CN202093215U

CN202093215U - Optical fiber fusion splicing and storage module

Info

Publication number: CN202093215U
Application number: CN2011201612543U
Authority: CN
Inventors: 朱雪锋; 邵海波; 刘灿胜; 周燕辉
Original assignee: Shenzhen Sunsea Telecommunications Co Ltd
Current assignee: Sunsea Telecommunications Co Ltd; Shenzhen Sunsea Telecommunications Co Ltd
Priority date: 2011-05-19
Filing date: 2011-05-19
Publication date: 2011-12-28
Anticipated expiration: 2021-05-19

Abstract

The utility model relates to an optical fiber fusion splicing and storage module, which comprises a fusion splicing tray and an optical fiber storage tray, wherein the optical fiber storage tray is connected to the fusion splicing tray in a sliding way and is used for storing a tail optical fiber; a fusion splicing area is arranged at the rear side of the fusion splicing tray; a gap adapted to the fusion splicing area is arranged at the rear side edge of the optical fiber storage tray and corresponds to the fusion splicing area; and the fusion splicing area is positioned in the gap when the optical fiber storage tray is contained in the fusion splicing tray. In the optical fiber fusion splicing and storage module of the utility model, the optical fiber storage tray is connected to the fusion splicing tray in a sliding way and can be contained in the fusion splicing tray; and compared with the existing optical fiber fusion splicing and storage module with the double-layer structure, the thickness of the optical fiber fusion splicing and storage module can be reduced, the optical fiber connecting capacity can be increased, an optical fiber fusion splicing and wiring module with the structure can be applied to an optical fiber cross connecting terminal without the fiber jumping function, and furthermore, the tail optical fiber is very convenient to operate and maintain as the optical fiber storage tray is slidably connected to the fusion splicing tray.

Description

A kind of fused fiber splice storage fiber module

Technical field

The fused fiber splice that the utility model relates to the optical communication field stores up fine device, more particularly, relates to a kind of fused fiber splice storage fiber module.

Background technology

Along with market light advances the continuous propelling that copper moves back demand, telecommunication user is on the increase, and business is constantly expanded, and the coverage rate of subscriber optical cable is more and more wider, and the fiber cable network structure more and more trends towards variation.For adapting to the demand of new model lower network distribution, begun at present to adopt and can improve the fiber cable cross connection box capacity, reduce the novel no jumping fiber fiber cable cross connection box of line loss.But existing welding distribution integrated module is to design at traditional cross connection distribution plant specially, coils fine finite capacity.

And existing fused fiber splice module generally adopts double-decker, comprises the distribution board that is positioned at the below, and is rotatably connected on the fusion joining disk on the distribution board, fusion joining disk distribution board upset relatively.During operation, fusion joining disk need be overturn, this is very inconvenient for the fiber cable cross connection box that adopts similar rack.

The utility model content

The technical problems to be solved in the utility model is, the above-mentioned defective at the fused fiber splice distribution integrated module of prior art provides a kind of fused fiber splice storage fiber module, have the fine space of big storage, and operation is also more convenient.

The technical scheme that its technical matters that solves the utility model adopts is: construct a kind of fused fiber splice storage fiber module, comprise a welding pallet, and be slidingly connected at being used in the described welding pallet and store the fine pallet of storage of tail optical fiber, the rear side of described welding pallet is provided with the welding area, the fine pallet of described storage be provided with the breach adaptive with the corresponding back side edge in described welding area with described welding area, when the fine pallet of described storage was housed in the described welding pallet, described welding area was positioned at described breach.

In fused fiber splice storage fiber module described in the utility model, the fine pallet of described storage has the fine district of a storage and long buffer zone surplus in the of.

In fused fiber splice storage fiber module described in the utility model, described welding area is provided with the welding position, and the edge of described welding area is provided with the welding area retaining wall, forms the opening for the optical fiber turnover between the end of described welding area retaining wall and the rear wall of described welding pallet.

In fused fiber splice storage fiber module described in the utility model, the back side edge of the fine pallet of described storage is provided with the fine district of storage retaining wall, and when the fine pallet of described storage was housed in the described welding pallet, described storage fine district retaining wall and described welding area retaining wall fitted.

In fused fiber splice storage fiber module described in the utility model, form naked fine inlet between first end of the fine district of described storage retaining wall and the right side wall of described welding pallet, form the tail optical fiber outlet between second end of the fine district of described storage retaining wall and the left side wall of described welding pallet, corresponding and the described tail optical fiber outlet of described surplus long buffer zone, described surplus long buffer zone comprises the guide wall of one section circular arc, and described guide wall exports towards described tail optical fiber.

In fused fiber splice storage fiber module described in the utility model, the left side wall of described welding pallet and the inboard of right side wall are respectively equipped with interior guide groove, and the limit, left side of the fine pallet of described storage and right edge are inserted respectively in the interior guide groove corresponding with it.

In fused fiber splice storage fiber module described in the utility model, guide groove is provided with spacing preiection in described, the limit, left side of described fiber storage tray and each side in the right edge are provided with screens behind a preceding screens and, the fine pallet of described storage is when being drawn to maximum position in the described fusion joining disk, described spacing preiection snaps in the described back screens, when the fine pallet of described storage was housed in the described welding pallet, described spacing preiection snapped in the described preceding screens.

In fused fiber splice storage fiber module described in the utility model, the left side wall of described welding pallet and the outside of right wall are respectively equipped with outer guide.

In fused fiber splice storage fiber module described in the utility model, the front side of the fine pallet of described storage is provided with front wall, and described front wall is provided with the label screens.

In fused fiber splice described in the utility model storage fiber module, the front side of the fine pallet of described storage is provided with a plurality of positions of berthing that are used to fix the connector of described tail optical fiber.

Implement fused fiber splice storage fiber module of the present utility model, has following beneficial effect: in fused fiber splice storage fiber module of the present utility model, storing up fine pallet is slidingly connected in the welding pallet, storing up fine pallet can be housed in the welding pallet, with respect to existing double-deck welding storage fiber module, can reduce the thickness of welding storage fiber module, increase the capacity that optical fiber connects, and the fused fiber splice Wiring module of this structure can be applied to not have in the fiber cable cross connection box of jumping fiber function, and because fine pallet of storage and welding pallet are slidingly connected, the operation and maintenance of tail optical fiber is all very convenient.

Description of drawings

The utility model is described in further detail below in conjunction with drawings and Examples, in the accompanying drawing:

Fig. 1 is the synoptic diagram of the fine pallet of storage of the preferred embodiment of welding of the present utility model storage fiber module when extracting out;

Fig. 2 is that the fine pallet of storage of the preferred embodiment of welding storage fiber module of the present utility model is housed in the synoptic diagram in the welding pallet;

Fig. 3 is the synoptic diagram of the preferred embodiment user mode of welding storage fiber module of the present utility model.

Embodiment

Understand for technical characterictic of the present utility model, purpose and effect being had more clearly, now contrast accompanying drawing and describe embodiment of the present utility model in detail.

As shown in Figure 1 to Figure 3, store up the synoptic diagram of the preferred embodiment of fiber module for welding of the present utility model, this welding storage fiber module comprises a welding pallet 1 and the fine pallet 2 of a storage, storing up fine pallet 2 is slidingly connected in the welding pallet 1, store up welding pallet 1 slip relatively of fine pallet 2, promptly storing up fine pallet 2 can be by extracting out in the welding pallet 1, or slides in fusion joining disk 1 and be housed in the welding pallet 1.

Welding pallet 1 is used for the welding of bare fibre 3 and tail optical fiber 4, and it has a welding area 10, is provided with welding position 101 in the welding area 10, and welding position 101 is used for fixing the joint of welding.The edge of welding area 10 is provided with welding area retaining wall 102, be formed for the opening 103,104 of cable turnover between the rear wall 11 of the end of welding area retaining wall 102 and welding pallet 1, its split shed 103 is used for naked fine 3 and enters into welding area 10, and opening 104 is used for tail optical fiber 4 and is drawn by welding area 10.

For the structure that makes whole welded module is more compact, be provided with the breach 211 adaptive in the back side edge 21 corresponding of the fine pallet 2 of storage with welding area 10 with welding area 10, when the fine pallet 2 of storage was housed in the welding pallet 1, welding area 10 was arranged in breach 211.The bottom of storing up fine pallet 2 and welding pallet 1 fits, and has made full use of the space like this, and the thickness of whole welding storage fiber module has only the general of original double-deck thickness, under same space, can realize the double of capacity that optical fiber connects.

In the present embodiment, store up fine pallet 2 and have the fine district 22 of storage, also have a surplus long buffer zone 23 except the same with the fine pallet of existing storage.Wherein the fine district 22 of storage is used to store the similar in tail optical fiber 4 and the fine district of existing storage, comprises two sections relative semicircular catch 221,222, and tail optical fiber 4 is coiled on the catch 221,222.Surplus long buffer zone 23 is used to store certain-length tail optical fiber 4, when being used for storing up fine pallet 2 and being extracted out by welding pallet 1, plays the effect of buffering, prevents because tail optical fiber 4 involves and bad influence is caused in welding area 10.Concrete, back side edge at the fine pallet 2 of storage is provided with the fine district of storage retaining wall 20, the partial shape of the fine district of storage retaining wall 20 and the shape of welding area retaining wall 102 are suitable, and the fine pallet 2 of storage when being housed in the welding pallet 1 and welding area retaining wall 102 fit, form naked fine inlet 202 between the right side wall 12 of first terminal 201 and welding pallet 1 of the fine district of storage retaining wall 20, naked fine 3 are incorporated into welding area 10 by naked fine inlet 20, form tail optical fiber outlet 204 between the left side wall 13 of second terminal 203 and welding pallet 1 of the fine district of storage retaining wall 20, tail optical fiber 4 is drawn by welding area 10 after be incorporated in the fine pallet 2 of storage by tail optical fiber outlet 204.It is 204 corresponding that surplus long buffer zone 23 and tail optical fiber export, surplus long buffer zone 23 comprises the guide wall 231 of one section circular arc, this guide wall 231 is towards tail optical fiber outlet 204, surplus long buffer zone 23 also comprises a guidepost 232, guide wall 231 and guidepost 232 are used for the tail optical fiber 4 in the surplus long buffer zone 23 is played the effect of guiding, prevent that tail optical fiber 4 is too chaotic arranging of surplus long buffer zone 23.

In the present embodiment, optical fiber for good fixedly welding storage fiber module, on rear wall 11, right side wall 12 and the left side wall 13 of welding pallet 1, all be provided with and tie up fine piece 105, it is the projections that have through hole that what is called is tied up fine piece 105, binding strap is passed optical fiber tied up by through hole and is tying up on the fine piece 105, play the effect of fixed fiber, prevent that inner fine cable is too chaotic.

In the present embodiment, storing up being slidingly connected of fine pallet 2 and welding pallet 1 specifically is to realize like this, guide groove 121,131 in the inboard of the right side wall 12 of welding pallet 1 and left side wall 13 is respectively equipped with stores up the right edge 23 and the limit, left side 24 of fine pallet 2 and inserts respectively accordingly in the guide groove 121,131.It will be appreciated that, store up being slidingly connected of fine pallet 2 and welding pallet 1 and do not limit to and above-mentioned concrete structure, also can be the sliding connection structure that other any routines are suitable for.In this enforcement, further, can on interior guide groove 131, set up spacing preiection 132, screens 241 and back screens 242 before the limit, left side 24 of the fine pallet 2 of storage is provided with, when the fine pallet 2 of storage is drawn to maximum position in by welding pallet 1, spacing preiection 132 snaps in the screens 242 of back, and when the fine pallet 2 of storage is housed in the welding pallet 1, spacing preiection 132 snaps in the preceding screens 241, interior guide groove 121 and to store up the structure of right edge 23 of fine pallet 2 identical with the structure on interior guide groove 131 and limit, left side 24 repeats no more.In the present embodiment, further, the storage of welding for convenience fiber module cooperates with fiber cable cross connection box, is provided with outer guide 123,133 at the right side wall 12 of welding pallet 1 and the outside of left side wall 13.

In the present embodiment, berthing of the connector of tail optical fiber 4 is provided with a plurality of positions 24 of berthing that connector berths that are used in the front side of the fine pallet of storage for convenience, and these positions 24 of berthing are some screens that are used to fix connector, connector can be entrapped in the screens, during use by taking out in the screens.

In the present embodiment, quick identification fibre core when safeguarding for convenience, the front side of storing up fine pallet 2 is provided with front wall 25, can be provided for placing the label screens 251 of label on the front wall 25, can conveniently discern fibre core like this.

In the present embodiment, further, can also on the welding area 10 of fusion joining disk 1, set up a fusion joining disk cover plate, change on the welding area 10, welding area 10 be played the effect of protection.

Referring to Fig. 3, when welding of the present utility model storage fiber module used, with well naked fine 3 entered welding pallet 1 by the right side, were fixed in tying up on the fine piece 105 on the right side wall 12 of welding pallet with the binding strap colligation, influenced naked fine 3 in the time of can preventing to store up fine pallet 2 slips.Naked fine 3 enter the welding area 10 of welding pallet 1 after the fine piece of tying up of welding pallet 1 rear wall 11 105 is fixing, unnecessary naked fine 3 take inventory the back in welding area 10 carries out welding with tail optical fiber 4.After tail optical fiber 4 after the welding is fixed by the fine piece 105 of tying up of rear wall 11 from welding pallet 1, after fixing, the fine piece 105 of tying up of fusion joining disk 1 left side wall 13 enters the surplus long buffer zone 23 that stores up fine pallet 2 left sides again, when being used to store up fine pallet 2 with respect to 1 slip of welding pallet, the extendable room of tail optical fiber 4, through behind the surplus long buffer zone 23 unnecessary tail optical fiber 4 being taken inventory behind the fine district 22 of storage, the berthing above the position 24 of berthing of the connector unification of all idle tail optical fibers 4 at last in the fiber storage tray front.

In welding storage fiber module of the present utility model, the welding and the protection of 1 realization naked fine 3 of welding pallet and tail optical fiber 4; Store up fine pallet 2 and take inventory space and parking place for tail optical fiber provides.Store up fine pallet 2 by guide rail with after welding pallet 1 is connected, store up fine pallet 2 relatively the welding pallet slide.Thereby be implemented in the operation tail optical fiber process, guarantee can not cause interference naked fine side.

The fine pallet of welding pallet of the present utility model 1 and storage 2 is stacked together, can guarantee that capacity doubles under the constant situation of box sizes of using this welding storage fiber module; Use the casing of this module can realize the fiber cable cross connection box of novel no jumping fiber function, reduce line loss, improve the transmission range of light signal; Use the fiber cable cross connection box of this module can effectively improve present fiber management confusion, situation difficult in maintenance; The welding storage fiber module of this structure is simple in structure, can adopt mould to produce in batches, helps reducing cost.

In conjunction with the accompanying drawings embodiment of the present utility model is described above; but the utility model is not limited to above-mentioned embodiment; above-mentioned embodiment only is schematic; rather than it is restrictive; those of ordinary skill in the art is under enlightenment of the present utility model; not breaking away under the scope situation that the utility model aim and claim protect, also can make a lot of forms, these all belong within the protection of the present utility model.

Claims

1. a fused fiber splice stores up fiber module, it is characterized in that, comprise a welding pallet, and be slidingly connected at being used in the described welding pallet and store the fine pallet of storage of tail optical fiber, the rear side of described welding pallet is provided with the welding area, the fine pallet of described storage be provided with the breach adaptive with the corresponding back side edge in described welding area with described welding area, when the fine pallet of described storage was housed in the described welding pallet, described welding area was positioned at described breach.

2. fused fiber splice storage fiber module according to claim 1 is characterized in that, the fine pallet of described storage has the fine district of a storage and long buffer zone surplus in the of.

3. fused fiber splice storage fiber module according to claim 2, it is characterized in that, described welding area is provided with the welding position, and the edge of described welding area is provided with the welding area retaining wall, forms the opening for the optical fiber turnover between the end of described welding area retaining wall and the rear wall of described welding pallet.

4. fused fiber splice storage fiber module according to claim 3 is characterized in that the back side edge of the fine pallet of described storage is provided with the fine district of storage retaining wall, and when the fine pallet of described storage was housed in the described welding pallet, described storage fine district retaining wall and described welding area retaining wall fitted.

5. fused fiber splice storage fiber module according to claim 4, it is characterized in that, form naked fine inlet between first end of the fine district of described storage retaining wall and the right side wall of described welding pallet, form the tail optical fiber outlet between second end of the fine district of described storage retaining wall and the left side wall of described welding pallet, corresponding and the described tail optical fiber outlet of described surplus long buffer zone, described surplus long buffer zone comprises the guide wall of one section circular arc, and described guide wall exports towards described tail optical fiber.

6. according to each described fused fiber splice storage fiber module of claim 1 to 5, it is characterized in that, the left side wall of described welding pallet and the inboard of right side wall are respectively equipped with interior guide groove, and the limit, left side of the fine pallet of described storage and right edge are inserted respectively in the interior guide groove corresponding with it.

7. fused fiber splice storage fiber module according to claim 6, it is characterized in that, guide groove is provided with spacing preiection in described, the limit, left side of described fiber storage tray and each side in the right edge are provided with screens behind a preceding screens and, the fine pallet of described storage is when being drawn to maximum position in the described fusion joining disk, described spacing preiection snaps in the described back screens, and when the fine pallet of described storage was housed in the described welding pallet, described spacing preiection snapped in the described preceding screens.

8. fused fiber splice storage fiber module according to claim 6 is characterized in that the left side wall of described welding pallet and the outside of right wall are respectively equipped with outer guide.

9. fused fiber splice storage fiber module according to claim 6 is characterized in that the front side of the fine pallet of described storage is provided with front wall, and described front wall is provided with the label screens.

10. fused fiber splice according to claim 6 storage fiber module is characterized in that, the front side of the fine pallet of described storage is provided with a plurality of positions of berthing that are used to fix the connector of described tail optical fiber.