CN221039555U - Integrated fiber coiling device for ODF and OCC - Google Patents

Abstract

The utility model relates to an integrated fiber coiling device for ODF and OCC, which comprises a wrapping post, a cover plate and a layering baffle plate, wherein the inner wall of the wrapping post is provided with at least two convex ribs, the bottom of each convex rib is provided with a connecting hole, the periphery of the wrapping post is axially provided with at least two concave guide grooves, and the inner wall of the wrapping post is axially provided with at least two guide ribs; the layering baffle comprises a middle baffle and an orifice which is connected with the outer Zhou Xiangpei of the winding post, the layering baffle is sleeved on the winding post, and the middle limiting block is arranged in a guide groove of the winding post; the connecting ring platform on the cover plate is provided with a connecting surface matched with the winding post and a top limiting part matched with the guide groove or the guide rib, the cover plate is arranged at the top of the winding post, the connecting surface is connected with the winding post, and the top limiting part at the connecting ring platform is matched with the guide groove or the guide rib of the winding post. The utility model can increase the optical fiber storage space, and can perform layered management and arrangement of the optical fibers, thereby facilitating the subsequent fiber skipping management, and having convenient operation and flexible construction.

Description

Integrated fiber coiling device for ODF and OCC

Technical Field

The utility model relates to an integrated fiber coiling device for ODF and OCC, belonging to the technical field of optical fiber communication.

Background

The ODF ((Optical Distribution Frame)) optical fiber distribution frame and OCC (Optical Cable Cross Connecting Cabinet for Communication) optical cable cross-connect cabinet are used as distribution node products, and can realize the functions of terminating a trunk optical cable and a distribution optical cable and placing an optical splitter. The optical fiber distribution is special for optical fiber distribution equipment involved in the optical fiber communication process, has the functions of optical cable fixing and protecting, optical cable terminating and wire adjusting, and is an indispensable part in an optical fiber transmission link. The existing optical communication has been widely used in trunk line and local network relay transmission, and optical fiber has become the core of the access network. In the construction of new optical fiber networks, operators and places select optical cables with large cores as much as possible, so that higher requirements are placed on the capacity, the function, the structure and the like of optical fiber wiring.

The existing fiber coiling devices used for the optical fiber wiring are all of fixed structures and are composed of winding posts and end covers at the tops of the winding posts, the winding posts are arranged on a fiber hanging frame, and optical fibers can be wound on the required winding posts and limited by the end covers so as to achieve optical fiber storage. However, the fiber coiling device can only realize single-layer fiber storage, when a large-core-number optical cable is carried out, the storage capacity of the tail fiber is small, the blending and connection operation is inconvenient, the situation that the fiber and the original optical cable are mutually crossed in the process of fiber arrangement is caused, and the problems that management is difficult and the operation is difficult after the circuit arrangement is carried out are caused by cross confusion.

Disclosure of Invention

The utility model aims to provide an integrated fiber coiling device for ODF and OCC, which can increase the storage space of optical fibers, can perform layered management and arrangement of the optical fibers, is convenient for subsequent fiber-skipping management, is convenient to operate and is flexible in construction.

The technical scheme for achieving the purpose is as follows: an integrated fiber coiling device for ODF and OCC, characterized in that: the novel winding device comprises a winding post, a cover plate and a layered baffle, wherein the winding post is a hollow post, at least two convex ribs are arranged on the inner wall of the winding post, connecting holes are formed in the bottoms of the convex ribs, at least two concave guide grooves are formed in the periphery of the winding post along the axial direction, and at least two guide ribs are arranged on the inner wall of the winding post along the axial direction;

the layered baffle comprises a middle baffle and an orifice which is connected with the outer Zhou Xiangpei of the winding post, an inward convex middle limiting block is arranged at the orifice, the layered baffle is sleeved on the winding post, and the middle limiting block is arranged in a guide groove of the winding post;

The cover plate comprises an outer baffle and a connecting ring table positioned at the bottom of the outer baffle, the connecting ring table is provided with a connecting surface matched with the winding column and a top limiting part matched with the guide groove or the guide rib, the cover plate is arranged at the top of the winding column, the connecting surface is connected with the winding column, and the top limiting part at the connecting ring table is matched with the guide groove or the guide rib of the winding column.

The utility model has the following advantages after adopting the technical scheme:

1. The utility model adopts the winding post, the cover plate arranged at the top of the winding post and the layering baffle in the middle, divides the winding post into an upper layer and a lower layer for wiring arrangement and inventory, can realize layering management, has the average capacity increased by more than 50 percent compared with the storage space used in the traditional optical fiber distribution frame or optical cable cross connecting cabinet, has large storage space, is favorable for realizing quick allocation, reduces the customization requirement of the jump fiber length, better realizes beautiful wiring of a cabinet and a box body, and is suitable for various ODF and OCC use scenes.

2. The fiber coiling device adopts a double-layer fiber coiling structure, and can carry out partition management on different areas, important and general circuits after installation, thereby facilitating subsequent front-back operation, avoiding mutual interference among different cables, realizing cable operation isolation, reducing construction difficulty and requirements, and being convenient to operate.

3. The cover plate and the layered baffle plate are of detachable structures, can be flexibly increased and reduced according to the requirements, can be flexibly configured along with the rack of the rack, fully utilizes the depth space size of the cabinet, increases the storage space of the whole machine, can replace the original storage requirement, can flexibly configure or flexibly adjust the distance front and back according to the layered requirement, can also flexibly increase and decrease in the subsequent use process, flexibly facilitates the welding and construction of the post-stage optical cable in the cabinet, effectively solves the problem of the subsequent construction space, has the effect of better cable management, can cover various boxes and cabinets which are integrally used at present, and has better application scenes.

4. The utility model not only improves the space utilization rate, can provide enough operation space, but also is convenient for field installation and later expansion, can meet the later depth expansion, and has the advantages of high density, high quality and high performance.

Drawings

Embodiments of the present utility model are described in further detail below with reference to the accompanying drawings.

Fig. 1 is a schematic perspective view of an integrated fiber coiling device according to the present utility model.

Fig. 2 is a schematic view of the a-direction structure of fig. 1.

FIG. 3 is a schematic front view of the integrated fiber coiling device of the present utility model.

Fig. 4 is a schematic structural view of the integrated fiber coiling device installed on an ODF fiber distribution frame.

Fig. 5 is a schematic diagram of the routing of an ODF fiber distribution frame employing an integrated fiber coiling apparatus of the present utility model.

Fig. 6 is a schematic side view of fig. 5.

Wherein: 1-apron, 1-outer baffle, 1-2-connecting ring platform, 1-3-top limit part, 1-4-turn-ups, 2-layering baffle, 2-1-middle baffle, 2-middle limit block, 2-3-outer reinforcing convex ring, 2-4-inner reinforcing convex ring, 2-5-reference column, 3-wrapping column, 3-1-convex rib, 3-2-guide slot, 3-limit surface, 3-4-locating hole, 3-5-connecting hole, 4-optical fiber distribution frame, 5-fiber hanging frame.

Detailed Description

Referring to fig. 1 to 3, the integrated fiber coiling device for ODF and OCC of the present utility model includes a winding post 3, a cover plate 1 and a layering baffle 2.

The winding post 3 of the utility model is a hollow post body as shown in figures 1-3, at least two convex ribs 3-1 are arranged on the inner wall of the winding post 3 as shown in figure 3, 3-5 convex ribs 3-1 can be arranged, a connecting hole 3-5 is arranged at the bottom of each convex rib 3-1, a nut is embedded in the connecting hole 3-5 as shown in figure 4, and the winding post 3 can be conveniently installed on the fiber hanging frame 5 through bolts. As shown in fig. 1 to 3, at least two concave guide grooves 3-2 are axially arranged on the periphery of the wrapping post 3 and at least two guide ribs are axially arranged on the inner wall of the wrapping post, 2-4 corresponding guide grooves 3-2 and guide ribs can be arranged, the cover plate 1 and the layered baffle plate 2 are rapidly limited through the guide grooves 3-2 and the guide ribs, and the cover plate 1 and the layered baffle plate 2 are prevented from rotating along the wrapping post 3. The guide rib and the guide groove 3-2 are of an integrated structure, or the guide rib and the guide groove 3-2 are of a split structure, as shown in fig. 1 and 2, the convex rib 3-1 can also be used as a guide rib.

As shown in fig. 1 to 3, the layered baffle 2 of the utility model comprises a middle baffle 2-1 and an orifice matched with the periphery of the winding post 3, the orifice is provided with an inward convex middle limiting block 2-2, the layered baffle 2 is sleeved on the winding post 3, and the middle limiting block 2-2 is arranged in a guide groove 3-2 of the winding post 3, so that the layered baffle 2 divides the winding post 3 into two layers, the middle baffle 2-1 can be prevented from rotating along the winding post 3 by the middle limiting block 2-2, the double-layer isolation effect can be realized by the layered baffle 2, the convenience of subsequent operation and maintenance is improved, the cover plate 1 at the front part can be taken out and then is directly sleeved into the layered baffle 2, the purposes of quick installation and use of the layered baffle 2 can be realized, and the capacity is increased by 50% compared with that of the traditional winding device, thereby the capacity of a cabinet is increased.

As shown in fig. 1-3, the cover plate 1 of the utility model comprises an outer baffle plate 1-1 and a connecting ring table 1-2 positioned at the bottom of the outer baffle plate 1-1, wherein the connecting ring table 1-2 is provided with a connecting surface matched with a winding post 3 and a top limiting part 1-3 matched with a guide groove 3-2 or a guide rib, the cover plate 1 is arranged at the top of the winding post 3, the connecting surface is connected with the winding post 3, and the top limiting part 1-3 at the connecting ring table 1-2 is matched with the guide groove 3-2 or the guide rib of the winding post 3, so that the cover plate 1 is conveniently installed on the winding post 3 and a cable on inventory is blocked through the outer baffle plate 1-1.

As shown in figures 1-3, a winding post 3 of the utility model is a cylinder, 3-5 arc-shaped guide ribs are uniformly distributed on the inner wall of the winding post 3, 3-5 arc-shaped guide grooves 3-2 are uniformly distributed on the periphery of the winding post 3, a limiting surface 3-3 is arranged at the bottom of each guide groove 3-2, and a positioning hole 3-4 is arranged at the limiting surface 3-3. The outer periphery of the layered baffle plate 2 is provided with an outer reinforcing convex ring 2-3, the layered baffle plate 2 is provided with an inner reinforcing convex ring 2-4 at the position of an orifice, the strength of the layered baffle plate 2 is improved through the outer reinforcing convex ring 2-3 and the inner reinforcing convex ring 2-4, the inner side of the inner reinforcing convex ring 2-4 is provided with a middle limiting block 2-2, the middle limiting block 2-2 corresponds to the guide groove 3-2, the inner reinforcing convex ring 2-4 is provided with a positioning column 2-5 corresponding to the positioning hole 3-4, the layered baffle plate 2 is sleeved on the winding column 3, the middle limiting block 2-2 is arranged in the guide groove 3-2, the positioning column 2-5 is inserted into the positioning hole 3-4 of the limiting surface 3-3, and the layered baffle plate 2 is rapidly installed on the winding column 3.

The winding column 3 comprises a cone column part and a cylinder at the lower part, wherein the cone column part is positioned at one side of a guide groove 3-2, the cone column part is gradually expanded inwards from an opening, 3-5 arc-shaped guide ribs are uniformly distributed on the inner wall of the cone column part, 3-5 arc-shaped guide grooves 3-2 are uniformly distributed on the periphery of the cone column part, an outer reinforcing convex ring 2-3 is arranged on the periphery of a layered baffle 2, an inner reinforcing convex ring 2-4 is arranged at an orifice of the layered baffle 2, a middle limiting block 2-2 is arranged at the inner side of the inner reinforcing convex ring 2-4, the middle limiting block 2-2 corresponds to the guide groove 3-2, the layered baffle 2 is sleeved on the winding column 3, the middle limiting block 2-2 is arranged in the guide groove 3-2, and the inner reinforcing convex ring 2-4 of the layered baffle 2 is clamped on the cone column part of the winding column 3 so as to rapidly install the layered baffle 2 on the winding column 3.

As shown in figures 2 and 3, the periphery of a cover plate 1 of the utility model is provided with a flanging 1-4, a connecting ring table 1-2 of the cover plate 1 is discontinuously arranged, a connecting surface on the periphery of the connecting ring table 1-2 is connected to the inner wall of a winding column 3 in an expanding way, a top limit part 1-3 at the connecting ring table 1-2 is a concave limit groove, the limit groove is matched with a guide rib of the winding column 3, and the cover plate 1 is rapidly arranged on the winding column 3.

The periphery of a cover plate 1 is provided with a flanging 1-4, a connecting ring table 1-2 of the cover plate 1 is discontinuously arranged, a connecting surface of the inner wall of the connecting ring table 1-2 is in pressure connection with the periphery of a winding column 3, a top limiting part 1-3 at the connecting ring table 1-2 is a concave limiting rib, and the limiting rib is matched with a guide groove 3-2 of the winding column 3, so that the cover plate 1 is quickly installed on the winding column 3.

As shown in fig. 1 to 3, the outer baffle 1-1 on the cover plate 1 and the middle baffle 2-1 on the layered baffle 2 are eccentrically arranged along the axis of the winding post 3 in the same direction.

As shown in fig. 5 and 6, a plurality of integrated fiber coiling devices of the present utility model are installed on a fiber hanging rack 5 of a rack of the ODF optical fiber distribution frame 4 to form a double-layer wiring and storage channel. Part of the cable is coiled on the winding column 3 between the cover plate 1 and the layered baffle 2, the regional wiring and storage of the upper layer of the cable are realized, the storage of the regional wiring of the lower layer of the cable is realized on the lower part of the layered baffle 2, the original single channel can be set into a double channel, the regional management and control effect and purpose are achieved while the use requirement is met, the purposes of distinguishing, layered management and control and arrangement of the cable in the rack are achieved, and meanwhile, the effect of facilitating the follow-up jump fiber management is achieved.

Claims (6)

1. An integrated fiber coiling device for ODF and OCC, characterized in that: the novel winding structure comprises a winding column (3), a cover plate (1) and a layered baffle plate (2), wherein the winding column (3) is a hollow column, at least two convex ribs (3-1) are arranged on the inner wall of the winding column (3), connecting holes (3-5) are formed in the bottoms of the convex ribs (3-1), at least two concave guide grooves (3-2) are formed in the periphery of the winding column (3) along the axial direction, and at least two guide ribs are arranged on the inner wall of the winding column along the axial direction;

The layering baffle (2) comprises a middle baffle (2-1) and an orifice which is Zhou Xiangpei outside the wrapping post (3), wherein an inward convex middle limiting block (2-2) is arranged at the orifice, the layering baffle (2) is sleeved on the wrapping post (3), and the middle limiting block (2-2) is arranged in a guide groove (3-2) of the wrapping post (3);

The cover plate (1) comprises an outer baffle plate (1-1) and a connecting ring table (1-2) positioned at the bottom of the outer baffle plate (1-1), wherein the connecting ring table (1-2) is provided with a connecting surface matched with a winding column (3) and a top limiting part (1-3) matched with a guide groove (3-2) or a guide rib, the cover plate (1) is arranged at the top of the winding column (3), the connecting surface is connected with the winding column (3), and the top limiting part (1-3) at the connecting ring table (1-2) is matched with the guide groove (3-2) or the guide rib of the winding column (3).

2. An integrated fiber optic apparatus for ODF and OCC of claim 1, wherein: the winding column (3) is a cylinder, 3-5 arc-shaped guide ribs are uniformly distributed on the inner wall of the winding column (3), 3-5 arc-shaped guide grooves (3-2) are uniformly distributed on the periphery of the winding column (3), a limiting surface (3-3) is arranged at the bottom of each guide groove (3-2), and a positioning hole (3-4) is formed in the limiting surface (3-3); the outer periphery of the layered baffle (2) is provided with an outer reinforcing convex ring (2-3), the layered baffle (2) is provided with an inner reinforcing convex ring (2-4) at the orifice, the inner side of the inner reinforcing convex ring (2-4) is provided with a middle limiting block (2-2), the inner reinforcing convex ring (2-4) is provided with a positioning column (2-5) corresponding to the positioning hole (3-4), the layered baffle (2) is sleeved on the winding column (3), the middle limiting block (2-2) is arranged in the guide groove (3-2), and the positioning column (2-5) is inserted in the positioning hole (3-4) of the limiting surface (3-3).

3. An integrated fiber optic apparatus for ODF and OCC of claim 1, wherein: the winding column (3) comprises a cone column part and a cylinder part, wherein the cone column part and the cylinder part are arranged on one side of the guide groove (3-2), the cone column part is gradually widened inwards from the opening, 3-5 arc-shaped guide ribs are uniformly distributed on the inner wall of the cone column part, 3-5 arc-shaped guide grooves (3-2) are uniformly distributed on the periphery of the cone column part, the layering baffle (2) is arranged at an orifice, an inner reinforcing convex ring (2-4) is arranged on the inner side of the orifice, a middle limiting block (2-2) is arranged on the inner side of the inner reinforcing convex ring (2-4), an outer reinforcing convex ring (2-3) is arranged on the periphery of the layering baffle (2), the middle limiting block (2-2) is arranged in the guide groove (3-2), and the inner reinforcing convex ring (2-4) of the layering baffle (2) is clamped on the cone column part of the winding column (3).

4. An integrated fiber optic apparatus for ODF and OCC of claim 1, wherein: the cover plate (1) periphery is equipped with turn-ups (1-4), and go-between platform (1-2) of apron (1) are interrupted the setting, and go-between platform (1-2) periphery go-between connects in the inner wall department of wrapping post (3) in the rising, and top limit part (1-3) of go-between platform (1-2) department are the spacing groove of indent, the spacing groove match with the direction muscle of wrapping post (3).

5. An integrated fiber optic apparatus for ODF and OCC of claim 1, wherein: the cover plate (1) periphery is equipped with turn-ups (1-4), and go-between platform (1-2) of apron (1) are interrupted the setting, and the joint face crimping of the inner wall of go-between platform (1-2) is in the periphery of wrapping post (3), and top spacing portion (1-3) of go-between platform (1-2) department is the spacing muscle of indent, spacing muscle and guide way (3-2) of wrapping post (3) match.

6. An integrated fiber optic apparatus for ODF and OCC of claim 1, wherein: the outer baffle plate (1-1) on the cover plate (1) and the middle baffle plate (2-1) on the layered baffle plate (2) are eccentrically arranged along the axis of the winding column (3) in the same direction.