CN108508559B

CN108508559B - Household optical fiber wiring box

Info

Publication number: CN108508559B
Application number: CN201810522718.5A
Authority: CN
Inventors: 任栩岑
Original assignee: Jiangsu Xinbai Construction Group Co ltd
Current assignee: Jiangsu Xinbai Construction Group Co ltd
Priority date: 2018-05-28
Filing date: 2018-05-28
Publication date: 2023-10-13
Anticipated expiration: 2038-05-28
Also published as: CN108508559A

Abstract

The application discloses a household optical fiber wiring box, which comprises a wiring box body and a box cover arranged on the wiring box body, wherein a plurality of perforations for optical fibers to pass through are arranged on the side surface of the wiring box body, each perforation is provided with a hole cover group, and each hole cover group comprises a first rotating shaft, a first hole cover and a second hole cover; a placing rack is sequentially and horizontally arranged in the wiring box body along the vertical direction, and comprises a bottom plate and side plates vertically arranged at the peripheral edge of the bottom plate; the case lid can be dismantled and set up in wiring case body, and the case lid surface is equipped with the antenna hole that supplies the antenna to wear out. Therefore, the application can prevent dust, insects or mice and the like from entering the optical fiber wiring box to cause damage, can standardize the arrangement of the optical fibers, has the phenomenon of disordered arrangement, is convenient to manage, and can also facilitate the antenna to penetrate out of the antenna hole and cover the box cover.

Description

Household optical fiber wiring box

Technical Field

The application relates to a wiring box, in particular to a household optical fiber wiring box.

Background

The inside cavity that is the alopecia of traditional domestic optic fibre income family information wiring case for equipment such as placing router, cat, and when equipment such as a plurality of routers or cat were placed, because no assigned position sets up, the unordered that can place can not be better distribution supplies the cavity of placing, and after optic fibre inserts equipment such as router, also can alternately crisscross, appear unordered.

In addition, the side surface of the wiring box is provided with a plurality of knockout holes for the optical fibers to pass through, when a certain knockout hole is needed, the baffle in the knockout hole needs to be knocked off for use, but when the knockout hole is not needed, the original baffle cannot be installed and removed, so that the knockout hole is always in an open state, dust, insects or mice and the like are easy to enter, and damage is caused to the inside of the comprehensive wiring box.

In addition, the box cover is closed when the wiring box is normally used, and the antenna of the router placed in the wiring box is closed in the wiring box, so that signals of the router are greatly influenced.

Disclosure of Invention

It is an object of the present application to provide a home optical fiber cabling box that solves one or more of the above mentioned problems of the prior art.

According to one aspect of the application, there is provided a home-use optical fiber wiring box, comprising a wiring box body and a box cover arranged on the wiring box body, wherein a plurality of perforations through which optical fibers pass are arranged on the side surface of the wiring box body, each perforation is provided with a hole cover group, each hole cover group comprises a first rotating shaft, a first hole cover and a second hole cover, the first rotating shaft is arranged on the outer wall of the wiring box body and is close to the perforation, the side edges of the first hole cover and the second hole cover are respectively arranged on the first rotating shaft, the first hole cover can rotate around the first rotating shaft to the left side, the second hole cover can rotate around the first rotating shaft to the right side, return springs are respectively arranged between the first hole cover and the second hole cover, when the return springs are in a natural state, the right side of the first hole cover is provided with a first arc-shaped notch, and the left side of the second hole cover is provided with a second arc-shaped notch; the wiring box body is internally and sequentially horizontally provided with a placing rack along the vertical direction, the placing rack comprises a bottom plate and side plates vertically arranged at the peripheral edge of the bottom plate, the side plates of one side, back to the box cover, of the placing rack are arranged on the inner wall of the wiring box body, and a plurality of optical fiber clamping grooves are uniformly distributed on the side plates of one side, facing to the box cover, of the placing rack; the case lid can be dismantled and set up in wiring case body, the case lid surface is equipped with the antenna hole that supplies the antenna to wear out, the upper and lower both ends of a case lid side are equipped with the second pivot respectively, the positive upper and lower both sides limit of wiring case body all is equipped with the recess that supplies the second pivot to set up, every recess one side all is equipped with the sliding closure installation cavity, the sliding closure installation cavity has the opening towards one side of recess, be equipped with the sliding closure in the sliding closure installation cavity, the sliding closure passes through spring coupling with sliding closure installation cavity medial surface, the spring can be with the sliding closure release from the opening part, the sliding closure can seal the recess.

According to the application, the perforated holes of the optical fiber wiring box are provided with the hole covers capable of covering or opening the perforated holes, so that when the perforated holes are needed to be used for the optical fibers to pass through, the two hole covers are manually pulled out to two sides to open the perforated holes, and after the optical fibers pass through the perforated holes, the two hole covers return through the return springs, the optical fibers are clamped by the arc-shaped notch, the gaps between the optical fibers and the perforated holes are completely closed, and dust or insects are prevented from entering; when the perforation is not needed, the hole cover can be automatically closed by the return spring, and the perforation is closed, so that dust, insects, mice and the like can be prevented from entering the optical fiber wiring box to cause damage; in addition, the arrangement of the arrangement rack in the wiring box body is used for placing equipment such as a router, the space in the wiring box is reasonably planned, the space utilization efficiency is improved, the optical fiber clamping groove is arranged at the side edge of the arrangement rack for clamping optical fibers, the arrangement of the optical fibers can be standardized, the arrangement of the optical fibers is disordered, and the management is convenient; in addition, set up the antenna hole on the case lid and supply the antenna of router to wear out, prevent that the antenna from being sealed in the wiring case, improve the signal effect of router, through the detachable setting of case lid, when the router was placed and is accomplished, pull down the case lid, wear out the antenna from the antenna hole earlier, cover the case lid again, in the recess was gone into to the pivot card with the case lid, cover the case lid when can making things convenient for the antenna to wear out from the antenna hole.

In some embodiments: the first arc notch edge and the second arc notch edge are both provided with silica gel pads. Therefore, the tightness between the first arc-shaped notch and the second arc-shaped notch and the optical fiber can be improved.

In some embodiments: the optical fiber clamping groove is of a U-shaped structure, and arc-shaped elastic sheets are symmetrically arranged at the edge of the opening of the optical fiber clamping groove. This prevents the optical fiber from coming out of the optical fiber clamping groove.

In some embodiments: the antenna hole is provided with the silica gel separation blade, and silica gel separation blade centre department is provided with the breach that is set up by many alternately. Therefore, the gap between the antenna and the antenna hole can be closed, the sealing performance is improved, and dust is prevented from entering.

In some embodiments: the left side edge of the first hole cover is provided with a first handle, and the right side edge of the second hole cover is provided with a second handle. Therefore, the first hole cover and the second hole cover are convenient to open manually.

Drawings

FIG. 1 is a schematic view of a home fiber optic cabling box according to the present application;

FIG. 2 is a schematic view of the structure of a hole cover set of a home optical fiber wiring box according to the present application;

FIG. 3 is a side view of a hole cover assembly of a home fiber optic cabling box of the present application;

FIG. 4 is a schematic view of a rack for a home optical fiber distribution box according to the present application;

FIG. 5 is an enlarged view of A of FIG. 1;

fig. 6 is a schematic structural view of a silica gel baffle of a home optical fiber distribution box according to the present application.

Detailed Description

The present application will be described in further detail with reference to the accompanying drawings.

As shown in fig. 1 to 6, a home optical fiber wiring box comprises a wiring box body 1 and a box cover 2 arranged on the wiring box body 1, wherein a plurality of perforations 31 for optical fibers to pass through are arranged on the side surface of the wiring box body 1, each perforation 31 is provided with a hole cover group 32, and the hole cover groups 32 can close or open the perforations 31.

The hole cover set 32 includes a first rotating shaft 33, a first hole cover 34 and a second hole cover 35, the first rotating shaft 33 is fixedly installed on the outer wall of the wiring box body 1 near the edge of the perforation 31, the side edges of the first hole cover 34 and the second hole cover 35 are respectively arranged on the first rotating shaft 33, the first hole cover 34 can rotate around the first rotating shaft 33 to the left, the second hole cover 35 can rotate around the first rotating shaft 33 to the right, and specifically, holes capable of being sleeved on the first rotating shaft 33 are formed in the side edges of the first hole cover 34 and the second hole cover 35. A return spring 36 is arranged between the first hole cover 34 and the second hole cover 35 and the first rotating shaft 33 respectively, specifically, the first hole cover 34 is positioned on the upper side of the second hole cover 35, two return springs 36 are arranged, one return spring 36 is sleeved on the first rotating shaft 33 and positioned on the upper side of the first hole cover 34, one end of the return spring 36 is fixedly connected with the first rotating shaft 33, and the other end of the return spring 36 is fixedly connected with the first hole cover 34; the other return spring 36 is sleeved on the first rotating shaft 33 and is located at the lower side of the second hole cover 35, one end of the return spring 36 is fixedly connected to the first rotating shaft 33, and the other end of the return spring is fixedly connected to the second hole cover 35. The upper side is a side away from the wiring box body 1, and the lower side is a side close to the wiring box body 1. When the return spring 36 is in a natural state, the first hole cover 34 and the second hole cover 35 both cover the through hole 31, the right side of the first hole cover 34 is provided with a first arc notch 37, and the left side of the second hole cover 35 is provided with a second arc notch 38. The right and left sides are used to indicate that the first hole cover 34 and the second hole cover 35 are opened to both sides.

The edges of the first arc-shaped notch 37 and the edges of the second arc-shaped notch 38 are embedded with silica gel pads 39.

The first handle is integrally formed on the left side edge of the first hole cover 34, and the second handle is integrally formed on the right side edge of the second hole cover 35.

The wiring box body 1 is internally provided with a rack 4 along the vertical direction level in proper order, and the rack 4 includes bottom plate 41 and perpendicular curb plate 42 that sets up in bottom plate 41 border, curb plate 42 integrated into one piece in bottom plate 41, and curb plate 42 fixed mounting in wiring box body 1 inner wall of one side of rack 4 dorsad case lid 2, a plurality of optic fibre draw-in grooves 43 have evenly been seted up to curb plate 42 of one side of rack 4 toward case lid 2. The optical fiber clamping groove 43 is of a U-shaped structure, and arc-shaped elastic sheets 44 are symmetrically and fixedly arranged at the edge of an opening of the optical fiber clamping groove 43.

The wiring box body 1 can be dismantled to case lid 2, the antenna hole 21 that supplies the antenna to wear out is offered on case lid 2 surface, the upper and lower both ends of a case lid 2 side are fixed mounting respectively has second pivot 22, the positive upper and lower both sides limit of wiring box body 1 is all dug and is equipped with the recess 23 that supplies second pivot 22 to set up, every recess 23 one side is all dug and is equipped with sliding closure installation cavity 24, sliding closure installation cavity 24 has the opening towards recess 23 one side, be equipped with sliding closure 25 in the sliding closure installation cavity 24, sliding closure 25 can slide in sliding closure installation cavity 24, sliding closure 25 and sliding closure installation cavity 24 are interior in opposite directions and be connected with open-ended side through spring 26, spring 26 one end fixed connection is in sliding closure installation cavity 24's lateral wall, the other end is connected in sliding closure 25's one side, spring 26 can be with sliding closure 25 follow the opening part release, and then make sliding closure 25 can seal recess 23. One side of the sliding cover 25 facing the groove 23 is integrally formed with a deflector rod, so that the sliding cover 25 can be conveniently moved, and the groove 23 can be opened.

The antenna hole 21 is provided with a silica gel baffle plate 27, the outer edge of the ghost pepper baffle plate 27 is fixedly connected to the inner side edge of the antenna hole 21, and a gap 28 formed by a plurality of crossed positions is formed in the middle of the silica gel baffle plate 27.

In summary, the perforation of the optical fiber wiring box is provided with the hole covers capable of covering or opening the perforation, so that when the perforation is needed to be used for the optical fiber to pass through, the two hole covers are manually pulled to two sides to open the perforation, and after the optical fiber passes through the perforation, the two hole covers return through the return spring, the optical fiber is clamped by the arc-shaped notch, the gap between the optical fiber and the perforation is completely closed, and dust or insects are prevented from entering; when the perforation is not needed, the hole cover can be automatically closed by the return spring, and the perforation is closed, so that dust, insects, mice and the like can be prevented from entering the optical fiber wiring box to cause damage; in addition, the arrangement of the arrangement rack in the wiring box body is used for placing equipment such as a router, the space in the wiring box is reasonably planned, the space utilization efficiency is improved, the optical fiber clamping groove is arranged at the side edge of the arrangement rack for clamping optical fibers, the arrangement of the optical fibers can be standardized, the arrangement of the optical fibers is disordered, and the management is convenient; in addition, set up the antenna hole on the case lid and supply the antenna of router to wear out, prevent that the antenna from being sealed in the wiring case, improve the signal effect of router, through the detachable setting of case lid, when the router was placed and is accomplished, pull down the case lid, wear out the antenna from the antenna hole earlier, cover the case lid again, in the recess was gone into to the pivot card with the case lid, cover the case lid when can making things convenient for the antenna to wear out from the antenna hole.

The foregoing is merely one embodiment of the present application, and it should be noted that it will be apparent to those skilled in the art that several similar modifications and improvements can be made without departing from the inventive concept, and these should also be considered as being within the scope of the present application.

Claims

1. A domestic optical fiber cabling box, characterized by: the novel optical fiber distribution box comprises a wiring box body (1) and a box cover (2) arranged on the wiring box body (1), wherein a plurality of through holes (31) for optical fibers to penetrate are formed in the side face of the wiring box body (1), each through hole (31) is provided with a hole cover group (32), each hole cover group (32) comprises a first rotating shaft (33), a first hole cover (34) and a second hole cover (35), the first rotating shaft (33) is arranged on the outer wall of the wiring box body (1) and is close to the through holes (31), the side edges of the first hole cover (34) and the second hole cover (35) are respectively arranged on the first rotating shaft (33), the first hole cover (34) can rotate leftwards around the first rotating shaft (33), return springs (36) are arranged between the first hole cover (34) and the second hole cover (35) and the first rotating shaft (33), and when the springs (36) are in a natural state, the first hole cover (35) is evenly distributed on the first arc-shaped, and the second hole cover (35) is evenly distributed on the first arc-shaped; the wiring box comprises a wiring box body (1), wherein a placing rack (4) is sequentially and horizontally arranged in the wiring box body (1) along the vertical direction, the placing rack (4) comprises a bottom plate (41) and side plates (42) vertically arranged at the peripheral edge of the bottom plate (41), the side plates (42) of one side, facing away from the box cover (2), of the placing rack (4) are arranged on the inner wall of the wiring box body (1), and a plurality of optical fiber clamping grooves (43) are uniformly distributed on the side plates (42) of one side, facing towards the box cover (2), of the placing rack (4); the wiring box comprises a wiring box body (1), a box cover (2) is detachably arranged on the wiring box body (1), an antenna hole (21) for an antenna to penetrate out is formed in the surface of the box cover (2), second rotating shafts (22) are respectively arranged at the upper end and the lower end of one side edge of the box cover (2), grooves (23) for the second rotating shafts (22) to be arranged are formed in the upper side edge and the lower side edge of the front face of the wiring box body (1), a sliding cover mounting cavity (24) is formed in one side of each groove (23), an opening is formed in one side of each sliding cover mounting cavity (24), a sliding cover (25) is arranged in each sliding cover mounting cavity (24), the inner side faces of the sliding cover mounting cavities (24) are connected through springs (26), the sliding covers (25) can be pushed out from the openings, and the sliding covers (25) can seal the grooves (23).

2. A home optical fiber wiring box as in claim 1, wherein: the edges of the first arc-shaped notch (37) and the edges of the second arc-shaped notch (38) are respectively provided with a silica gel pad (39).

3. A home optical fiber wiring box as in claim 1, wherein: the optical fiber clamping groove (43) is of a U-shaped structure, and arc-shaped elastic sheets (44) are symmetrically arranged at the edge of the opening of the optical fiber clamping groove (43).

4. A home optical fiber wiring box as in claim 1, wherein: the antenna hole (21) is provided with a silica gel baffle (27), and a plurality of cracks (28) which are arranged in a crossing way are arranged in the middle of the silica gel baffle (27).

5. A home optical fiber wiring box as in claim 1, wherein: the left side edge of the first hole cover (34) is provided with a first handle, and the right side edge of the second hole cover (35) is provided with a second handle.