CN-224232015-U - Optical fiber main distribution frame with wire arrangement structure

Abstract

The utility model relates to the field of communication network infrastructures, in particular to an optical fiber main distribution frame with a wire arrangement structure. The utility model provides an optical fiber main distribution frame with a wire arrangement structure, which comprises an optical fiber main distribution frame, soft cushions, a supporting frame and the like, wherein the optical fiber main distribution frame is connected with the soft cushions, and the supporting frame is connected with the rear side of the optical fiber main distribution frame. Through guide bar, screw rod, biax motor, sliding plate and reason line shell's setting, biax motor output shaft drives two screw rods and rotates, and two screw rods drive two sliding plates and reason line shell and remove along the guide bar, until two reason line shells remove to contact with the optic fibre cable, and carry out spacing and arrangement to the optic fibre cable, ensure that the wiring is neat orderly, be convenient for follow-up maintenance and management, this kind of design has not only improved the management efficiency of optic fibre cable, still effectively reduced signal interference and the potential safety hazard because of the wiring is chaotic to lead to, the practicality and the reliability of showing the total distribution frame of optic fibre have been promoted.

Inventors

• JIA YU

Assignees

• 深圳宏安通信科技有限公司

Dates

Publication Date

20260512

Application Date

20250617

Claims (8)

1. 1. The utility model provides an optical fiber main distribution frame equipped with reason line structure, a serial communication port, including optical fiber main distribution frame (1), cushion (2), support frame (3), guide bar (4), screw rod (5), biax motor (6), sliding plate (7) and reason line shell (8), be equipped with a plurality of cushions (2) on optical fiber main distribution frame (1), optical fiber main distribution frame (1) rear side fixedly connected with support frame (3), support frame (3) downside fixedly connected with guide bar (4), biax motor (6) are installed to support frame (3) rear side, all be connected with screw rod (5) on biax motor (6) both ends output shaft, all sliding connection has sliding plate (7) on two screw rods (5), two sliding plate (7) and guide bar (4) sliding connection, fixedly connected with a plurality of reason line shells (8) between two sliding plate (7).
2. 2. The optical fiber main distribution frame with the wire arrangement structure according to claim 1, further comprising a connecting block (9), connecting plates (91), sliding rods (10), clamping blocks (11), elastic pieces (12), mounting blocks (13), hinge plates (14), supporting blocks (15), connecting frames (16) and mounting seats (17), wherein the connecting plates (91) are fixedly connected to the outer sides of the optical fiber main distribution frame (1) in a bilateral symmetry mode, the connecting plates (9) are fixedly connected to the outer sides of the two connecting plates (91) in a front-back symmetry mode, sliding rods (10) are fixedly connected to the connecting plates (9) in a sliding mode, clamping blocks (11) are fixedly connected to opposite ends of each two sliding rods (10), elastic pieces (12) are arranged between each clamping block (11) and the corresponding connecting blocks (9), the mounting blocks (13) are symmetrically mounted on the outer sides of the two connecting plates (91), the hinge plates (14) are hinged to each other in a rotating mode, the supporting blocks (15) are connected to the two hinge plates (14) in a rotating mode, the connecting frames (16) are connected to the hinge plates (14) in a rotating mode, and the corresponding mounting seats (17) are connected to the clamping blocks (16) in a rotating mode.
3. 3. An optical fiber main distribution frame with a wire arrangement structure according to claim 2, further comprising an anti-slip pad (101), wherein the anti-slip pad (101) is arranged at the bottom of the optical fiber main distribution frame (1).
4. 4. A fiber main distribution frame with a wire-arranging structure according to claim 3, further comprising a protective pad (81), wherein the protective pad (81) is connected to the inner side of each two wire-arranging shells (8).
5. 5. The optical fiber main distribution frame equipped with the wire arrangement structure according to claim 4, further comprising a handle (1001), wherein the outer end of each sliding rod (10) is equipped with the handle (1001).
6. 6. An optical fiber main distribution frame equipped with a wire-arranging structure according to claim 5, characterized in that a plurality of openings are provided on both support blocks (15).
7. 7. A fiber optic main distribution frame equipped with a wire management structure according to claim 6, characterized in that the plurality of cushions (2) are made of foam.
8. 8. The optical fiber main distribution frame with the wire arrangement structure according to claim 7, further comprising a protective shell (61), wherein the protective shell (61) is wrapped outside the biaxial motor (6).

Description

Optical fiber main distribution frame with wire arrangement structure Technical Field The utility model relates to the field of communication network infrastructures, in particular to an optical fiber main distribution frame with a wire arrangement structure. Background Fiber optic main distribution frames equipped with a wire management structure are devices for managing and optimizing fiber routing that play a critical role in the infrastructure of a communication network. Such a distribution frame not only provides a centralized location for connecting, distributing and managing optical fiber lines, but also particularly emphasizes the importance of orderly organizing optical fiber cables. In the current communication network infrastructure construction, an optical fiber main distribution frame is taken as one of core components and bears important responsibility for centralized management and distribution of optical fiber lines, however, a significant problem is exposed in the actual installation and use process of the traditional optical fiber main distribution frame, that a large number of optical fiber cables are often placed in an unordered way, so that wiring is disordered, and the wiring mode which lacks systemization and organization not only influences the overall aesthetic property of a machine room, but also causes great inconvenience to subsequent maintenance work, and moreover, the disordered wiring can cause excessive extrusion or bending among the cables, which can damage optical fibers, cause signal attenuation or crosstalk and influence the data transmission quality. In order to solve the above problems, it is necessary to design an optical fiber main distribution frame with a wire arrangement structure, which can limit and arrange optical fiber cables. Disclosure of utility model In order to overcome the defects that a large number of optical fiber cables are placed randomly, so that wiring is disordered, and the wiring mode lacking in systemicity and organization not only influences the overall attractiveness of a machine room, but also brings great inconvenience to subsequent maintenance work, the utility model provides an optical fiber main distribution frame with a wire arrangement structure. The technical scheme includes that the optical fiber main distribution frame with the wire arrangement structure comprises an optical fiber main distribution frame, soft cushions, a support frame, guide rods, screw rods, double-shaft motors, sliding plates and wire arrangement shells, wherein the optical fiber main distribution frame is connected with the soft cushions, the support frame is connected to the rear side of the optical fiber main distribution frame, the guide rods are connected to the lower side of the support frame, the double-shaft motors are arranged on the rear side of the support frame, the screw rods are connected to output shafts at two ends of the double-shaft motors, the sliding plates are connected to the two screw rods in a sliding mode, the two sliding plates are connected with the guide rods in a sliding mode, and the wire arrangement shells are connected between the two sliding plates. Further, still including connecting block, the connecting plate, the slide bar, the fixture block, the elastic component, the installation piece, the articulated slab, the supporting shoe, link and mount pad, the bilateral symmetry in optic fibre main distribution frame outside is connected with the connecting plate, the front and back symmetry in two connecting plates outsides is connected with the connecting block, equal sliding connection has the slide bar on every connecting block, every two slide bar opposite one end all is connected with the fixture block, all be connected with the elastic component between every fixture block and the corresponding connecting block, bilateral symmetry in two connecting plate outsides is connected with the installation piece, all articulate on two installation pieces and be connected with the supporting shoe on two articulated slabs, all rotate on two articulated slabs and be connected with the link, all rotate on two links and be connected with the mount pad, every fixture block all cooperates with corresponding mount pad joint. Further, the optical fiber main distribution frame also comprises an anti-slip pad, and the bottom of the optical fiber main distribution frame is connected with the anti-slip pad. Further, the wire arranging device further comprises protection pads, and the inner side surfaces of every two wire arranging shells are connected with the protection pads. Further, the device also comprises a handle, and the outer end of each sliding rod is provided with the handle. Further, a plurality of holes are formed in the two supporting blocks. Further, the plurality of cushions are made of foam. Further, the motor further comprises a protective shell, and the outer side of the double-shaft motor is wrapped with the protective shell. Th