CN106324767B - A kind of double optical fiber connectors with wave splitting/composing - Google Patents

Abstract

The invention discloses a kind of double optical fiber connectors with wave splitting/composing, comprising optical fiber connector one, the adjustable optical fiber connector two in one position of opposed optical fibers connector；There are one splitting/composing wave devices in optical fiber connector one；The output optical fibre one of splitting/composing wave device is connected as one with the optical fiber set in optical fiber connector one；The output optical fibre two of splitting/composing wave device is connected as one with the optical fiber set in optical fiber connector two；The input optical fibre of splitting/composing wave device and the other end tail optical fiber of optical fiber connector one are connected as one；After the input optical fibre of splitting/composing wave device receives optical signal, the optical signal for being divided into two kinds of different wave lengths is exported respectively by optical fiber connector one and optical fiber connector two.Optical fiber connector two of the present invention is adjustable compared with optical fiber connector one, and to be adapted to the GPON/XGPON optical mode block sizes of each producer, satisfaction is inserted into position and the smooth unlocking requirements of energy, and compared to traditional WDM device volume smallers, cost is lower, Insertion Loss smaller.

Description

A kind of double optical fiber connectors with wave splitting/composing

Technical field

The present invention relates to optic communication devices to manufacture and design field more particularly to a kind of double optical fiber connection with wave splitting/composing Device.

Background technology

In GPON into XGPON evolution processes, when existing part GPON user replaces with XGPON terminals, it may appear that GPON coexists in the situation of same ODN networks to XGPON.Since the uplink and downlink wavelength that GPON and XGPON is used is different, need at this time To increase WDM devices close to OLT sides in ODN and the operation wavelength of GPON and XGPON is separated to different PON ports.

WDM devices need to be mounted on ODF (Optical Distribution Frame:Fibre distribution frame) in rack, it is main Form is wanted as rack or boxlike, volume is big, it is necessary to will be that WDM devices reserve installation site in GPON network constructions.And And the activity that rack or boxlike WDM devices can increase in ODN (ODN is the FTTH fiber cable networks based on PON equipment) network connects Device quantity is connect, ODN line hepatitis consumptions is caused to increase.

The content of the invention

In view of this, the invention solves a technical problem be to propose that a kind of double optical fiber with wave splitting/composing connect Device, to substitute traditional WDM device functions.

The technical solution adopted by the present invention is as follows：

A kind of double optical fiber connectors with wave splitting/composing,

Comprising there are one optical fiber connector one, an optical fiber connectors compared with one position-adjustable of optical fiber connector Two；

Splitting/composing wave device there are one being set in the optical fiber connector one；

The output optical fibre one of the splitting/composing wave device is connected as one with the optical fiber set in optical fiber connector one；

The output optical fibre two of the splitting/composing wave device is connected as one with the optical fiber set in optical fiber connector two；

The input optical fibre of the splitting/composing wave device is connected as one with the other end tail optical fiber of optical fiber connector one；

After the input optical fibre of the splitting/composing wave device receives optical signal, optical signal is entered by input optical fibre and divided In ripple/multiplex device, become the optical signal of two kinds of different wave lengths after partial wave respectively by optical fiber connector one and optical fiber connector two Output.

Wherein, guide rail, the housing B of the optical fiber connector two are provided on the housing A of the optical fiber connector one On be provided with sliding slot, the guide rail is engaged with sliding slot realizes that optical fiber connector two slides up in the parallel side of optical fiber connector one It is dynamic；

And the sliding slot leaves fit clearance to realize that optical fiber is connected with guide rail on the vertical direction of optical fiber connector one Device two is finely tuned in one vertical direction of optical fiber connector.

Wherein, the optical fiber connector one also includes inner sleeve A, contact pin sub-assembly A, spring A, rear enclosure A and rear enclosure successively B；

The splitting/composing wave device is placed between rear enclosure A and rear enclosure B, the fiber optical fiber of the splitting/composing wave device One penetrates through rear enclosure A, spring A in contact pin sub-assembly A, and contact pin sub-assembly A is penetrated in inner sleeve A, rear enclosure B, rear enclosure A and housing A Optical fiber connector one is formed after crimping.

Wherein, there is guide groove on the contact pin sub-assembly A, coordinate with the conducting bar in inner sleeve A, limitation contact pin sub-assembly A Around one axial rotation of optical fiber connector；

There is groove at two on the inner sleeve A, be respectively the first groove, the second groove；There is protrusion on the rear enclosure A, There is protrusion on the rear enclosure B, the rear enclosure A is led to by protrusion and the second fit depressions of inner sleeve A, the rear enclosure B Protrusion and the first fit depressions of inner sleeve A are crossed, makes splitting/composing wave device, contact pin sub-assembly A not axial along optical fiber connector one It comes off or rotates；

There is the second groove on the housing A, there is protrusion on the shell of the inner sleeve A, the inner sleeve A passes through protrusion With the second fit depressions on housing A, and can be moved in the second groove of housing A.

Wherein, the optical fiber connector one also includes casing, snap ring and tail sleeve successively, and described sleeve pipe is sleeved on rear enclosure B, The snap ring blocks casing, and tail sleeve is covered on snap ring, to protect optical fiber connector one.

Wherein, the fiber optical fiber two of the splitting/composing wave device passes through rear enclosure B, is worn from the optical fiber connector one Enter into optical fiber connector two.

Wherein, the optical fiber connector two includes housing B, inner sleeve B, contact pin sub-assembly B, spring B and rear enclosure C successively；

The fiber optical fiber two of the splitting/composing wave device is penetrated through rear enclosure C, spring B in plug-in unit sub-assembly B；It is described Contact pin sub-assembly B penetrate inner sleeve B, after being crimped with housing B form optical fiber connector two.

Wherein, it is fluted on the inner sleeve B, have protrusion on the rear enclosure C, the rear enclosure C by protrusion with it is interior The recess for covering B merges fixation, and contact pin sub-assembly B is made not to be rotated up or come off in two axis of optical fiber connector；

There is guide groove on the contact pin sub-assembly B, coordinate with the conducting bar in inner sleeve B, limit contact pin sub-assembly B along optical fiber The axial rotation of connector two；

Have protrusion on the shell of the inner sleeve B, it is fluted on the housing B, the inner sleeve B pass through protrusion with it is outer The fit depressions on B are covered, and can be moved in the groove of housing B.

Wherein, there is a protrusion in the sliding slot of the optical fiber connector two, with first outside the guide rail of optical fiber connector one Fit depressions, it is ensured that optical fiber connector two forward slip and is not fallen off on parallel to one direction of optical fiber connector, together When, when optical fiber connector two is slided backward along guide rail, the antetheca of the sliding slot of the optical fiber connector two touches optical fiber company The front end stop bit of the guide rail of device one is connect, can also prevent from deviating from optical fiber connector one when optical fiber connector two from sliding backward.

Wherein, the guide rail of the optical fiber connector one is a kind of position-limit mechanism, is square rail, oval guide rail, trapezoidal Any one of guide rail, dovetail slideway, triangular guide；

The light path of the splitting/composing wave device is reversible.

The present invention has the following advantages：

1. compared with fixed connection device one can activity connector two in limited scope can up and down, back-and-forth motion It adjusts, can be adapted to the GPON/XGPON optical mode block sizes of compatible each producer, satisfaction is inserted into position and can smooth unlocking requirements；

2. compared to traditional WDM devices and module volume smaller, cost is lower, the advantages such as Insertion Loss smaller.

Description of the drawings

Fig. 1：The structure chart of double optical fiber connectors with wave splitting/composing.

Fig. 2：The explosive view of double optical fiber connectors with wave splitting/composing.

Fig. 3：The structure chart of inner sleeve B.

Fig. 4：The structure chart of inner sleeve A.

Fig. 5：The structure chart of housing A.

Fig. 6：The structure chart of housing B.

Fig. 7：The structure chart of rear enclosure.

Fig. 8：The structure chart of contact pin sub-assembly.

In figure：

1：Optical fiber connector one；2：Optical fiber connector two；3：Housing A；3-1：Guide rail；3-2：First groove；3-3：Front end Stop bit；3-4：Second groove；4：Inner sleeve A；4-1：First groove；4-2：Conducting bar；4-3：Protrusion；4-4:Second groove；5：Contact pin Sub-assembly A；5-1：Guide groove；6：Spring A；7：Rear enclosure A；8：Splitting/composing wave device；9：Rear enclosure B；10：Casing；11：Snap ring； 12：Tail sleeve；13：Housing B；13-1：Sliding slot；13-2：Protrusion；13-3：Antetheca；14：Inner sleeve B；14-1：Conducting bar；14-2：Groove； 14-3：Protrusion；15：Contact pin sub-assembly B；16：Spring B；17：Rear enclosure C.

Specific embodiment

The present invention is described in further detail below in conjunction with the accompanying drawings.

As shown in Figure 1 and Figure 2, a kind of double optical fiber connectors with wave splitting/composing of the present invention, comprising there are one light Fiber connector 1, an optical fiber connector 22 compared with one 1 position-adjustable of optical fiber connector；

It is provided in optical fiber connector 1 there are one splitting/composing wave device 8, is placed between rear enclosure A7 and rear enclosure B9；

The output optical fibre one of the splitting/composing wave device 8 is connected as one with the optical fiber set in optical fiber connector 1 Body；

The output optical fibre two of the splitting/composing wave device 8 is connected as one with the optical fiber set in optical fiber connector 22 Body；

The input optical fibre of the splitting/composing wave device 8 is connected as one with the other end tail optical fiber of optical fiber connector 1；

After the input optical fibre of the splitting/composing wave device 8 receives optical signal, optical signal is entered by input optical fibre and divided In ripple/multiplex device 8, become the optical signal of two kinds of different wave lengths after partial wave respectively by optical fiber connector 1 and optical fiber connector 22 outputs.

As shown in Fig. 2, the fiber optical fiber one of splitting/composing wave device 8 penetrates contact pin sub-assembly A5 through rear enclosure A7, spring A6 In；Contact pin sub-assembly A5 is penetrated in inner sleeve A4.As shown in Fig. 8,4, there is guide groove 5-1 on contact pin sub-assembly A5, and in inner sleeve A4 Conducting bar 4-2 cooperations, limitation contact pin sub-assembly A5 is around the axial rotation of optical fiber connector 1.

Rear enclosure B9, splitting/composing wave device 8, rear enclosure A7, spring A6 and contact pin component A5 are sequentially loaded into inner sleeve A4, and with Optical fiber connector 1 is formed after housing A3 crimping.

As shown in Fig. 4, Fig. 7, there is groove at two on the inner sleeve A4, be respectively the first groove 4-1, the second groove 4-4； There is raised 7-1 on the rear enclosure A7, there is protrusion on the rear enclosure B9, the second of the raised 7-1 and inner sleeve A4 of rear enclosure A7 is recessed Slot 4-4 coordinates；Rear enclosure B9 and the cooperation of inner sleeve A4 are same, and the rear enclosure B9 passes through protrusion and the first groove of inner sleeve A4 4-1 is engaged, and splitting/composing wave device 8, contact pin sub-assembly A5 is made axially not to come off or rotate along optical fiber connector 1；

As shown in Figure 4, Figure 5, there is the second groove 3-4 on housing A3, there is raised 4-3, inner sleeve A4 to lead on the shell of inner sleeve A4 It crosses protrusion 4-3 to be engaged with the second groove 3-4 on housing A3, and can be moved in the second groove 3-4 of housing A3.

As shown in Fig. 2, the optical fiber connector 1 also includes casing 10, snap ring 11 and tail sleeve 12 successively, snap ring 11 will Casing 10 blocks, and puts on tail sleeve 12, to protect optical fiber.

As shown in Figure 5, Figure 6, guide rail 3-1 is provided on the housing A3 of the optical fiber connector 1, the optical fiber connects It connects and sliding slot 13-1 is provided on the housing B13 of device 22, the guide rail 3-1 is engaged with sliding slot 13-1 realizes optical fiber connector 22 In the parallel square upward sliding of optical fiber connector 1；And the sliding slot 13-1 is vertical in optical fiber connector 1 with guide rail 3-1 Fit clearance is left on direction to realize that optical fiber connector 22 is finely tuned in one 1 vertical direction of optical fiber connector.

In conclusion double optical fiber connectors of the present invention compared with optical fiber connector 1 can activity optical fiber connect Connect device 22 in limited scope can up and down, move back and forth and adjust, to be adapted to the GPON/XGPON optical modes for being compatible with each producer Block size, satisfaction are inserted into position and can smooth unlocking requirements.Compared to traditional WDM devices and module volume smaller, cost is lower, The advantages such as Insertion Loss smaller.

As shown in Fig. 2, the fiber optical fiber two of splitting/composing wave device 8 passes through rear enclosure B9, from the optical fiber connector 1 It penetrates into optical fiber connector 22；The optical fiber connector 22 includes housing B13, inner sleeve B14, contact pin sub-assembly successively B15, spring B 16 and rear enclosure C17；

The fiber optical fiber two of the splitting/composing wave device 8 penetrates plug-in unit sub-assembly B15 through rear enclosure C17, spring B 16 In；The contact pin sub-assembly B15 penetrates inner sleeve B14.Contact pin sub-assembly B15, spring B 16 and rear enclosure C17 are sequentially loaded into inner sleeve In B14, optical fiber connector 22 is formed after being crimped with housing B13.

As shown in Figure 2,3, there is guide groove on contact pin sub-assembly B15, coordinate with the conducting bar 14-1 in inner sleeve B14, limitation is inserted Rotations of the needle assembly B15 along 22 axial direction of optical fiber connector；

As shown in Figure 2,3, there is protrusion on fluted 14-2 on the inner sleeve B14, the rear enclosure C17, rear enclosure C17's Protrusion and the groove 14-2 of inner sleeve C14 coordinate, and contact pin sub-assembly B15 is made not to be rotated up or come off in 22 axis of optical fiber connector；

It is fluted on housing B13 as shown in Fig. 3,6, there are raised 14-3, inner sleeve B14 to pass through protrusion on the shell of inner sleeve B14 Fit depressions on 14-3 and housing B13, and can be moved in the groove of housing B13.

As shown in Figure 5,6, there is a protrusion 13-2 in the sliding slot 13-1 of the optical fiber connector 22, with optical fiber connector The first groove 3-2 outside one 1 guide rail 3-1 is engaged, it is ensured that optical fiber connector 22 is parallel to optical fiber connector 1 It forward slip and is not fallen off on direction, meanwhile, when optical fiber connector 22 is slided backward along guide rail 3-1, optical fiber connection The antetheca 13-3 of the sliding slot 13-1 of device 22 touches the front end stop bit 3-3 of the guide rail 3-1 of optical fiber connector 1, can also prevent light Deviate from optical fiber connector 1 when fiber connector 22 slides backward.

The present invention relates to splitting/composing wave device 8, internal light path is reversible.

It should be noted that the guide rail 3-1 of the optical fiber connector 1 is a kind of position-limit mechanism, as in the present invention A kind of special case, preferred square rail, it is of course also possible to be oval guide rail either trapezoidal rails or dovetail slideway or three Angular guide rail etc..

Although the present invention has been illustrated in detail in and has described relevant specific embodiment reference, the technology of this field Personnel it should be appreciated that can make various change in the form and details in without departing substantially from the spirit and scope of the present invention Become.These changes fall within the protection domain required by the claim of the present invention.

Claims (9)

1. a kind of double optical fiber connectors with wave splitting/composing, it is characterised in that：

Comprising there are one optical fiber connector one (1), an optical fiber connectors compared with optical fiber connector one (1) position-adjustable Two (2)；

Splitting/composing wave device (8) there are one being set in the optical fiber connector one (1)；

The output optical fibre one of the splitting/composing wave device (8) is connected as one with the optical fiber set in optical fiber connector one (1) Body；

The output optical fibre two of the splitting/composing wave device (8) is connected as one with the optical fiber set in optical fiber connector two (2) Body；

The input optical fibre of splitting/composing wave device (8) is connected as one with the other end tail optical fiber of optical fiber connector one (1)；

After the input optical fibre of the splitting/composing wave device (8) receives optical signal, optical signal is entered by input optical fibre and divided In ripple/multiplex device (8), the optical signal for becoming two kinds of different wave lengths after partial wave is connected respectively by optical fiber connector one (1) and optical fiber Connect device two (2) output；

Guide rail (3-1) is provided on the housing A (3) of the optical fiber connector one (1), the optical fiber connector two (2) Sliding slot (13-1) is provided on housing B (13), the guide rail (3-1) is engaged with sliding slot (13-1) realizes optical fiber connector two (2) in the parallel square upward sliding of optical fiber connector one (1)；

And the sliding slot (13-1) leaves fit clearance with reality with guide rail (3-1) on the vertical direction of optical fiber connector one (1) Existing optical fiber connector two (2) is finely tuned in optical fiber connector one (1) vertical direction.

2. a kind of double optical fiber connectors with wave splitting/composing according to claim 1, it is characterised in that：The optical fiber Connector one (1) also includes inner sleeve A (4), contact pin sub-assembly A (5), spring A (6), rear enclosure A (7) and rear enclosure B (9) successively；

The splitting/composing wave device (8) is placed between rear enclosure A (7) and rear enclosure B (9), the splitting/composing wave device (8) Fiber optical fiber one is penetrated through rear enclosure A (7), spring A (6) in contact pin sub-assembly A (5), and contact pin sub-assembly A (5) penetrates inner sleeve A (4) in, rear enclosure B (9), rear enclosure A (7) form optical fiber connector one (1) after being crimped with housing A (3).

3. a kind of double optical fiber connectors with wave splitting/composing according to claim 2, it is characterised in that：

There is guide groove (5-1) on the contact pin sub-assembly A (5), coordinate with the conducting bar (4-2) in inner sleeve A (4), limit contact pin Sub-assembly A (5) is around optical fiber connector one (1) axial rotation；

There is groove at two on the inner sleeve A (4), be respectively the first groove (4-1), the second groove (4-4)；The rear enclosure A (7) have on raised (7-1), there is protrusion on the rear enclosure B (9), the rear enclosure A (7) passes through raised (7-1) and inner sleeve A (4) The second groove (4-4) be engaged, the rear enclosure B (9) is engaged by protrusion with the first groove (4-1) of inner sleeve A (4), Splitting/composing wave device (8), contact pin sub-assembly A (5) is made axially not to come off or rotate along optical fiber connector one (1)；The housing There is the second groove (3-4) on A (3), have raised (4-3) on the shell of the inner sleeve A (4), the inner sleeve A (4) is by convex It plays (4-3) to be engaged with the second groove (3-4) on housing A (3), and can be moved in the second groove (3-4) of housing A (3).

4. a kind of double optical fiber connectors with wave splitting/composing according to claim 2, it is characterised in that：

The optical fiber connector one (1) also includes casing (10), snap ring (11) and tail sleeve (12), described sleeve pipe (10) set successively On rear enclosure B (9), the snap ring (11) blocks casing (10), and tail sleeve (12) is put on snap ring (11), to protect light Fiber connector one (1).

5. a kind of double optical fiber connectors with wave splitting/composing according to claim 2, it is characterised in that：The partial wave/ The fiber optical fiber two of multiplex device (8) passes through rear enclosure B (9), and optical fiber connector two is penetrated into from the optical fiber connector one (1) (2) in.

6. a kind of double optical fiber connectors with wave splitting/composing according to claim 1, it is characterised in that：The optical fiber Connector two (2) includes housing B (13), inner sleeve B (14), contact pin sub-assembly B (15), spring B (16) and rear enclosure C (17) successively；

The fiber optical fiber two of the splitting/composing wave device (8) penetrates plug-in unit sub-assembly B through rear enclosure C (17), spring B (16) (15) in；The contact pin sub-assembly B (15) penetrates inner sleeve B (14), and optical fiber connector two is formed after being crimped with housing B (13) (2)。

7. a kind of double optical fiber connectors with wave splitting/composing according to claim 6, it is characterised in that：The inner sleeve B (14) (14-2) fluted on, there is protrusion on the rear enclosure C (17), and the rear enclosure C (17) passes through protrusion and inner sleeve B (14) Groove (14-2) match merge fix, contact pin sub-assembly B (15) is made not to be rotated up or take off in optical fiber connector two (2) axis Fall；

There is guide groove on the contact pin sub-assembly B (15), coordinate with the conducting bar (14-1) in inner sleeve B (14), limit pin groups Rotations of the component B (15) along optical fiber connector two (2) axial direction；

Have on the shell of the inner sleeve B (14) raised (14-3), fluted, described inner sleeve B on the housing B (13) (14) by raised (14-3) and the fit depressions on housing B (13), and can be moved in the groove of housing B (13).

8. a kind of double optical fiber connectors with wave splitting/composing according to claim 6, it is characterised in that：The optical fiber Have one raised (13-2) in the sliding slot (13-1) of connector two (2), with the guide rail (3-1) of optical fiber connector one (1) outside first Groove (3-2) is engaged, it is ensured that optical fiber connector two (2) forward slip on parallel to optical fiber connector one (1) direction And do not fall off, meanwhile, when optical fiber connector two (2) is slided backward along guide rail (3-1), the optical fiber connector two (2) The antetheca (13-3) of sliding slot (13-1) touches the front end stop bit (3-3) of the guide rail (3-1) of optical fiber connector one (1), can also prevent Deviate from optical fiber connector one (1) when only optical fiber connector two (2) slides backward.

9. a kind of double optical fiber connectors with wave splitting/composing according to claim 1, it is characterised in that：The optical fiber The guide rail (3-1) of connector one (1) is a kind of position-limit mechanism, be square rail, oval guide rail, trapezoidal rails, dovetail slideway, Any one of triangular guide；

The light path of the splitting/composing wave device (8) is reversible.