CN204347290U - Welding distribution integrated module - Google Patents

Abstract

The utility model relates to a kind of welding distribution integrated module, include base and cover plate, the side walls enclose of base and form a cavity, cover plate can cover cavity, it is characterized in that: the front side wall opening part of base at least has two inserting holes for the inserting of tail optical fiber adapter, the outside in inserting hole is splayed configuration wide outside and narrow inside, the inner side in inserting hole is the splayed configuration of inner wide and outer narrow, and the reference column mutually disturbed by the adjacent tail optical fiber of restriction between adjacent inserting hole is spaced apart, compared with prior art, the utility model has the advantage of: be contained in by base, tail optical fiber in the space that installing plate and reference column limit, not only can left direction fiber but also can right direction fiber, freely adjust, welding independently separates with fiber storage in addition, the relative distribution board of fusion joining disk can overturn, welding, dish fibres etc. are easy to operate, do not interfere with each other, make welding convenient, simultaneously, independently fiber storage mechanism has expanded space greatly.

Description

Welding distribution integrated module

Technical field

The utility model relates to a kind of integrated module, not only can be used for welding and the terminal of optical cable, also can be used as the straight molten and placement optical branching device of passing by one's way of optical cable, belongs to communication network device technical field.

Background technology

The optical fiber welding that Fibre Optical Communication Technology uses in the market joins integrated module mainly based on 12 core pencil tail optical fiber welding distributions, and 12 core pencil tail optical fiber complex manufacturing, cost be high, not easily change, and construction maintenance cost is high.As disclosed in the patent No. Chinese utility model patent " joining cable welding storage integrated support holder structure " that is ZL201220044133.5 (notification number is CN 202453562 U), a kind of the utility model relates to one and joins cable welding storage integrated support holder structure, comprise tray body, tray body comprises the storage disks of dish and the fusion joining disk of lower wall, storage disks is divided into three parts, be respectively the first storage disks, second storage disks, 3rd storage disks, above-mentioned three storage disks are oval storage disks, the connector being provided with the pig tail connections that berths in the ellipse of the storage disks of ellipse berths plate, whole chromatogram tail optical fiber is installed in storage disks, mark paster is posted in the bottom of tray body.This is joined cable welding storage integrated support holder structure and is divided into 3 independently storage areas, the taking-up of very convenient tail optical fiber and storage, and can not affect 8 tail optical fibers in other 2 regions, highly beneficial to the protection of tail optical fiber; 3 independently storage area tail optical fiber take out use process in there is correspondence independently tail optical fiber passage, do not interfere with each other, find and arrange tail optical fiber very convenient; 4 tail optical fibers form an entirety, the coiling of very convenient tail optical fiber and taking-up by the plate that berths rotated.But in use, its integrated pallet fiber direction cannot be exchanged, and function singleness, there is poor universality, can make troubles to site operation, therefore needing to be improved further joining cable welding storage integrated pallet.

Summary of the invention

Technical problem to be solved in the utility model provides one can left (or right) fiber simultaneously with the welding distribution integrated module being convenient to distribution and molten fine operation.

The utility model solves the problems of the technologies described above adopted technical scheme: this welding distribution integrated module, include base and cover plate, it is characterized in that: the periphery of described base has convex wall and surrounds and form a cavity, described cover plate can cover described cavity, wherein, the front opening place of described base at least has two cross bore for tail optical fiber adapter inserting and in X font, and between adjacent described cross bore, form the reference column limiting adjacent tail optical fiber and mutually disturb, accordingly described cover plate is connected with an installing plate, described installing plate forms at least two crossed grooves equally in X font, under the state that installing plate lid is located at the convex wall of described perimeter, the spatial accommodation that can hold tail optical fiber is then limited between each adjacent reference column.

Effectively be fixed in cross bore and crossed grooves for strengthening tail optical fiber further, described cross bore entirety forms four sides facing each other, extend to form to center position the limited post established for tail optical fiber bottom card in the middle of described often pair of side, accordingly, in described crossed grooves, entirety also forms four sidewalls facing each other, extends to form the erection column established for tail optical fiber top card in the middle of described every oppose side wall to center position.

Preferred as such scheme, the both sides of described reference column are provided with overhanging elastic foot respectively side by side, and between two elastic foots, are not only provided with end mutually deviate from and last portion but also two legs relatively drawn close.When tail optical fiber is positioned at cross bore, the elastic foot on reference column and two legs more effectively can form the elastic force in direction to the left or to the right, so that tail optical fiber direction fiber to the left or to the right.

Further, fusion joining disk and distribution board is accommodated respectively from top to bottom in the spatial accommodation that described base and cover plate are formed, described distribution board center is formed with fiber storage region and is arranged on described base, and described fusion joining disk be positioned at distribution board with the space that cover plate forms and relative distribution board can overturn, described fusion joining disk center there is thermwelding base and dual-side along having the wire casing passed through for cable.Welding independently separates with fiber storage, and the relative distribution board of fusion joining disk can overturn, and welding, dish are fine easy to operate, do not interfere with each other, make a welding and secondary welding convenient.

Further, described distribution board is symmetrically arranged with the first fiber winding disk for fixed fiber and the second fiber winding disk, at least one mounting hole is provided with between described first fiber winding disk and the second fiber winding disk, the protruding formation one in the top protuberance of described mounting hole, the end face of this protuberance stretches out and is formed with the connecting pin of confession Optical Fiber Winding.When optical fiber enters distribution board from mounting hole, pass after connecting pin can be wrapped in, to increase the winding space of optical fiber.

Further, described distribution board being provided with at least one for managing fine sliver, relative two walls of described each sliver being outward extended with respectively the projection for increasing friction force.

As preferably, the front end of described projection is thinner, the voussoir that evagination is thickening gradually backward.Protruding optical fiber more being made not easily to drop when passing sliver in voussoir, having that structure is simple, the feature of good fixing effect.

Compared with prior art, the utility model has the advantage of: the front opening place due to base at least has two and forms at least two crossed grooves in X font equally for tail optical fiber adapter inserting and in the cross bore of X font and on the installing plate of cover plate, be contained in like this by base, tail optical fiber in the space that installing plate and reference column limit, not only can left direction fiber but also can right direction fiber, freely adjust, welding independently separates with fiber storage in addition, the relative distribution board of fusion joining disk can overturn, welding, dish fibres etc. are easy to operate, do not interfere with each other, make a welding and secondary welding convenient, simultaneously, independently fiber storage mechanism has expanded space greatly.

Accompanying drawing explanation

Fig. 1 is structural representation of the present utility model;

Fig. 2 is configuration state schematic diagram when installing plate is opened in the utility model;

Fig. 3 is Fig. 1 decomposition texture schematic diagram.

Embodiment

Below in conjunction with accompanying drawing embodiment, the utility model is described in further detail.

As shown in Figures 1 to 3, this welding distribution integrated module includes base 1 and cover plate 2, the periphery of base 1 has sidewall 11 and surrounds and form a cavity, cover plate 2 can cover cavity, wherein, the front side wall opening part of base 1 has 12 inserting holes 12 for the inserting of tail optical fiber adapter, the outside in inserting hole 12 is splayed configuration wide outside and narrow inside, the inner side in inserting hole 12 is the splayed configuration of inner wide and outer narrow, and the reference column 3 mutually disturbed by the adjacent tail optical fiber of restriction between adjacent inserting hole 12 is spaced apart, cover plate 2 is connected with an installing plate 21 accordingly, installing plate 21 forms 12 crossed grooves 22 equally in X font, under covering at installing plate 21 state being located at base 1 sidewall 11, the spatial accommodation that can hold tail optical fiber is then limited between each adjacent reference column 3.

Wherein, base 1 has X font jack 10, X font jack 10 accordingly in crossed grooves 22 upper of correspondence described X font and is used for holding and positioning adapter outer wall bottom card the first limited post 125, second limited post 126, the 3rd limited post 127 and the 4th limited post 128 established.Accordingly, crossed grooves 22 is also provided with for holding and locating and the first erection column 225, second erection column 226 of evagination on tail optical fiber adapter outer wall, the 3rd erection column 227 and the 4th erection column 228, first, second, third and fourth limited post and first, second, third and fourth erection column interact and are effectively fixed in X font jack 10 and crossed grooves 22 to strengthen tail optical fiber adapter.

Meanwhile, the both sides of reference column 3 are provided with the first overhanging elastic foot 31 and the second elastic foot 32 respectively side by side, and between the first elastic foot 31 and the second elastic foot 32, are not only provided with end mutually deviate from and last portion but also the first leg 33 and the second leg 34 relatively drawn close.When tail optical fiber is positioned at inserting hole 12, the first elastic foot 31 on reference column 3 and the second elastic foot 32 and the first leg 33 and the second leg 34 more effectively can form the elastic force in direction to the left or to the right, so that tail optical fiber direction fiber to the left or to the right.

Fusion joining disk 4 and distribution board 5 is accommodated from top to bottom respectively in the spatial accommodation that base 1 and cover plate 2 are formed, distribution board 5 center is formed with fiber storage region and is arranged on base 1, and the first fiber winding disk 51 and the second fiber winding disk 52 distribution board 5 is also symmetrically arranged with for fixed fiber, multiple mounting hole 6 is provided with between first fiber winding disk 51 and the second fiber winding disk 52, the all protruding formation one in the top protuberance 61 of each mounting hole 6, the end face of this protuberance 61 stretches out and is formed with the connecting pin 62 of confession Optical Fiber Winding.Distribution board 5 is provided with at least one for managing fine sliver 7, relative two walls of each sliver 7 are outward extended with respectively the projection 71 for increasing friction force, the front end of protruding 71 is thinner, the voussoir that evagination is thickening gradually backward.The profile design of this projection 71 is that voussoir more can make optical fiber not easily drop when passing sliver 7.And fusion joining disk 4 is positioned at space that distribution board 5 and cover plate 2 form and relative distribution board 5 can overturn, fusion joining disk 4 center there is thermwelding base and dual-side along having the wire casing 41 passed through for cable.

Claims (8)

1. a welding distribution integrated module, include base (1) and cover plate (2), the sidewall (11) of described base (1) surrounds and forms a cavity, described cover plate (2) can cover described cavity, it is characterized in that: the front side wall opening part of described base (1) at least has two inserting holes (12) for the inserting of tail optical fiber adapter, the outside of described inserting hole (12) is splayed configuration wide outside and narrow inside, the inner side of described inserting hole (12) is the splayed configuration of inner wide and outer narrow, and the reference column (3) mutually disturbed by the adjacent tail optical fiber of restriction between adjacent described inserting hole (12) is spaced apart.

2. welding distribution integrated module according to claim 1, it is characterized in that described cover plate (2) is connected with installing plate (21), described installing plate (21) forms at least two corresponding with described inserting hole (12) crossed grooves (22) in X font, described crossed grooves (22) is to be used for holding and to locate the erection column (225 with evagination on tail optical fiber adapter outer wall, 226,227,228).

3. welding distribution integrated module according to claim 2, it is characterized in that crossed grooves (22) upper of described base (1) in correspondence described X font, have X font jack (10) accordingly, described X font jack (10) is used for holding and the limited post (125 of evagination on positioning adapter outer wall, 126,127,128).

4. the welding distribution integrated module according to claim 1 or 2 or 3, it is characterized in that the both sides of described reference column (3) are provided with overhanging elastic foot (31 respectively side by side, 32), and at two elastic foots (31,32) be not only provided with end between mutually to deviate from and last portion but also two legs relatively drawn close (33,34).

5. the welding distribution integrated module according to claim 1 or 2 or 3, it is characterized in that accommodating fusion joining disk (4) and distribution board (5) from top to bottom respectively in the spatial accommodation that described base (1) and cover plate (2) are formed, described distribution board (5) center is formed with fiber storage region and is arranged on described base (1), and described fusion joining disk (4) is positioned at space that distribution board (5) and cover plate (2) form and relative distribution board (5) can overturn, described fusion joining disk (4) center has thermwelding base and dual-side edge has the wire casing (41) passed through for cable.

6. welding distribution integrated module according to claim 4, it is characterized in that described distribution board (5) being symmetrically arranged with the first fiber winding disk (51) for fixed fiber and the second fiber winding disk (52), at least one mounting hole (6) is provided with between described first fiber winding disk (51) and the second fiber winding disk (52), the protruding formation one in top protuberance (61) of described mounting hole (6), the end face of this protuberance (61) stretches out and is formed with the connecting pin (62) of confession Optical Fiber Winding.

7. the welding distribution integrated module according to claim 4 or 5, it is characterized in that described distribution board (5) being provided with at least one for managing fine sliver (7), relative two walls of described each sliver (7) being outward extended with respectively the projection (71) for increasing friction force.

8. welding distribution integrated module according to claim 7, is characterized in that the front end of described projection (71) is thinner, the voussoir that evagination is thickening gradually backward.