CN219179653U - Receiving branching unit suitable for multiple interfaces - Google Patents

Abstract

The utility model relates to the technical field of splitters, in particular to a receiving splitter applicable to various interfaces; the utility model is suitable for receiving splitters with various interfaces, comprising a splitter body, wherein the outer side wall of the splitter body is provided with a protection mechanism and a wire arrangement mechanism, the protection mechanism comprises a turning plate, the outer side wall of the turning plate is provided with a through hole, a supporting shaft is arranged in the through hole, the outer side wall of the supporting shaft is provided with a torsion spring, the torsion spring is arranged in the through hole, the left side and the right side of the supporting shaft are both provided with supporting blocks, the front side of the turning plate is provided with a first shifting block, the wire arrangement mechanism is positioned at the top of the turning plate and is matched with the turning plate, and an optical fiber jack is shielded by the turning plate, so that the effects of protecting the optical fiber jack and preventing dust from entering are achieved; the optical fiber wire is placed in the wire slot, and the spring drives the baffle to reset so as to shield the wire slot, thereby playing the roles of protecting the optical fiber wire and preventing the dust falling out of the wire slot.

Description

Receiving branching unit suitable for multiple interfaces

Technical Field

The utility model relates to the technical field of splitters, in particular to a receiving splitter suitable for various interfaces.

Background

The Chinese patent with the bulletin number of CN211856988U discloses a novel optical divider suitable for various optical fibers, which comprises a housing, the bottom four corners department of casing all is equipped with the angle pad, one side outer wall middle part of casing is equipped with a set of optical fiber jack, and the optical fiber jack model of a set of optical fiber jack is progressively decreased gradually, be equipped with the fibre channel pilot lamp under the optical fiber jack, one side outer wall that the casing is close to the optical fiber jack is opened there is the plug fixed slot, and the inner wall of plug fixed slot is equipped with the wire casing, the inner wall grafting of wire casing has the pull power cord. According to the utility model, a series of optical fiber jacks with different apertures are arranged on the back, different optical fiber interfaces are used for apertures with different specifications, a side reserved bin is arranged on the side surface of the optical fiber cable connector, the optical fiber connector can be connected with common interface types, the cable slot and the compression bar are level and stacked by classifying the cables according to different cable interfaces and cable thicknesses, so that the cables at the interface end are ensured to be orderly planned, and the cables are convenient to disassemble;

the prior art solutions described above have the following drawbacks: the optical fiber jack on the whole branching unit is not provided with a protection mechanism, the optical fiber jack is directly exposed outside, so that the optical fiber jack is easy to damage and enter ash, meanwhile, the wire slot is open and easy to enter ash, cleaning is also troublesome, and aiming at the situation, the technical innovation is carried out on the basis of the existing receiving branching unit applicable to various interfaces.

Disclosure of Invention

The present utility model is directed to a receiving splitter suitable for multiple interfaces, so as to solve the above-mentioned problems in the prior art.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides a receive branching unit suitable for multiple interface, includes the branching unit body, the lateral wall of branching unit body is provided with protection machanism and reason line mechanism, protection machanism is including turning over the board, the through-hole has been seted up to the lateral wall of turning over the board, be provided with the back shaft in the through-hole, the lateral wall of back shaft is provided with the torsional spring, the torsional spring sets up in the through-hole, the left and right sides of back shaft all is provided with the supporting shoe, the front side of turning over the board is provided with first shifting block, reason line mechanism is located the top of turning over the board and cooperatees with turning over the board.

Preferably, the wire arranging mechanism comprises a baffle, two groups of springs are uniformly arranged on the outer side wall of the baffle, and a second shifting block is arranged at the top of the baffle.

Preferably, the supporting block is arranged on the front side of the branching unit body, the top of the branching unit body is uniformly provided with a wire slot, and the side wall of the inner side wall of the wire slot is provided with a sliding slot.

Preferably, the spring and the baffle are both arranged in the chute, and the front side of the splitter body is uniformly provided with a plurality of groups of optical fiber jacks with different types.

Preferably, the optical fiber jack is aligned with the raceway, and the flap corresponds to the optical fiber jack.

Preferably, the top of branching unit body is seted up flutedly, inlay in the recess has the iron strap, the magnetic stripe has been adsorbed at the top of iron strap, the top of magnetic stripe is provided with the dust screen, the dust screen is corresponding with the radiating groove at branching unit body top.

Compared with the prior art, the utility model has the following beneficial effects:

the utility model discloses a receiving branching unit suitable for multiple interface shields the optical fiber jack through turning over the board to this plays the effect of protection optical fiber jack and prevent dust entering;

placing the optical fiber wire into the wire slot, and enabling the spring to drive the baffle to reset so as to shield the wire slot, thereby playing the roles of protecting the optical fiber wire and preventing the dust falling out of the wire slot;

external dust is prevented from entering the splitter body from the radiating groove through the dust screen, and meanwhile the dust screen is adsorbed on the splitter body in a magnetic attraction mode, so that the effect of cleaning by rapidly disassembling the dust screen is achieved.

Drawings

Fig. 1 is a schematic structural diagram of a receiving splitter applicable to various interfaces;

FIG. 2 is a right side cross-sectional view of a receiving splitter suitable for use with multiple interfaces of the present utility model;

FIG. 3 is an enlarged view of portion A of FIG. 2 of a receiving splitter adapted for use with multiple interfaces;

fig. 4 is a front cross-sectional view of a receiving splitter suitable for use with a variety of interfaces.

In the figure: 1. a support block; 11. turning plate; 12. a support shaft; 13. a torsion spring; 14. a first dial block; 2. a spring; 21. a baffle; 22. a second dial block; 3. a splitter body; 4. a wire slot; 5. an optical fiber jack; 6. a dust screen; 61. a magnetic stripe; 62. iron bars.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but 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. 2-4, a receiving splitter suitable for multiple interfaces comprises a splitter body 3, wherein a protection mechanism and a wire arranging mechanism are fixedly arranged on the outer side wall of the splitter body 3, the protection mechanism comprises a turning plate 11, a through hole is formed in the outer side wall of the turning plate 11, a supporting shaft 12 is rotatably arranged in the through hole, a torsion spring 13 is fixedly arranged on the outer side wall of the supporting shaft 12, the torsion spring 13 is fixedly arranged in the through hole, supporting blocks 1 are fixedly arranged on the left side and the right side of the supporting shaft 12, a first shifting block 14 is fixedly arranged on the front side of the turning plate 11, the wire arranging mechanism is positioned at the top of the turning plate 11 and matched with the turning plate 11, the wire arranging mechanism comprises a baffle 21, two groups of springs 2 are uniformly and fixedly arranged on the outer side wall of the baffle 21, a second shifting block 22 is fixedly arranged on the top of the baffle 21, the supporting block 1 is fixedly arranged on the front side of the splitter body 3, a wire slot 4 is uniformly formed in the top of the splitter body 3, the side wall of the inner side wall of the wire slot 4 is provided with a chute, the spring 2 and the baffle 21 are both arranged in the chute in a sliding way, the front side of the splitter body 3 is uniformly provided with a plurality of groups of optical fiber jacks 5 with different types, the optical fiber jacks 5 are aligned with the wire slot 4, the turning plate 11 corresponds to the optical fiber jacks 5, the optical fiber jacks 5 are shielded through the turning plate 11, the effect of protecting the optical fiber jacks 5 and preventing dust from entering is achieved, the first shifting block 14 is shifted to drive the turning plate 11 to turn down to open the optical fiber jacks 5, then the optical fiber plug is pumped in, the second shifting block 22 is pulled to drive the baffle 21 to move into the chute, the wire slot 4 can be opened, then the optical fiber wire is put into the wire slot 4, the spring 2 drives the baffle 21 to reset to shield the wire slot 4, the effects of protecting the optical fiber wire and preventing the wire slot 4 from dust are achieved, the groove is arranged at the top of the splitter body 3, the iron strip 62 is inlayed in the recess, and the magnetic stripe 61 has been adsorbed at the top of iron strip 62, and the fixed dust screen 6 that is provided with in top of magnetic stripe 61, dust screen 6 are corresponding with the radiating groove at branching unit body 3 top, prevent through dust screen 6 that outside dust from getting into branching unit body 3 from the radiating groove, and dust screen 6 adsorbs on branching unit body 3 through the mode that the magnetism is inhaled simultaneously to this realizes dismantling dust screen 6 fast and carries out the effect of clearance.

Working principle: the optical fiber jack 5 is shielded through the turning plate 11, thereby playing the effect of protecting the optical fiber jack 5 and preventing dust from entering, the first shifting block 14 is shifted to drive the turning plate 11 to turn down and open the optical fiber jack 5, then the optical fiber plug is pumped in, the second shifting block 22 is pulled to drive the baffle 21 to move into the chute, the wire slot 4 can be opened, the optical fiber wire is put into the wire slot 4, the spring 2 drives the baffle 21 to reset to shield the wire slot 4, thereby playing the effects of protecting the optical fiber wire and preventing the wire slot 4 from falling ash, the dust screen 6 prevents external dust from entering the splitter body 3 from the heat dissipation slot, and meanwhile, the dust screen 6 is adsorbed on the splitter body 3 in a magnetic attraction manner, thereby realizing the effect of quickly disassembling the dust screen 6 for cleaning.

It is noted that relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present utility model have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. A receiving splitter suitable for multiple interfaces, comprising a splitter body (3), characterized in that: the utility model discloses a branching unit, including branching unit body (3), protection mechanism and reason line mechanism, protection mechanism includes turns over board (11), the through-hole has been seted up to the lateral wall that turns over board (11), be provided with back shaft (12) in the through-hole, the lateral wall of back shaft (12) is provided with torsional spring (13), torsional spring (13) set up in the through-hole, the left and right sides of back shaft (12) all is provided with supporting shoe (1), the front side that turns over board (11) is provided with first shifting block (14), reason line mechanism is located the top that turns over board (11) and cooperatees with turning over board (11).

2. A receiving splitter adapted for use with multiple interfaces according to claim 1, wherein: the wire arranging mechanism comprises a baffle plate (21), two groups of springs (2) are uniformly arranged on the outer side wall of the baffle plate (21), and a second shifting block (22) is arranged at the top of the baffle plate (21).

3. A receiving splitter adapted for use with multiple interfaces according to claim 2, wherein: the supporting block (1) is arranged on the front side of the branching unit body (3), the top of the branching unit body (3) is uniformly provided with the wire grooves (4), and the side wall of the inner side wall of the wire groove (4) is provided with the sliding grooves.

4. A receiving splitter adapted for use with multiple interfaces according to claim 3, wherein: the spring (2) and the baffle (21) are arranged in the chute, and the front side of the splitter body (3) is uniformly provided with a plurality of groups of optical fiber jacks (5) with different types.

5. A receiving splitter for multiple interfaces according to claim 4, wherein: the optical fiber jack (5) is aligned with the wire slot (4), and the turning plate (11) corresponds to the optical fiber jack (5).

6. A receiving splitter for multiple interfaces according to claim 5, wherein: the novel optical splitter is characterized in that the top of the splitter body (3) is provided with a groove, an iron strip (62) is inlaid in the groove, a magnetic strip (61) is adsorbed on the top of the iron strip (62), a dust screen (6) is arranged on the top of the magnetic strip (61), and the dust screen (6) corresponds to a heat dissipation groove on the top of the splitter body (3).

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