CN220171316U - Optical fiber link connecting device of optical fiber distribution box - Google Patents

Abstract

The utility model relates to the technical field of optical fiber installation, in particular to an optical fiber link connecting device of an optical fiber distribution box, which comprises a connector main body, wherein an integrated connecting plate is clamped on the rear side surface of the connector main body, a wire arranging plate is clamped on the rear side surface of the integrated connecting plate, the wire arranging plate comprises a plurality of wire arranging modules, two sides of each wire arranging module are clamped with edge modules, one side of each edge module is fixedly provided with an installation screw piece, optical fiber channels are alternately arranged in the middle of each wire arranging module and the middle of each edge module, and splicing clamping grooves and splicing clamping pieces are fixedly arranged on two sides of each wire arranging module. According to the utility model, the wire arranging modules and the edge modules are mutually spliced to form the wire arranging plate, the wire arranging plate freely slides on each optical fiber through the optical fiber channel and slides to a proper position inside the optical fiber junction box, and the wire arranging plate is fixed on the inner wall of the optical fiber junction box through the installation screw piece and the screw, so that the whole connector has the wire arranging effect, and a wire arranging structure is not required to be additionally arranged inside the optical fiber junction box.

Description

Optical fiber link connecting device of optical fiber distribution box

Technical Field

The utility model relates to the technical field of optical fiber installation, in particular to an optical fiber link connection device of an optical fiber distribution box.

Background

The optical fiber link is divided into a plurality of types such as wired communication and wireless communication, wherein the wired communication refers to physical connection between two points in the wired connection, good communication and information transmission operation in the use of optical fibers are performed through connection of the wired lines, the use of the optical fiber link performs shunting operation of information source transmission, the use of the optical fiber link is convenient for daily life, and meanwhile, the rapid transmission work of the information source is performed, and the optical fiber distribution box is an important shunting hub.

The internal split-flow interface of the optical fiber cross-connecting box is more at present, a plurality of optical fiber connectors and optical fibers can be connected simultaneously, the number of the optical fibers in the optical fiber cross-connecting box is increased when a split-flow channel is increased, and further, the disorder of the internal space of the box is inevitably caused, an additional matching wire arrangement structure is needed, the installation complexity of the optical fibers is increased, and the installation cost of the optical fibers is also increased.

Disclosure of Invention

The utility model aims at: in order to solve the problem that the current part of optical fiber distribution box is more in internal distribution interfaces, a plurality of optical fiber connectors and optical fibers can be connected simultaneously, the number of the optical fibers in the optical fiber distribution box is increased when a distribution channel is increased, and further disorder of the internal space of the box is inevitably caused, an extra matching wire arrangement structure is needed, the optical fiber installation complexity is increased, and meanwhile the installation cost of the optical fibers is also increased.

The aim of the utility model can be achieved by the following technical scheme:

the utility model provides an optic fibre distributing box optical fiber link connecting device, includes the connector main part, connector main part rear side surface joint has integrated connecting plate, integrated connecting plate rear side surface joint has the reason line board, the reason line board is including reason line module, reason line module quantity is a plurality of, reason line module both sides joint has the edge module, edge module one side fixed mounting has the installation helicoid, optical fiber channel has been seted up to reason line module, edge module middle part interlude, reason line module both sides fixed mounting has splice draw-in groove, splice fastener.

The connector is characterized in that the connector body comprises a plurality of plug shells, the optical fiber connectors are embedded and mounted on the front side surface of the plug shells, the optical fibers are fixedly connected with the rear side surface of the plug shells, and connecting plate clamping grooves are formed in the edges of two sides of the rear surface of the plug shells.

The integrated connecting plate is characterized in that the integrated connecting plate comprises a plurality of connecting plate modules, connecting buckles are fixedly arranged on the surface of the front side of each connecting plate module, and fiber channels are inserted in the middle of each connecting plate module.

The connecting plate is characterized in that a splicing clamping groove is formed in one side of the connecting plate module, a fastening buckle groove is formed in the bottom side of the inner portion of the splicing clamping groove, a splicing clamping piece is fixedly mounted on the other side of the connecting plate module, and a fastening buckle is fixedly mounted on the surface of the bottom side of the splicing clamping piece.

The wire arranging module and the edge module are fixedly arranged on the rear side surfaces of the wire arranging module and the edge module, and the front side surfaces of the wire arranging module and the edge module are provided with connecting slots.

The connecting plate module is characterized in that a connecting insert ring is fixedly arranged on the surface of the rear side of the connecting plate module.

Further, the connecting plate clamping groove is mutually buckled with the connecting buckle, and the connecting inserting ring is mutually buckled with the connecting slot.

The utility model has the beneficial effects that:

1. after the connector main body is connected with the optical fiber distribution box, all the wire arranging modules are spliced with each other to form a wire arranging module group, the edge modules are spliced at the edges of two sides of the wire arranging module group to form a complete wire arranging plate, the wire arranging plate freely slides on all the optical fibers through the optical fiber channels and slides to the proper position inside the optical fiber distribution box, and the wire arranging plate is fixed at the inner wall of the optical fiber distribution box through the mounting screw piece and the screw, so that the whole self-provided wire arranging effect of the connector is provided, and a wire arranging structure is not required to be additionally arranged inside the optical fiber distribution box.

2. The connecting plate modules connected with the rear sides of the plug shells of the same-row interfaces are spliced with each other to form an integrated connecting plate, and meanwhile, the integrated connecting plate is matched with each connector main body to form a relatively complete connector plate group, so that the integrated connector plate group is convenient to uniformly plug and pull when needed, when a single connector main body needs to be plugged, connecting buckles can be separated from connecting plate clamping grooves, the connecting plate modules slide on optical fibers through optical fiber channels, and connection limitation on the plug shells is relieved.

Drawings

The utility model is further described below with reference to the accompanying drawings.

FIG. 1 is a schematic view of the overall structure of the present utility model;

FIG. 2 is a schematic view of a connector body according to the present utility model;

FIG. 3 is a schematic view of an integrated connection board of the present utility model;

fig. 4 is a schematic view of a wire management board according to the present utility model.

In the figure: 1. a connector body; 101. a plug housing; 102. an optical fiber connector; 103. an optical fiber; 104. a connecting plate clamping groove; 2. an integrated connection board; 201. a connecting plate module; 202. a connecting buckle; 203. a fiber channel; 204. a splicing clamping groove; 205. fastening the buckling groove; 206. splicing clamping pieces; 207. fastening buckles; 3. a wire arranging plate; 301. a wire arranging module; 302. an edge module; 303. installing a spiral piece; 304. connecting the insert ring; 305. and a connection slot.

Detailed Description

The technical solutions of the embodiments of the present utility model will be clearly and completely described below in conjunction with the embodiments of the present utility model, and it is apparent that the described embodiments are only some embodiments of the present utility model, not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1-4, an optical fiber link connection device of an optical fiber junction box includes a connector main body 1, an integrated connection board 2 is clamped on the rear side surface of the connector main body 1, a wire management board 3 is clamped on the rear side surface of the integrated connection board 2, the wire management board 3 includes a plurality of wire management modules 301, edge modules 302 are clamped on two sides of the wire management modules 301, a mounting screw 303 is fixedly mounted on one side of the edge modules 302, optical fiber channels 203 are inserted in the middle of the wire management modules 301 and the edge modules 302, splicing clamping grooves 204 and splicing clamping pieces 206 are fixedly mounted on two sides of the wire management modules 301, after the connector main body 1 and the optical fiber junction box are connected, the wire management modules 301 are mutually spliced to form a wire management module 301 group, the edge modules 302 are spliced on two side edges of the wire management module 301 group to form a complete wire management board 3, and the wire management board 3 is free to slide on each optical fiber junction box through the optical fiber channels 203 and is fixed on the inner wall of the optical fiber junction box through the mounting screw 303 and screws, and the connector is endowed with an overall optical fiber junction box connection structure.

The connector main body 1 comprises a plurality of plug shells 101, wherein optical fiber connectors 102 are embedded in the front side surface of the plug shells 101, optical fibers 103 are fixedly connected to the rear side surface of the plug shells 101, and connecting plate clamping grooves 104 are formed in the edges of the two sides of the rear surface of the plug shells 101; the integrated connecting plate 2 comprises a plurality of connecting plate modules 201, connecting buckles 202 are fixedly arranged on the front side surfaces of the connecting plate modules 201, optical fiber channels 203 are alternately arranged in the middle of the connecting plate modules 201, when the integrated connecting plate is used, the connector body 1 and the interfaces on the optical fiber distribution box are mutually clamped to finish the connection work of an optical fiber link, meanwhile, the connecting plate modules 201 connected with the rear sides of the plug shells 101 of the same row of interfaces are mutually spliced to form an integrated connecting plate 2, and meanwhile, the integrated connecting plate 2 and each connector body 1 are mutually matched to form a relatively complete connector plate group, so that the integrated connecting plate can be conveniently and uniformly plugged when needed, each connecting plate module 201 is mutually clamped with the plug shells 101 through the connecting buckles 202 and the connecting plate clamping grooves 104, when a single connector body 1 needs to be plugged, the connecting buckles 202 can be separated from the connecting plate clamping grooves 104, the connecting plate modules 201 can slide on optical fibers through the optical fiber channels 203, and the connection limitation of the plug shells 101 is relieved.

A splicing clamping groove 204 is formed in one side of the connecting plate module 201, a fastening buckling groove 205 is formed in the bottom side of the inner part of the splicing clamping groove 204, a splicing clamping piece 206 is fixedly mounted on the other side of the connecting plate module 201, and a fastening buckle 207 is fixedly mounted on the surface of the bottom side of the splicing clamping piece 206; the rear side surfaces of the wire arranging module 301 and the edge module 302 are fixedly provided with connecting inserting rings 304, the front side surfaces of the wire arranging module 301 and the edge module 302 are provided with connecting slots 305, the connecting plate modules 201 are mutually buckled with the wire arranging modules 301 and the edge module 302 through similar mortise-tenon structures formed by splicing clamping pieces 206 and splicing clamping grooves 204, and are mutually buckled with the fastening buckles 207 through fastening buckling grooves 205 to fasten; a connecting insert ring 304 is fixedly arranged on the rear side surface of the connecting plate module 201; the connecting plate clamping groove 104 is mutually buckled with the connecting buckle 202, and the connecting inserting ring 304 is mutually buckled with the connecting slot 305.

Working principle: when in use, the connector main body 1 and the interface on the optical fiber distribution box are mutually clamped to complete the connection work of an optical fiber link, meanwhile, the connecting plate modules 201 connected with the rear sides of the plug shells 101 of the same row of interfaces are mutually spliced to form an integrated connecting plate 2, and simultaneously, the integrated connecting plate 2 and the connector main bodies 1 are mutually matched to form a relatively complete connector plate group, so that the connector main bodies 1 and the optical fiber distribution box are conveniently and uniformly plugged and unplugged when needed, the connecting plate modules 201 are mutually buckled with the plug shells 101 through the connecting buckles 202 and the connecting plate clamping grooves 104, when a single connector main body 1 is required to be plugged, the connecting buckles 202 can be separated from the connecting plate clamping grooves 104, the connecting plate modules 201 slide on optical fibers through the optical fiber channels 203 to release the connection limit of the plug shells 101, each wire arranging module 301 is spliced with each other to form a wire arranging module 301 group, edge modules 302 are spliced at edges of two sides of the wire arranging module 301 group to form a complete wire arranging plate 3, the wire arranging plate 3 freely slides on each optical fiber through the optical fiber channel 203 and slides to a proper position inside the optical fiber junction box, the wire arranging plate is fixed at the inner wall of the optical fiber junction box through the mounting screw piece 303 and screws, the connector is endowed with an integral self-provided wire arranging effect, a wire arranging structure is not required to be additionally arranged inside the optical fiber junction box, each connecting plate module 201 is mutually buckled with a mortise-like structure formed by splicing clamping pieces 206 and splicing clamping grooves 204 between each wire arranging module 301 and each edge module 302, and the connector is mutually clamped and fastened through fastening clamping grooves 205 and fastening buckles 207.

In the description of the present specification, the descriptions of the terms "one embodiment," "example," "specific example," and the like, mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the present utility model. In this specification, schematic representations of the above terms do not necessarily refer to the same embodiments or examples. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The foregoing is merely illustrative and explanatory of the utility model, as various modifications and additions may be made to the particular embodiments described, or in a similar manner, by those skilled in the art, without departing from the scope of the utility model or exceeding the scope of the utility model as defined in the claims.

Claims (7)

1. The utility model provides an optic fibre distributing box optical fiber link connecting device, includes connector main part (1), its characterized in that, connector main part (1) rear side surface joint has integrated connecting plate (2), integrated connecting plate (2) rear side surface joint has reason line board (3), reason line board (3) are including reason line module (301), reason line module (301) quantity is a plurality of, reason line module (301) both sides joint has edge module (302), edge module (302) one side fixed mounting has installation helicoid (303), optical fiber channel (203) have been seted up in reason line module (301), edge module (302) middle part interlude, reason line module (301) both sides fixed mounting has splice draw-in groove (204), concatenation fastener (206).

2. The optical fiber link connection device of the optical fiber distribution box according to claim 1, wherein the connector body (1) comprises a plurality of plug shells (101), optical fiber connectors (102) are embedded and installed on the front side surfaces of the plug shells (101), optical fibers (103) are fixedly connected to the rear side surfaces of the plug shells (101), and connecting plate clamping grooves (104) are formed in the two side edges of the rear surface of the plug shells (101).

3. The optical fiber link connection device of the optical fiber distribution box according to claim 2, wherein the integrated connection board (2) comprises a plurality of connection board modules (201), connection buckles (202) are fixedly installed on the front side surfaces of the connection board modules (201), and optical fiber channels (203) are inserted in the middle of the connection board modules (201).

4. A fiber optic splice box fiber link connection device according to claim 3, wherein a splice slot (204) is formed in one side of the connection board module (201), a fastening slot (205) is formed in the bottom side of the interior of the splice slot (204), a splice clip (206) is fixedly mounted on the other side of the connection board module (201), and a fastening buckle (207) is fixedly mounted on the bottom surface of the splice clip (206).

5. The optical fiber link connection device of the optical fiber distribution box according to claim 4, wherein connection inserting rings (304) are fixedly installed on the rear side surfaces of the wire arranging module (301) and the edge module (302), and connection slots (305) are formed on the front side surfaces of the wire arranging module (301) and the edge module (302).

6. The optical fiber link connection device of the optical fiber distribution box according to claim 5, wherein a connection insert ring (304) is fixedly installed on the rear side surface of the connection plate module (201).

7. The optical fiber link connection device of claim 6, wherein the connection board clamping groove (104) is fastened to the connection buckle (202), and the connection insert ring (304) is fastened to the connection slot (305).