouth of described optical device 40 41 and be held in respectively the first fixed part 32 of fibre-optical splice 30 and the second fixed part 42 of optical device 40, so that fibre-optical splice 30 is fixedly connected with optical device 40.

Support 10 comprises main body 11, main body 11 is provided with through hole 111, first supports between the first butt sheet 121, the first butt sheets 121 that end 12 comprises that one end of a pair of autonomous agent 11 vertically extends to form and forms the first fixed part 32 that the first breach 122, the first butt sheets 122 are held in respectively fibre-optical splice 30.Second of support 10 supports end 13 and comprises the second butt sheet 131 that a pair of other end from described main body 11 extends to form, and forms the second fixed part 42 that the second breach 132, the second butt sheets 131 are connected to optical device 40 between described the second butt sheet 131.Described the first breach 122 communicates with described the second breach 132.

In the present embodiment, locked instrument 100 also comprises shell fragment 20, described shell fragment 20 is positioned between the first butt sheet 12 and described main body 11 of described support 10, and described shell fragment 20 snaps in the link 33 of described fibre-optical splice 30 and is held in the first fixed part 32 of described fibre-optical splice 30.

Particularly, the end of each the first butt sheet 12 of support 10 forms a stop block 124, and described stop block 124 oppositely extends from corresponding the first butt sheet 12 respectively, and each stop block 124 comprises second stop surface 1241.The main body 11 of support 10 comprises a pair of the first stop surface 123, and described the first stop surface 123 is formed at respectively the part that is connected of described main body 11 and described the first butt sheet 121, and described the first stop surface 123 is positioned in same plane with described the second stop surface 1241.The two ends of shell fragment 20 are held in respectively between described the second stop surface 1241 and described the first stop surface 123.

Referring to Fig. 6, shell fragment 20 comprises body 21, a pair of the first spacer 22 and a pair of the second spacer 23, described the first spacer 22 and described the second spacer 23 are located at respectively the two ends of described body 21, described the first spacer 22 is held in respectively the second stop surface 1241 of the stop block 124 of described support 10, described the second spacer 23 is connected to respectively the first stop surface 123 of described support 10, and described body 21 is held in the first fixed part 32 of fibre-optical splice 30.

Further, the body 21 of shell fragment 20 comprises the first elastic 212 that brace 211 and a pair of curving from described brace 211 extend to form, between described the first elastic 212, form the 3rd breach 213, described the 3rd breach 213 snaps in the link 33 of described fibre-optical splice 30, described the first elastic 212 is held in respectively the first fixed part 32 of described fibre-optical splice 30, as shown in Figure 5.The first spacer 22 is formed at respectively the end of described the first elastic 212, and the second spacer 23 extends towards the direction away from described the first elastic 212 from the opposite side of described brace 211 respectively.

Further, the first elastic 212 of shell fragment 20 is curved, the first spacer 22 extends towards the direction that is parallel to described brace 211 from described the first elastic 212, and described the second spacer 23 extends from described brace 211 and towards the direction that is parallel to described brace 211.That is to say, described the first spacer 22 with described the second spacer 23 respectively from the parallel reverse extension of described brace 211.

Referring to Fig. 7 and Fig. 8, during assembling, the arc raised face 2121 of the first elastic 212 of shell fragment 20 is supported to end 13 towards second of support 10, the first spacer 22 of shell fragment 20 extend into respectively in the stop block 124 of support 10 and contacts with the second stop surface 1241 of stop block 124, as shown in Figure 7.Overcome the elastic force of shell fragment 20, the second spacer 23 of shell fragment 20 is held in to the first stop surface 123 of support 10, shell fragment 20 the 3rd breach 213 communicates with the first breach 122 of support 10.Shell fragment 20 is positioned support 10 and forms described locked instrument 100 under the effect of elastic force, as shown in Figure 8.

Please refer to Fig. 2 and Fig. 5, support 10 second is supported to end 13 to be snapped in optical device 40 and makes second to support end the second butt sheet 131 backstops of 13 in the second fixed part 42 of optical device 40, the 3rd breach 213 that support 10 first is supported to end the first breach 122 of 12 and shell fragment 20 snaps in the link 33 of described fibre-optical splice 30, makes the first elastic 212 of shell fragment 20 be connected to the first fixed part 32 of described fibre-optical splice 30.Now, shell fragment 20 stress deformations, fibre-optical splice 30 and optical device 40 close contact under the elastic force effect of shell fragment 20.

The locked instrument 100 that the present embodiment provides utilizes support 10 limit fibre joints 30 and the optical device 40 can be movable among a small circle at one, the elastic force of recycling shell fragment 20, further that fiber connector 30 and optical device 40 is fixing, guaranteed that fibre-optical splice 30 and optical device 40 are subject to certain pressure close contact, also avoided hardware directly to push down fibre-optical splice 30 and optical device 40 simultaneously and cause pressure excessive and damage fibre-optical splice 30 and optical device 40.

Please refer to Fig. 9, in another embodiment of the present invention, stationary installation 100 only includes support 50, support 50 is basic identical with basic framework and the fixed form of support 10, difference is, the first butt sheet 121 of support 50 extends from main body 11 bendings of support 10 respectively, each first butt sheet 121 comprises the connecting portion 1211 extending to form from one end of described main body 11, the second elastic 1212 extending to form towards the direction that supports end 13 near second of described support 50 from described connecting portion 1211 and the extension 1213 extending to form towards the direction that supports end 13 away from second of described support 10 from described the second elastic 1212.During installation, described the second elastic 1212 is held in the first fixed part 32 of described fibre-optical splice 30.

Locked instrument 100 provided by the invention is by adopting the cooperation of a support 10 and shell fragment 20 that fibre-optical splice 30 is fixedly connected with optical device 40, or only by adopting a support 50 with flexible butt sheet that fibre-optical splice 30 is fixedly connected with optical device 40, simple in structure, the space taking is little, meets the development trend of optical fiber transceiving module 300 miniaturizations.

The above is the preferred embodiment of the present invention; it should be pointed out that for those skilled in the art, under the premise without departing from the principles of the invention; can also make some improvements and modifications, these improvements and modifications are also considered as protection scope of the present invention.

Claims (18)

1. a locked instrument, for fibre-optical splice is locked in to optical device, described fibre-optical splice comprises insertion end, described optical device comprises light mouth, described insertion end is inserted described light mouth, it is characterized in that, described locked instrument comprises support, described support comprise first support end and with described first support that end is oppositely arranged second support end, described fibre-optical splice comprises the first fixed part, described optical device comprises the second fixed part, first of described support supports end and described second and supports end and snap in respectively described fibre-optical splice and described optical device, and be held in respectively the first fixed part of described fibre-optical splice and the second fixed part of described optical device, so that described fibre-optical splice is fixedly connected with described optical device.

2. locked instrument as claimed in claim 1, it is characterized in that, described support comprises main body, first of described support supports end and comprises a pair of the first butt sheet extending to form from one end of described body, between described the first butt sheet, form the first breach, described the first breach snaps in described fibre-optical splice, and described the first butt sheet is held in the first fixed part of described fibre-optical splice.

3. locked instrument as claimed in claim 2, is characterized in that, described fibre-optical splice comprises link, and described link and described insertion end are oppositely extended from the first fixed part of described optical fiber respectively, and described the first breach snaps in the link of described fibre-optical splice.

4. locked instrument as claimed in claim 2, it is characterized in that, second of described support supports end and comprises the second butt sheet that a pair of other end from described body extends to form, between described the second butt sheet, form the second breach, described the second breach snaps in the light mouth of described optical device, and described the second butt sheet is connected to the second fixed part of described optical device.

5. locked instrument as claimed in claim 2, is characterized in that, also comprises shell fragment, and described shell fragment is positioned between the first butt sheet and described main body of described support, and described shell fragment is held in the first fixed part of described fibre-optical splice.

6. locked instrument as claimed in claim 5, it is characterized in that, the end of each the first butt sheet forms a stop block, described main body comprises a pair of the first stop surface, described the first stop surface is formed at described main body and is connected part with described the first butt sheet, and the two ends of described shell fragment are held in respectively between described stop block and described the first stop surface.

7. locked instrument as claimed in claim 6, it is characterized in that, described stop block oppositely extends from described the first butt sheet respectively, each stop block comprises the second stop surface, described the first stop surface and described the second stop surface are positioned at same plane, and the two ends of described shell fragment are held in respectively between described the first stop surface and described the second stop surface.

8. locked instrument as claimed in claim 6, it is characterized in that, described shell fragment comprises body, a pair of the first spacer and a pair of the second spacer, described the first spacer and described the second spacer are located at respectively the two ends of described body, described the first spacer is connected to respectively described stop block, described the second spacer is connected to respectively the first stop surface of described support, and described body snaps in described fibre-optical splice and is held in the first fixed part of described fibre-optical splice.

9. locked instrument as claimed in claim 8, it is characterized in that, the body of described shell fragment comprises the first elastic that brace and a pair of curving from described brace extend to form, between described the first elastic, form the 3rd breach, described the first spacer is formed at respectively the end of described the first elastic, described the second spacer extends towards the direction away from described the first elastic from the opposite side of described brace respectively, described the 3rd breach snaps in described fibre-optical splice, and described the first elastic is held in the first fixed part of described fibre-optical splice.

10. locked instrument as claimed in claim 9, it is characterized in that, described the first elastic is curved, described the first spacer extends to form towards the direction that is parallel to described brace from described the first elastic, and described the second spacer extends to form towards the direction that is parallel to described brace from described brace.

11. locked instruments as claimed in claim 4, it is characterized in that, described the first butt sheet is respectively from the crooked extension of described main body, each first butt sheet comprises the connecting portion that extends to form from one end of described main body, from described connecting portion the second elastic extending to form towards the second direction that supports end near described support and the extension that extends to form towards the second direction that supports end away from described support from described the second elastic, described the second elastic is held in the first fixed part of described fibre-optical splice.

12. 1 kinds of locked instruments, it is characterized in that, comprise support and with the shell fragment of described support assorted, described support comprises main body and is located at first the supporting end and second support end of two ends of described main body, described first supports end comprises a pair of the first butt sheet extending to form from one end of described body, between described the first butt sheet, form the first breach, the end of described each the first butt sheet forms stop block, described stop block oppositely extends from described the first butt sheet respectively, described body is connected part with described the first butt sheet and forms the first stop surface, the two ends of described shell fragment are held in respectively between described stop block and described the first stop surface, described second supports end comprises the second butt sheet that a pair of other end from described body extends to form, between described the second butt sheet, form the second breach, described the second breach communicates with described the first breach.

13. locked instruments as claimed in claim 12, it is characterized in that, each stop block comprises the second stop surface, and described the first stop surface and described the second stop surface are positioned at same plane, and the two ends of described shell fragment are held in respectively between described the first stop surface and described the second stop surface.

14. locked instruments as claimed in claim 12, its spy is, described shell fragment comprises body, a pair of the first spacer and a pair of the second spacer, described the first spacer and described the second spacer are located at respectively the two ends of described body, described the first spacer is held in respectively the stop block of described support, and described the second spacer is held in respectively the first stop surface of described support.

15. locked instruments as claimed in claim 14, it is characterized in that, the body of described shell fragment comprises the first elastic that brace and a pair of curving from described brace extend to form, between described the first elastic, form the 3rd breach, described the first spacer is formed at respectively the end of described the first elastic, described the second spacer extends towards the direction away from described the first elastic from the opposite side of described brace respectively, and described the 3rd breach communicates with described the first breach and described the second breach.

16. locked instruments as claimed in claim 15, it is characterized in that, described the first elastic is curved, and described the first spacer extends towards the direction that is parallel to described brace from described the first elastic, and described the second spacer extends towards the direction that is parallel to described brace from described brace.

17. 1 kinds of locked instruments, it is characterized in that, comprise support, described support comprises main body and is located at first the supporting end and second support end of two ends of described main body, described first supports end comprises a pair of the first butt sheet extending to form from one end of described body, between described the first butt sheet, form the first breach, each first butt sheet is respectively from the crooked extension of described main body, and comprise the connecting portion extending to form from one end of described main body, the second elastic extending to form towards the second direction that supports end near described support from described connecting portion and the extension extending to form towards the second direction that supports end away from described support from described the second elastic, described second supports end comprises the second butt sheet that a pair of other end from described body extends to form, between described the second butt sheet, form the second breach, described the second breach communicates with described the first breach.

18. 1 kinds of optical fiber transceiving modules, comprise a plurality of fiber optical transceivers, each fiber optical transceiver comprises fibre-optical splice, the optical device being connected with described fibre-optical splice, it is characterized in that, each fiber optical transceiver also comprises the locked instrument as described in claim 1 to 17 any one that described fibre-optical splice is fixed on to described optical device.