CN218728225U - Optical fiber card wire slot component and network equipment junction box - Google Patents

Abstract

The utility model relates to the technical field of communication accessories, and discloses an optical fiber card slot component and a network equipment junction box; the optical fiber fixing device comprises a wire clamping plate, wherein a plurality of wire clamping grooves for fixing optical fibers are arranged at intervals along the length direction of the wire clamping plate; the optical fiber connector also comprises a plug which is used for fixing the optical fiber at the slot bottom of the slot clamping slot and plugging the slot clamping slot; through the arrangement, the sealing performance of the optical fiber wire clamping groove component is better improved, so that the sealing performance of the junction box main body is better improved; and the optical fiber slot clamping component is convenient for the installation of the optical fiber at the main body of the distribution box, and better promotes and maintains the uniformity of the optical fiber in the main body of the distribution box.

Description

Optical fiber card wire slot component and network equipment junction box

Technical Field

The utility model relates to a communication accessory technical field, specifically speaking relates to an optical fiber card wire casing component and network equipment junction box.

Background

The network equipment junction box is mainly used for connecting trunk optical fibers and distribution optical fibers in a corridor or indoors, through holes for the trunk optical fibers and the distribution optical fibers to pass through are usually formed in the side wall of the existing network equipment junction box, and as the optical fibers have more roots, an optical fiber wire clamping groove component for arranging the optical fibers is arranged in the network equipment junction box, and the existing optical fiber wire clamping groove component usually comprises a wire clamping plate and a wire clamping groove which is arranged on the wire clamping plate at intervals and used for clamping the optical fibers.

When the existing network equipment junction box is used for installing optical fibers, the end parts of a plurality of optical fibers need to pass through the through holes and then be inserted into the interface parts in the network equipment junction box, and finally the optical fibers are clamped into the corresponding wire clamping grooves; in addition, in order to facilitate the installation of the optical fibers, a gap is reserved between the side wall of the through hole of the existing network equipment junction box and the peripheral wall of the optical fibers, so that pollutants such as dust can enter the network equipment junction box from the gap to pollute the internal fittings of the network equipment junction box, and the sealing performance of the network equipment junction box is reduced.

In order to facilitate the installation and arrangement of optical fibers, workers can refit the network equipment junction box by installing the existing optical fiber slot clamping component on the side wall of the network equipment junction box, but gaps still exist between the side wall of the slot clamping groove of the network equipment junction box and the optical fibers after the refitting, so that the aim of improving the sealing property is difficult to achieve.

SUMMERY OF THE UTILITY MODEL

Poor and the inconvenient defect of optic fibre installation of current network equipment junction box leakproofness to existence among the prior art, the utility model provides an optic fibre card wire casing component and network equipment junction box. The sealing performance of the optical fiber slot clamping component is improved, so that the sealing performance of the network equipment junction box using the optical fiber slot clamping component is improved, and the network equipment junction box facilitates the installation of optical fibers.

In order to solve the technical problem, the utility model discloses a following technical scheme can solve:

an optical fiber wire clamping groove component comprises a wire clamping plate matched with a network equipment junction box, wherein a plurality of wire clamping grooves for fixing optical fibers are arranged at the wire clamping plate at intervals along the length direction of the wire clamping plate; the optical fiber cable connector also comprises a plug which is used for fixing the optical fiber at the groove bottom of the cable clamping groove and plugging the cable clamping groove.

Through the above, the sealing performance of the optical fiber wire clamping groove component is better improved, and the optical fiber wire clamping groove component is used for being matched with the side wall of the network equipment junction box, so that the sealing performance of the network equipment junction box using the optical fiber wire clamping groove component is better improved, and the installation of optical fibers in the network equipment junction box using the optical fiber wire clamping groove component is facilitated.

The arrangement of the wire clamping groove can better realize the arrangement of multiple optical fibers, so that the neatness of the optical fibers in the network equipment junction box using the optical fiber wire clamping groove component is better improved and maintained.

Compared with the existing network equipment junction box provided with the through hole, the network equipment junction box using the optical fiber slot clamping component can conveniently install optical fibers.

Preferably, the wire clamping groove is provided with an upper end opening, a left side opening and a right side opening, and the wire clamping groove is provided with a lower side wall, a front side wall and a rear side wall; the upper end opening is provided with two first clamping strips which are respectively arranged at the front side wall and the rear side wall, the left side opening is provided with two second clamping strips which are respectively arranged at the front side wall and the rear side wall, the right side opening is provided with two third convex blocks which are respectively arranged at the front side wall and the rear side wall, the third convex blocks are far away from the lower side wall, and the first clamping strips, the second clamping strips and the third convex blocks are matched together to fix the plug at the wire clamping groove; the end cap can elastically deform and can move to the wire clamping groove from the opening at the right side between the third bump and the lower side wall.

Through the common arrangement of the first clamping strip, the second clamping strip and the third bump, the plug is preferably fixed at the wire clamping groove, so that the plug is preferably prevented from being separated from the wire clamping groove, and the sealing performance of the optical fiber wire clamping groove component is preferably improved.

Preferably, the end wall of the downward side wall of the plug forms a first arc-shaped surface used for being matched with the peripheral wall of the optical fiber, and the end wall of the downward side wall of the plug forms a stepped surface used for being matched with the first clamping strip.

Through the setting of ladder face and first arcwall face, after the end cap card goes into the card wire casing, the ladder face laminates with first card strip each other, and first arcwall face laminates with the optic fibre periphery wall each other, so has promoted the leakproofness of this optic fibre card wire casing component better.

Preferably, the lower sidewall forms a second arc-shaped face for fitting with the outer peripheral wall of the optical fiber.

Through the setting of the second cambered surface in this embodiment, after the optic fibre card was gone into card slot tank bottom, the second cambered surface laminated with optic fibre peripheral wall mutually, so promoted the leakproofness of this optic fibre card slot component better.

Preferably, a gap is formed between the second clamping strip and the lower side wall, and a third arc-shaped surface matched with the outer peripheral wall of the optical fiber is formed on the end surface of the second clamping strip facing the lower side wall.

Through the arrangement of the notch in the embodiment, after the optical fiber is clamped into the notch at the bottom of the slot of the wire clamping groove, the third arc-shaped surface preferably limits the movement of the optical fiber, so that the positioning of the optical fiber is preferably facilitated; and the third arc-shaped surface matched with the outer peripheral wall of the optical fiber preferably reduces the gap between the third arc-shaped surface and the outer peripheral wall of the optical fiber, so that the stability of the optical fiber after positioning is further improved, and the installation of the plug is better facilitated.

Preferably, the two ends of the line clamping plate along the length direction are provided with T-shaped blocks used for being clamped and matched with the side walls of the distribution box. Therefore, the installation and the positioning of the line clamping plate are better facilitated.

A network equipment junction box comprises a junction box main body, wherein a mounting groove for mounting an optical fiber slot clamping component is formed in the side wall of the junction box main body. Therefore, the installation of the line clamping plate is better facilitated.

Preferably, a T-shaped groove used for being matched with the T-shaped block is arranged on the side wall of the mounting groove.

The T-shaped block is matched with the T-shaped groove, so that the stability of the line clamping plate after installation is improved better; and the interception surface formed between the T-shaped block and the T-shaped groove better prevents dust from entering the interior of the junction box main body, so that the sealing performance of the junction box main body is better improved.

Drawings

Fig. 1 is a schematic structural diagram of a distribution box of a network device in embodiment 1.

Fig. 2 is an enlarged schematic view of the structure a in example 1.

Fig. 3 is a schematic structural view of an optical fiber slot clamping groove member in embodiment 1.

Fig. 4 is an enlarged schematic view of the structure B in embodiment 1.

Fig. 5 is an enlarged schematic view of the structure C in example 1.

Fig. 6 is a schematic structural view of an optical fiber slot clamping groove member in embodiment 1.

Fig. 7 is an enlarged schematic view of the structure D in embodiment 1.

Fig. 8 is a schematic structural view of the plug in embodiment 1.

Detailed Description

For a further understanding of the present invention, reference will be made to the following detailed description taken in conjunction with the accompanying drawings and examples. It is to be understood that the examples are illustrative of the invention only and are not limiting.

Example 1

As shown in fig. 1-8, the present embodiment provides a distribution box for network equipment, which includes a distribution box main body 100, wherein a mounting groove 260 is disposed on a side wall of the distribution box main body 100, and an optical fiber slot-clamping member is disposed in the mounting groove 260;

an optical fiber wire clamping groove component comprises a wire clamping plate 210 matched with the side wall of a junction box, wherein a plurality of wire clamping grooves 220 used for fixing optical fibers are arranged at the position of the wire clamping plate 210 at intervals along the length direction of the wire clamping plate, and the optical fibers and the wire clamping grooves 220 are arranged in a one-to-one correspondence manner; the optical fiber cable connector further comprises a plug 310 which is used for fixing an optical fiber at the bottom of the cable clamping groove 220 and plugging the cable clamping groove 220.

Through the above, the sealing performance of the optical fiber slot clamping member is preferably improved, and because the optical fiber slot clamping member is arranged in the mounting groove 260, the sealing performance of the junction box main body 100 is preferably improved, and the installation of optical fibers is facilitated. Specifically, after the end of the optical fiber is inserted into the interface, the middle of the optical fiber is clamped into the wire clamping groove by the worker, and then the plug is used to plug the gap between the side wall of the wire clamping groove 220 and the optical fiber, so that the probability that pollutants such as dust pass through the wire clamping groove 220 is preferably reduced, the sealing performance of the optical fiber wire clamping groove component is further preferably improved, and the sealing performance of the junction box main body 100 is further improved. And the fiber optic snap groove member preferably promotes and maintains the regularity of the optical fibers within the distribution box body 100. Meanwhile, compared with the existing network equipment junction box provided with through holes, the junction box main body 100 can be used for conveniently installing optical fibers.

In this embodiment, the wire clamping groove 220 has an upper end opening 221, a left side opening 222 and a right side opening 223, and the wire clamping groove 220 has a lower side wall 510, a front side wall 231 and a rear side wall 232; the upper opening 221 is provided with two first clamping strips 241 respectively arranged at the front side wall 231 and the rear side wall 232, the left opening 222 is provided with two second clamping strips 242 respectively arranged at the front side wall 231 and the rear side wall 232, the right opening 223 is provided with two third convex blocks 243 respectively arranged at the front side wall 231 and the rear side wall 232, the third convex blocks 243 are far away from the lower side wall 510, and the first clamping strips 241, the second clamping strips 242 and the third convex blocks 243 are matched together to fix the plug 310 at the wire clamping groove 220; the plug 310 can elastically deform and the plug 310 can move into the wire-clamping groove 220 from the right opening 223 between the third protrusion 243 and the lower sidewall 510.

Through the above, after the optical fiber is clamped into the bottom of the slot clamping groove 220 from the upper end opening 221, the worker extrudes the plug 310 to deform the plug 310, the deformed plug 310 is clamped into the slot clamping groove 220 from the right side opening 223 between the third bump 243 and the lower side wall 510, and the plug 310 gradually recovers and blocks a gap in the slot clamping groove 220; in the present state, the first locking strip 241, the second locking strip 242 and the third protrusion 243 are cooperatively used to fix the plug 310 at the cable-clamping groove 220, so as to preferably prevent the plug 310 from being separated from the cable-clamping groove 220, and thus, the sealing performance of the optical fiber cable-clamping groove member is preferably improved.

In this embodiment, the end wall of the plug 310 facing the lower sidewall 510 forms a first arc 810 for engaging with the peripheral wall of the optical fiber, and the end wall of the plug 310 facing away from the lower sidewall 510 forms a step 820 for engaging with the first clip 241.

Through the setting of stair surface 820 and first arcwall face 810 in this embodiment, after end cap 310 card goes into card wire casing 220, stair surface 820 and first card strip 241 laminate each other, first arcwall face 810 laminates each other with the optic fibre periphery wall, so the leakproofness of this optic fibre card wire casing component has been promoted better.

In this embodiment, the lower sidewall 510 forms a second arcuate face for mating with the fiber peripheral wall.

Through the arrangement of the second arc-shaped surface in the embodiment, after the optical fiber is clamped into the bottom of the slot clamping slot 220, the second arc-shaped surface is attached to the outer peripheral wall of the optical fiber, so that the sealing performance of the optical fiber slot clamping slot component is better improved.

In this embodiment, a gap 511 is formed between the second locking strip 242 and the lower sidewall 510, and a third arc-shaped surface 512 for matching with the peripheral wall of the optical fiber is formed on the end surface of the second locking strip 242 facing the lower sidewall 510.

Through the arrangement of the notch 511 in the embodiment, after the optical fiber is clamped into the notch 511 at the bottom of the slot 220, the third arc-shaped surface 512 preferably limits the movement of the optical fiber, thereby preferably facilitating the positioning of the optical fiber; and the third arc-shaped surface 512 matched with the outer peripheral wall of the optical fiber preferably reduces the gap between the third arc-shaped surface 512 and the outer peripheral wall of the optical fiber, so that the stability of the optical fiber after positioning is further improved, and the installation of the plug 310 is preferably facilitated.

In this embodiment, the two ends of the line clamping plate 210 along the length direction thereof are both provided with T-shaped blocks 250, and the side wall of the mounting groove 260 is provided with T-shaped grooves 251 for matching with the T-shaped blocks 250.

Through the matching arrangement of the T-shaped block 250 and the T-shaped groove 251 in the embodiment, the relative movement between the line clamping plate 210 and the mounting groove 260 is preferably limited, so that the stability of the line clamping plate 210 after mounting is preferably improved; and because the intercepting surface which is obliquely arranged is formed between the T-shaped block 250 and the T-shaped groove 251, when pollutants such as dust enter a gap between the T-shaped block 250 and the side wall of the mounting groove 260, the intercepting surface better prevents the dust from entering the interior of the junction box main body 100, so that the sealing performance of the junction box main body 100 is better improved.

In this embodiment, the line clamping plate 210 may be fixed in the mounting groove 260 by glue, and the glue in this embodiment may be waterproof glue.

In this embodiment, the line clamping plate 210 is provided with glue injection grooves 253 at two ends along the length direction thereof, and the glue injection grooves 253 are used for forming glue injection holes in cooperation with the side walls of the mounting groove 260.

Through the setting of injecting glue groove 253 in this embodiment, install in mounting groove 260 back when calorie line board 210, form the injecting glue hole between injecting glue groove 253 and the mounting groove 260 lateral wall, the staff further promotes the fastness after fixing between calorie line board 210 and the mounting groove 260 lateral wall through to the downthehole waterproof glue that injects glue of injecting glue, and this fixed mode has promoted the leakproofness between calorie line board 210 and the mounting groove 260 lateral wall better.

In short, the above description is only a preferred embodiment of the present invention, and all the equivalent changes and modifications made in accordance with the claims of the present invention should be covered by the scope of the present invention.

Claims (8)

1. An optical fiber card slot component, its characterized in that: the optical fiber distribution box comprises a line clamping plate (210) matched with the side wall of the network equipment distribution box, wherein a plurality of line clamping grooves (220) for fixing optical fibers are formed in the line clamping plate (210) at intervals along the length direction; the optical fiber cable connector also comprises a plug (310) which is used for fixing the optical fiber at the groove bottom of the cable clamping groove (220) and plugging the cable clamping groove (220).

2. A fiber optic snap groove member as claimed in claim 1, wherein: the wire clamping groove (220) is provided with an upper end opening (221), a left side opening (222) and a right side opening (223), and the wire clamping groove (220) is provided with a lower side wall (510), a front side wall (231) and a rear side wall (232);

two first clamping strips (241) respectively arranged at the front side wall (231) and the rear side wall (232) are arranged at the upper end opening (221), two second clamping strips (242) respectively arranged at the front side wall (231) and the rear side wall (232) are arranged at the left side opening (222), two third convex blocks (243) respectively arranged at the front side wall (231) and the rear side wall (232) are arranged at the right side opening (223), the third convex blocks (243) are far away from the lower side wall (510), and the first clamping strips (241), the second clamping strips (242) and the third convex blocks (243) are jointly matched to fix the plug (310) at the clamping groove (220);

the plug (310) can be elastically deformed, and the plug (310) can move into the wire clamping groove (220) from the right opening (223) between the third bump (243) and the lower side wall (510).

3. A fiber optic snap groove member as claimed in claim 2, wherein: the end wall of the plug (310) facing the lower side wall (510) forms a first arc-shaped face (810) used for being matched with the outer peripheral wall of the optical fiber, and the end wall of the plug (310) facing away from the lower side wall (510) forms a step face (820) used for being matched with the first clamping strip (241).

4. A fiber optic snap groove member as claimed in claim 2, wherein: the lower sidewall (510) forms a second arcuate face for mating with the fiber peripheral wall.

5. A fiber optic snap groove member as claimed in claim 2, wherein: a gap (511) is formed between the second clamping strip (242) and the lower side wall (510), and a third arc-shaped surface (512) used for being matched with the peripheral wall of the optical fiber is formed on the end surface, facing the lower side wall (510), of the second clamping strip (242).

6. A fiber optic snap groove member as claimed in claim 1, wherein: t-shaped blocks (250) are arranged at two ends of the line clamping plate (210) along the length direction.

7. A network equipment distribution box, comprising: comprising a distribution box body (100), the distribution box body (100) comprising a fibre channel assembly according to any one of claims 1-6.

8. The network equipment distribution box of claim 7, wherein: the side wall of the junction box main body (100) is provided with a mounting groove (260).

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