CN220271617U - Optical fiber module box suitable for high-density flat cable - Google Patents

Abstract

The utility model discloses an optical fiber module box suitable for high-density flat cables, which comprises a quadrangular module box bottom, a module box cover and an adapter panel, wherein a hollow window is arranged between one end of the module box cover and the adapter panel. The module box body comprises a module box cover and a module box bottom, the module box body is not required to be produced by a plurality of tiny parts to form the module box body, the production cost is reduced, the disassembly and the installation are very convenient, the optical fiber adapter can be directly seen from the direction of an empty window, the timely state of the optical fiber adapter can be visually seen, the first installation block and the second installation block are provided with gaps in the height direction, when two adjacent optical fiber module boxes are installed, the first installation block of the first optical fiber module box can be in the same width direction with the second installation block of the second optical fiber module box, the space of a chassis is favorable for full utilization, and when the module box cover is disassembled, the module box cover can be conveniently and smoothly disassembled by holding the pinching position.

Description

Optical fiber module box suitable for high-density flat cable

Technical Field

The utility model relates to the technical field of communication, in particular to an optical fiber module box suitable for high-density flat cables.

Background

With the increasing demand for communication bandwidth, optical fibers have been used in large numbers in wired communication networks,

the optical fiber distribution box is suitable for the wiring connection of optical cable and optical communication equipment, through the optical fiber module box of quick-witted incasement, draw forth the optical signal with the optical jumper wire, realize the optical distribution function, be applicable to the protective connection of optical cable and distribution optic fibre, also be applicable to the optic fibre termination point adoption in the optic fibre access network, there are a great deal of problems in current optical fiber module box, like CN216526422 optical fiber module box and optical fiber distribution box, the spare and accessory part of box body is many, manufacturing cost is high, the assembly process is complicated, the installation of module lid is dismantled inconveniently, and the inconvenient state of in-time observation optical fiber adapter when the optical fiber module is applied in the installation. The optical fiber module boxes are generally arranged on the optical fiber chassis or the optical fiber frame in a linear manner or more, and because the optical fiber module boxes need to be fixed on the optical fiber chassis or the optical fiber frame in position, the existing optical fiber module boxes are unreasonable in structural design, so that the number of the optical fiber module boxes which can be contained in the chassis is small, and the optical fiber module boxes cannot meet the requirements of a new generation of data center and communication network with high density, high performance and rapid deployment.

Disclosure of Invention

In order to overcome the defects in the prior art, the utility model provides a fiber optic module box suitable for high-density flat cables.

The technical scheme adopted for solving the technical problems is as follows: the utility model provides a fiber optic module box suitable for high density winding displacement, includes square module box bottom, with module box bottom complex module lid, adapter panel, module box bottom, module lid, adapter panel surround and form the module box body, the one end installation of module box body is fixed with the fiber optic adapter, the other end installation of module box body is fixed with the MPO adapter, module box lid and module box bottom screw connection, adapter panel and module box bottom fixed connection, be equipped with the sky window between one end of module lid and the adapter panel, the panel of adapter panel is equipped with one of several linear arrangement's mounting hole, one of mounting hole installation is fixed with the fiber optic adapter, the MPO adapter is installed on the opposite one end installation top of module box lid and adapter panel.

According to a further technical scheme, the two sides of the adapter panel are provided with a first mounting block and a second mounting block which extend out of the two sides of the bottom of the module box respectively, the first mounting block and the second mounting block are staggered along the height direction of the bottom of the module box, the first mounting block and the second mounting block are provided with a first mounting hole and a second mounting hole respectively, and the first mounting block and the second mounting block are provided with gaps in the height direction.

Further technical scheme, the module box bottom is including the quadrilateral bottom plate, be equipped with first baffle, with the adjacent second baffle that meets perpendicularly of first baffle, with the adjacent third baffle that meets perpendicularly of second baffle and in the opening all around of bottom plate, the opening sets up between first baffle and third baffle, the second baffle is equipped with mounting hole two, MPO adapter is installed in mounting hole two, the adapter panel sets up in the opening part.

Further technical scheme, the module lid is including the tetragonal roof, the both sides of roof are equipped with the first installation arm that extends and the installation arm that extends of pasting with the inner wall of first baffle, second baffle respectively, first extension installation arm and second extension installation arm all including the tie-beam that forms pi-shaped structure and the installation forearm that is connected perpendicularly downwards with the both ends of tie-beam, the junction of tie-beam and the side of roof is equipped with the fillet, the installation forearm that first extension installation arm and second extended the installation arm is equipped with the mounting hole third respectively and pastes with the inner wall of first baffle and second baffle respectively.

According to the further technical scheme, the hollow window is arranged between one end of the top plate and the adapter panel, the other end of the top plate is provided with an outwards protruding holding position, a notch is formed in the top of the second baffle, the notch is formed in the upper side of the second installation, and when the module box cover is assembled with the module box bottom, the holding position extends out of the notch.

The utility model has the beneficial effects that the optical fiber module box suitable for high-density flat cable is provided, the module box body comprises the module box cover and the module box bottom, the module box body is synthesized by a plurality of tiny parts without production, the production cost is reduced, the disassembly and the installation are very convenient, after the optical fiber adapter is installed, the optical fiber adapter can be directly seen from the direction of an empty window, and the optical fiber adapter is ensured to be installed in place when in work and the real-time state of the optical fiber adapter when in work is observed. When two or more installation blocks of the optical fiber module box are positioned on the optical fiber rack or the optical fiber box body at the same height position, the first installation block and the second installation block are provided with gaps in the height direction, so that when two adjacent optical fiber module boxes are installed, the first installation block of the first optical fiber module box and the second installation block of the second optical fiber module box can be arranged in the same width direction, the adjacent placing time interval of the two optical fiber module boxes is smaller, the space of a chassis is favorably fully utilized, the technical problem that the structural design of the conventional optical fiber module box is unreasonable is solved, the number of the optical fiber module boxes accommodated in the chassis is increased, and the high-density installation of the module boxes is realized. When the module box cover is removed, the module box cover can be conveniently and smoothly removed by holding the holding position.

Drawings

FIG. 1 is a schematic view of a fiber optic module case suitable for high density flat cables according to the present utility model.

FIG. 2 is a schematic diagram of an exploded view of a fiber optic module cassette suitable for high density flat cables according to the present utility model.

Fig. 3 is a schematic view of a module bottom of a fiber optic module case adapted for high-density flat cables according to the present utility model.

Fig. 4 is a schematic front view of an adapter panel of a fiber optic module cassette adapted for high density flat cables according to the present utility model.

Fig. 5 is a schematic view of a module case cover of a fiber optic module case suitable for high-density flat cables according to the present utility model.

Fig. 6 is a structural view of a fiber optic module case suitable for high density flat cables according to the present utility model in an installation application.

Fig. 7 is a schematic view of a module case body of a fiber optic module case suitable for high-density flat cables according to the present utility model.

Detailed Description

Embodiments of the present utility model will be described below with reference to the accompanying drawings and examples, but the embodiments of the present utility model are not limited to the following examples, and the present utility model relates to the relevant essential parts in the art, and should be regarded as known and understood by those skilled in the art.

In the description of the present utility model, it should be noted that, directions or positional relationships indicated by terms such as "upper", "lower", "inner", "outer", etc., are directions or positional relationships based on those shown in the drawings, or those that are conventionally put in use, are merely for convenience of describing the present utility model and simplifying the description, and do not indicate or imply that the apparatus or elements to be referred to must have a specific direction, be constructed and operated in a specific direction, and thus should not be construed as limiting the present utility model. Furthermore, the terms "a," "an," "the second," and the like are used merely for distinguishing between descriptions and not for indicating or implying a relative importance. In the description of the present utility model, it should also be noted that, unless explicitly stated and limited otherwise, the terms "disposed" and "connected" are to be interpreted broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the above terms in the present utility model will be understood in specific cases by those of ordinary skill in the art.

Referring to fig. 1 to 7, the present utility model is implemented as follows: the utility model provides a fiber optic module box suitable for high density winding displacement, is including square module box bottom 1, with module box bottom 1 complex module lid 2, adapter panel 3, module box bottom 1, module box lid 2, adapter panel 3 surround and form module box body 4, the one end installation of module box body 4 is fixed with fiber optic adapter 5, the other end installation of module box body 4 is fixed with MPO adapter 6, module box lid 2 and 1 screwed connection of module box bottom, adapter panel 3 and module box bottom 1 fixed connection, be equipped with empty window 7 between the one end of module box lid 2 and the adapter panel 3, the panel of adapter panel 3 is equipped with a plurality of linear arrangement's mounting hole one 31, the mounting hole one 31 installation is fixed with fiber optic adapter 5, the top is installed to the opposite one end of module box lid 2 and adapter panel 3 has MPO adapter 6.

The optical fiber adapter 5 and the MPO adapter 6 are fixedly installed at the two ends of the module box body 4 respectively, the module box is simple and convenient, the module box body 4 comprises a module box cover 2 and a module box bottom 1, the module box body 4 is synthesized by a plurality of tiny parts without production, the production cost is reduced, the disassembly and the installation are very convenient, and when a worker needs to operate an optical fiber jumper wire in a box body, the module box cover 2 is opened, so that the operation can be performed in the module box bottom 1. After the optical fiber adapter 5 is installed, the optical fiber adapter 5 can be directly seen from the direction of the hollow window 7, so that the timely state of the optical fiber adapter 5 can be visually seen, the optical fiber adapter 5 is installed in place when working, and the real-time state of the optical fiber adapter 5 is stable when working.

On the basis of the above embodiment, as a further preferred mode, the two sides of the adapter panel 3 are provided with a first mounting block 32 and a second mounting block 33 which extend out of two sides of the module box bottom 1 respectively, the first mounting block 32 and the second mounting block 33 are staggered along the height direction of the module box bottom 1, the first mounting block 32 and the second mounting block 33 are provided with a first mounting hole 321 and a second mounting hole 331 respectively, and the first mounting block 32 and the second mounting block 33 have a gap in the height direction.

When the optical fiber module box is fixed on an optical fiber rack or an optical fiber cabinet through the first mounting holes 321 and the second mounting holes 331 by using screws, when two or more mounting blocks of the optical fiber module box are positioned at the same height position, the first mounting block 32 and the second mounting block 33 are staggered along the height direction of the optical fiber module box, and a gap is reserved between the first mounting block 32 and the second mounting block 33 in the height direction, so that when two adjacent optical fiber module boxes are mounted, the first mounting block 32 of the first optical fiber module box and the second mounting block 33 of the second optical fiber module box can be positioned in the same width direction, the adjacent placement time of the two optical fiber module boxes is smaller, the space of the cabinet is fully utilized, the technical problem that the structural design of the traditional optical fiber module box is unreasonable is solved, the quantity of the cabinet accommodating optical fiber module boxes is improved, and the high-density mounting of the module boxes is realized.

On the basis of the above embodiment, as a further preferred aspect, the module box bottom 1 includes a quadrangular bottom plate 11, a first baffle 12, a second baffle 13 adjacent to the first baffle 12 and vertically connected to the bottom plate 11, a third baffle 14 adjacent to the second baffle 13 and vertically connected to the second baffle 13, and an opening 15, where the opening 15 is disposed between the first baffle 12 and the third baffle 14, the second baffle 13 is provided with a second mounting hole 131, the MPO adapter 6 is mounted in the second mounting hole 131, and the adapter panel 3 is disposed at the opening 15.

The bottom plate 11, the first baffle 12, the second baffle 13 and the third baffle 14 are integrally formed, so that the production cost is reduced.

On the basis of the above embodiment, as a further preferred aspect, the module box cover 2 includes a quadrangular top plate 21, two sides of the top plate 21 are provided with a first extending mounting arm 22 and a second extending mounting arm 23 which are respectively attached to inner walls of the first baffle 12 and the second baffle 13, the first extending mounting arm 22 and the second extending mounting arm 23 each include a connection beam 221 forming a n-shaped structure and a mounting forearm 222 vertically and downwardly connected with two ends of the connection beam 221, a connection part between the connection beam 221 and a side edge of the top plate 21 is provided with a round corner 24, and the mounting forearm 222 of the first extending mounting arm 22 and the second extending mounting arm 23 is respectively provided with a mounting hole three 223 and is respectively attached to inner walls of the first baffle 12 and the second baffle 13.

The top plate 21, the first extension mounting arm 22 and the second extension mounting arm 23 are integrally formed, reducing the production cost.

The first mounting arm and the first baffle 12 or the second mounting arm and the second baffle 13 are fixed through screws passing through the first baffle 12 or the second baffle 13 and the third mounting hole 223, so that the method is simple and convenient. The rounded corner 24 between the connecting beam 221 and the top plate 21 ensures that the whole module box cover 2 is free from internal stress during integral molding.

On the basis of the above embodiment, as a further preferred mode, the hollow window 7 is disposed between one end of the top plate 21 and the adapter panel 3, the other end of the top plate 21 is provided with a holding position 211 protruding outwards, the top of the second baffle 13 is provided with a notch 132, the notch 132 is disposed on the upper side of the second installation, and when the module box cover 2 is assembled with the module box bottom 1, the holding position 211 extends out of the notch 132.

When the module box cover 2 is removed, the holding position 211 can be held by hand, so that the module box cover 2 can be removed smoothly.

The foregoing is merely a preferred embodiment of the present utility model and it should be noted that modifications and adaptations to those skilled in the art may be made without departing from the principles of the present utility model, which are intended to be comprehended within the scope of the present utility model.

Claims (5)

1. The utility model provides a fiber optic module box suitable for high density winding displacement, characterized by is including square module box bottom (1), with module box bottom (1) complex module lid (2), adapter panel (3), module box bottom (1), module lid (2), adapter panel (3) surround and form module box body (4), fiber optic adapter (5) are installed to the one end of module box body (4), the other end installation of module box body (4) is fixed with MPO adapter (6), module lid (2) and module box bottom (1) screwed connection, be equipped with empty window (7) between one end of module lid (2) and adapter panel (3), the panel of adapter panel (3) is equipped with one if linear arrangement's mounting hole (31), one end opposite installation of module lid (2) and adapter panel (3) MPO adapter top (6) are installed in the installation of mounting hole (31).

2. The fiber optic module case suitable for high-density flat cables according to claim 1, wherein a first mounting block (32) and a second mounting block (33) extending out of two sides of the module case bottom (1) are arranged on two sides of the adapter panel (3), the first mounting block (32) and the second mounting block (33) are staggered along the height direction of the module case bottom (1), a first mounting hole (321) and a second mounting hole (331) are respectively arranged on the first mounting block (32) and the second mounting block (33), and a gap is formed between the first mounting block (32) and the second mounting block (33) in the height direction.

3. The fiber optic module case suitable for high-density flat cables according to claim 2, wherein the module case bottom (1) comprises a quadrilateral bottom plate (11), a first baffle (12), a second baffle (13) adjacent to the first baffle (12) and vertically connected with the bottom plate (11), a third baffle (14) adjacent to the second baffle (13) and vertically connected with the second baffle, and an opening (15), wherein the opening (15) is arranged between the first baffle (12) and the third baffle (14), the second baffle (13) is provided with a second mounting hole (131), the MPO adapter (6) is mounted in the second mounting hole (131), and the adapter panel (3) is arranged at the opening (15).

4. A fiber optic module box suitable for high-density flat cables according to claim 3, wherein the module box cover (2) comprises a quadrangular top plate (21), two sides of the top plate (21) are provided with a first extension mounting arm (22) and a second extension mounting arm (23) which are respectively attached to inner walls of the first baffle plate (12) and the second baffle plate (13), the first extension mounting arm (22) and the second extension mounting arm (23) both comprise a connecting beam (221) forming a n-shaped structure and mounting small arms (222) vertically and downwards connected with two ends of the connecting beam (221), a fillet (24) is arranged at a joint of the connecting beam (221) and the side edge of the top plate (21), and the mounting small arms (222) of the first extension mounting arm (22) and the second extension mounting arm (23) are respectively provided with mounting holes III (223) and are respectively attached to the inner walls of the first baffle plate (12) and the second baffle plate (13).

5. The fiber optic module case suitable for high-density flat cables according to claim 4, wherein the hollow window (7) is disposed between one end of the top plate (21) and the adapter panel (3), the other end of the top plate (21) is provided with an outwardly protruding holding position (211), a notch (132) is formed in the top of the second baffle (13), the notch (132) is disposed on the upper side of the second mounting, and the holding position (211) extends out of the notch (132) when the module case cover (2) is assembled with the module case bottom (1).