CN218728245U - Multi-chip optical fiber support - Google Patents

Abstract

The utility model discloses a fiber support of multicore piece relates to the fiber support field, include: the storage mechanism is of a structure in a shape like a Chinese character 'mu'; the optical fiber branching device is fixedly arranged in the accommodating mechanism; a delivery mechanism mounted on the right side of the interior of the storage mechanism; the optical fiber joint mechanism is arranged below the outer wall of the handover mechanism; the mounting plate is fixed with a support plate on the surface; the screw penetrates through the inner part of the supporting plate; the cross joint is fixedly arranged below the outer wall of the supporting plate.

Description

Multi-chip optical fiber support

Technical Field

The utility model relates to an optical fiber support field specifically is an optical fiber support of multicore piece.

Background

The optical fiber is a light conduction tool achieved by utilizing the principle of total reflection of light in a fiber made of glass or plastic, the optical fiber actually refers to a fiber core made of a transparent material and a cladding made of a material with a refractive index slightly lower than that of the fiber core, and an optical signal transmitted into the fiber core is reflected by a cladding interface to propagate and advance in the fiber core.

The inventor searches and finds that the teaching number is as follows: CN214704113U, it discloses a multi-chip optical fiber holder, this optical fiber holder, the chamber door is arranged on the box body, the optical fiber box is arranged in the box body, the coil is arranged in the optical fiber box, the volute spring is arranged in the coil, the first fixed block is arranged in the optical fiber box, the outer cover of the optical fiber box is arranged on the optical fiber box, the first connecting block is arranged on the outer cover of the optical fiber box, the second connecting block is arranged on the optical fiber box, the slide rail is arranged in the box body, the second connecting block is connected with the slide rail in a sliding manner, the lamp tube is arranged on the upper end of the box body, the light sensor is arranged at the left end of the box body, when the light is not bright enough, the light sensor can control the lamp tube to operate, the outer cover of the optical fiber box can be separated from the optical fiber box, the second connecting block can be separated from the slide rail, such design not only brings convenience for maintenance personnel, also facilitate daily self-checking of the street.

Although foretell fiber support has solved current support and has been difficult for the arrangement, many dusts, pleasing to the eye moreover, still influence the environmental problem, nevertheless in this fiber support, the arrangement is accomodate to the optic fibre that can not satisfy different models, the arrangement that can not be fine when quantity is more, and the inner structure is damaged easily in the optic fibre coiling, does not classify the setting, can have certain trouble when using.

SUMMERY OF THE UTILITY MODEL

The utility model aims at overcoming prior art and having the categorised arrangement of optic fibre, the limited problem of range of regulation of support provides a fiber support of multicore piece, and this fiber support has categorised arrangement, uses swiftly, satisfies the advantage of different model optic fibres.

In order to achieve the above object, the utility model provides a following technical scheme:

a multi-chip fiber optic shelf, comprising:

the storage mechanism is of a structure in a shape like a Chinese character 'mu';

the optical fiber branching device is fixedly arranged inside the accommodating mechanism;

a delivery mechanism mounted on the right side of the interior of the storage mechanism;

and the optical fiber joint mechanism is arranged below the outer wall of the handover mechanism.

Preferably, the storage mechanism includes:

the middle part of the inner wall surface of the shell is welded with a baffle;

the partition plate is fixed on the left side of the inner wall of the shell;

the sealing door is connected to the front of the shell, and a handle is arranged on the edge of the outer wall of the sealing door;

the base, base fixed mounting is in the shell bottom.

Preferably, the optical fiber branching device includes:

the bracket is arranged on the inner wall surface of the shell, and sliding plates are fixed at two ends of the bracket;

the first fixing plate is fixedly arranged above the partition plate, and the two sides of the surface of the first fixing plate are vertically fixed with second fixing plates;

and the wire distributing holes are arranged between the second fixing plates.

Preferably, the bracket is of a U-shaped structure, and the inner wall surface of the hole formed in the first fixing plate is connected with the second fixing plate.

Preferably, the interface mechanism includes:

the mounting plate is fixed with a support plate on the surface;

the screw penetrates through the inner part of the supporting plate;

the cross joint is fixedly arranged below the outer wall of the supporting plate.

Preferably, the number of the mounting plates is two, and the screws penetrate through the inner portion of the supporting plate and are connected with the mounting plates.

Preferably, the optical fiber splice mechanism includes:

the chip connector is characterized in that a partition strip is fixed at the lower end of the outer wall of the chip connector;

the buckle is fixedly arranged on the outer wall of the mounting plate, and the junction box is mounted below the buckle.

Compared with the prior art, the beneficial effects of the utility model are that:

1. the multi-chip optical fiber support is made of steel materials, is more durable, is convenient for large-capacity wiring and fiber jumping due to the fact that the baffle and the partition plate are arranged in the shell, is convenient for opening and closing of the sealing door and the handle, and plays a role in dust prevention and better protects optical fibers due to the design of the shell;

2. the multi-chip optical fiber support has the advantages that the multi-chip optical fiber support is classified and arranged, the application is rapid, the use of different types of optical fibers is met, and a plurality of chip connecting ports are arranged in an optical fiber joint mechanism and can accommodate more optical fibers;

3. this multi-chip fiber support has set up the partition strip between the chip connector and has avoided optic fibre too much and take place the winding, has welded the buckle at mounting panel both ends and has been used for placing optic fibre, and the junction box is with different optic fibres better resolution optic fibre position respectively, uses high-efficient swift.

Drawings

Fig. 1 is a schematic view of an overall structure of a multi-chip optical fiber holder according to an embodiment of the present invention;

fig. 2 is a schematic structural view of a receiving mechanism of a multi-chip optical fiber holder according to an embodiment of the present invention;

fig. 3 is a schematic structural view of an optical fiber branching device of a multi-chip optical fiber support according to an embodiment of the present invention;

fig. 4 is a schematic view of a cross-connecting mechanism of a multi-chip fiber optic support according to an embodiment of the present invention;

fig. 5 is a schematic structural diagram of an optical fiber splice mechanism of a multi-chip optical fiber holder according to an embodiment of the present invention.

1. A storage mechanism; 101. a housing; 102. a baffle plate; 103. a partition plate; 104. a closing door; 105. a handle; 106. a base; 2. an optical fiber branching device; 201. a support; 202. a sliding plate; 203. a first fixing plate; 204. a second fixing plate; 205. a wire dividing hole; 3. a handover mechanism; 301. mounting a plate; 302. a support plate; 303. a screw; 304. an intersection; 4. an optical fiber splice mechanism; 401. a chip connection port; 402. partition bars; 403. buckling; 404. and a distributing box.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Fig. 1 is a schematic view of an overall structure of a multi-chip optical fiber holder according to an embodiment of the present invention; fig. 2 is a schematic structural view of a receiving mechanism of a multi-chip optical fiber holder according to an embodiment of the present invention; fig. 3 is a schematic structural view of an optical fiber branching device of a multi-chip optical fiber support according to an embodiment of the present invention; fig. 4 is a schematic view of a cross-connecting mechanism of a multi-chip fiber optic support according to an embodiment of the present invention; fig. 5 is a schematic structural diagram of an optical fiber splice mechanism of a multi-chip optical fiber holder according to an embodiment of the present invention.

In this embodiment, with reference to the accompanying drawings, a multi-chip optical fiber holder includes: the storage mechanism 1, the storage mechanism 1 is in a structure of a shape like a Chinese character 'mu'; an optical fiber branching device 2, wherein the optical fiber branching device 2 is fixedly installed inside the accommodating mechanism 1; a delivery mechanism 3, wherein the delivery mechanism 3 is installed at the right side in the containing mechanism 1; and the optical fiber joint mechanism 4 is arranged below the outer wall of the delivery mechanism 3.

Specifically, receiving mechanism 1 capacity sets up great and layering design, it is more convenient to use, the device wholly adopts steel material, it is more durable, shell 101 internally mounted baffle 102 and baffle 103, be convenient for large capacity distribution, jump the fibre, close door 104 and handle 105 make things convenient for the switch, and played the better protection optic fibre of dirt-proof effect through shell 101 design, the device has designed optic fibre separated time device 2, support 201 divide into the three-layer and is used for different model chip optic fibre respectively, first fixed plate 203 and second fixed plate 204 have been installed to the right side, optic fibre passes from separated time hole 205.

In order to make the detailed structure and principle of the receiving mechanism 1 fully understood by those skilled in the art, the receiving mechanism 1 is further described. In the present embodiment, the storage mechanism 1 includes: the device comprises a shell 101, wherein a baffle plate 102 is welded in the middle of the inner wall surface of the shell 101; the partition plate 103, the partition plate 103 is fixed on the left side of the inner wall of the shell 101; the closing door 104 is connected to the front of the casing 101, and a handle 105 is arranged at the edge of the outer wall of the closing door 104; and the base 106, wherein the base 106 is fixedly arranged at the bottom of the shell 101.

In the storage mechanism 1, the baffle plate 102 and the partition plate 103 are arranged in the shell 101, so that large-capacity wiring and fiber jumping are facilitated, the closing door 104 and the handle 105 are convenient to open and close, and the shell 101 is designed to protect optical fibers better in dustproof effect.

The fiber distribution device 2 will be further described to facilitate a full understanding of the specific structure and principles of the fiber distribution device 2 by those skilled in the art. In the present embodiment, the optical fiber distribution device 2 includes: a bracket 201, wherein the bracket 201 is installed on the inner wall surface of the casing 101, and sliding plates 202 are fixed on both ends of the bracket 201; the first fixing plate 203 is fixedly arranged above the partition plate 103, and the two sides of the surface of the first fixing plate 203 are vertically fixed with second fixing plates 204; a wire dividing hole 205, the wire dividing hole 205 being disposed between the second fixing plates 204.

In the optical fiber branching device 2, the bracket 201 is in a U-shaped structure, the inner wall surface of the first fixing plate 203 provided with the hole is connected with the second fixing plate 204, the bracket 201 is divided into three layers for respectively different types of chip optical fibers, the first fixing plate 203 and the second fixing plate 204 are installed on the right side, and the optical fibers pass through the branching hole 205.

In order to facilitate a sufficient understanding of the specific structure and principle of the interface mechanism 3, the interface mechanism 3 will be further described. In the present embodiment, the delivery mechanism 3 includes: the mounting plate 301, a support plate 302 is fixed on the surface of the mounting plate 301; a screw 303, wherein the screw 303 penetrates through the inner part of the supporting plate 302; an interface head 304, the interface head 304 being fixedly mounted below the outer wall of the support plate 302.

In the cross-connecting mechanism 3, there are two mounting plates 301, screws 303 penetrate through the inside of the supporting plate 302 and are connected with the mounting plates 301, the screws 303 penetrate through the inside of the supporting plate 302 and are connected with the surface of the mounting plates 301, and cross-connectors 304 are arranged below the supporting plate 302.

The fiber splice mechanism 4 is further described to facilitate a full understanding of the specific structure and principles of the fiber splice mechanism 4 by those skilled in the art. In the present embodiment, the optical fiber splicing mechanism 4 includes: a chip connecting port 401, wherein a partition strip 402 is fixed at the lower end of the outer wall of the chip connecting port 401; and the buckle 403 is fixedly arranged on the outer wall of the mounting plate 301, and the junction box 404 is arranged below the buckle 403.

In the optical fiber joint mechanism 4, a plurality of chip connectors 401 are arranged to accommodate more optical fibers, partition strips 402 are arranged between the chip connectors 401 to avoid the situation that the optical fibers are too many to be wound, buckles 403 are welded at two ends of the mounting plate 301 to place the optical fibers, and the distribution box 404 separates different optical fibers to better distinguish the positions of the optical fibers, so that the use is efficient and quick.

The working principle is as follows: firstly, the whole device is made of steel materials and is more durable, a baffle plate 102 and a partition plate 103 are arranged in a shell 101, large-capacity wiring and fiber jumping are facilitated, a sealing door 104 and a handle 105 are convenient to open and close, the shell 101 is designed to protect optical fibers with better dustproof effect, the device is provided with an optical fiber branching device 2, a support 201 is divided into three layers for respectively arranging different types of chip optical fibers, a first fixing plate 203 and a second fixing plate 204 are arranged on the right side, and the optical fibers penetrate through a branching hole 205;

two mounting panels 301 have been installed on the inside right side of shell 101, screw 303 runs through backup pad 302 internal connection on mounting panel 301 surface, cross-over head 304 has been installed to backup pad 302 below, in fiber splice mechanism 4, numerous chip connectors 401 have been set up, can hold more optic fibre, it avoids optic fibre too much and take place the winding to set up to cut off strip 402 between chip connectors 401, buckle 403 has been welded at mounting panel 301 both ends and has been used for placing optic fibre, better discernment optic fibre place position is respectively come with different optic fibre to distribution box 404, it is high-efficient swift to use.

Although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments or portions thereof without departing from the spirit and scope of the invention.

Claims (7)

1. A multi-chip fiber optic shelf, comprising:

the storage mechanism (1), the storage mechanism (1) is in a structure of a shape like a Chinese character 'mu';

the optical fiber branching device (2), the optical fiber branching device (2) is fixedly installed in the containing mechanism (1);

the delivery mechanism (3), the delivery mechanism (3) is installed on the right side inside the containing mechanism (1);

and the optical fiber joint mechanism (4) is arranged below the outer wall of the handover mechanism (3).

2. A multi-chip fiber optic support according to claim 1, wherein:

the storage mechanism (1) includes:

the device comprises a shell (101), wherein a baffle (102) is welded in the middle of the inner wall surface of the shell (101);

the partition plate (103), the said partition plate (103) is fixed on the left side of inner wall of the outer casing (101);

the sealing door (104) is connected to the front of the shell (101), and a handle (105) is arranged on the edge of the outer wall of the sealing door (104);

the base (106), base (106) fixed mounting is in the shell (101) bottom.

3. A multi-chip fiber optic support according to claim 2, wherein:

the optical fiber branching device (2) comprises:

the support (201), the said support (201) is installed on the inner wall of the outer casing (101), and the both ends of the support (201) are fixed with the sliding plate (202);

the first fixing plate (203), the first fixing plate (203) is fixedly arranged above the partition plate (103), and the second fixing plates (204) are vertically fixed on both sides of the surface of the first fixing plate (203);

wire dividing holes (205), wherein the wire dividing holes (205) are arranged between the second fixing plates (204).

4. A multi-chip fiber optic support according to claim 3, wherein: the bracket (201) is in a U-shaped structure, and the inner wall surface of a hole formed in the first fixing plate (203) is connected with the second fixing plate (204).

5. A multi-chip fiber optic support according to claim 1, wherein:

the interface mechanism (3) comprises:

the mounting plate (301), the surface of the mounting plate (301) is fixed with a support plate (302);

a screw (303), wherein the screw (303) penetrates through the inner part of the support plate (302);

the cross joint (304), the cross joint (304) is fixedly installed below the outer wall of the supporting plate (302).

6. A multi-chip fiber optic support according to claim 5, wherein: the number of the mounting plates (301) is two, and the screws (303) penetrate through the inner portion of the supporting plate (302) and are connected with the mounting plates (301).

7. A multi-chip fiber optic holder according to claim 1, wherein:

the optical fiber splice mechanism (4) comprises:

the chip connector (401), the lower end of the outer wall of the chip connector (401) is fixed with a partition strip (402);

the buckle (403), the buckle (403) is fixedly arranged on the outer wall of the mounting plate (301), and the branch box (404) is arranged below the buckle (403).

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