CN108318983B

CN108318983B - Co-building shared optical fiber ODF

Info

Publication number: CN108318983B
Application number: CN201810241019.3A
Authority: CN
Inventors: 曾庆珠; 汤昕怡; 张志友; 邓韦; 宋锦; 周波
Original assignee: Nanjing College of Information Technology
Current assignee: Nanjing College of Information Technology
Priority date: 2018-03-22
Filing date: 2018-03-22
Publication date: 2024-04-02
Anticipated expiration: 2038-03-22
Also published as: CN108318983A

Abstract

The invention provides a co-construction shared optical fiber ODF, which comprises a box body, a box door and at least two integrated welding trays; four operator equipment installation chambers are arranged at the upper part in the box body. The co-building shared optical fiber ODF can realize the co-building sharing of the optical ODF of the cell machine room, saves resources and space, is convenient to maintain, improves the safety possibility of the setting of the machine rooms of various operators, and provides a standby unit.

Description

Co-building shared optical fiber ODF

Technical Field

The invention relates to an ODF, in particular to a co-construction shared optical fiber ODF.

Background

Currently, three telecom operators, namely telecom operators, mobile operators and Unicom operators, are in vigorous competition in broadband access service. The broadband service of three operators is messy and unattractive, and the three operators often bring disputes to the pipeline or the wiring, thus bringing great confusion to the owners; the operators repeatedly construct broadband access service, which causes the increase of operation cost and waste.

Disclosure of Invention

The invention aims to solve the technical problem that three existing operators are mutually independent, so that resource waste is necessarily caused during installation, and the existing resources are required to be shared and integrated.

In order to solve the technical problems, the invention provides a co-construction shared optical fiber ODF, which comprises a box body, a box door and at least two integrated welding trays; four operator equipment installation chambers are arranged at the upper part in the box body; a unit door is arranged at the front side of each operator equipment installation room, and a door lock is arranged on each unit door; the lower part in the box body is divided into a welding tray installation chamber and a welding tray storage chamber by a partition plate up and down, and the welding tray storage chamber is positioned below the welding tray installation chamber; the box door is hinged to the front side edge of the box body, and covers the front sides of the welding tray storage chamber and the welding tray installation chamber after swinging; a wire spool mounting plate and a side baffle are vertically arranged on the left side of the inside of the welding tray mounting chamber, and the wire spool mounting plate is positioned on the left side of the side baffle; a wire arranging ring mounting plate is vertically mounted on the right side inside the welding tray mounting chamber; the side baffle and the wire arranging ring mounting plate are parallel to the left side surface and the right side surface of the box body, and slots are correspondingly formed in the opposite side surfaces of the side baffle and the wire arranging ring mounting plate; the front side edge of the wire arranging ring mounting plate is vertically provided with wire arranging rings, and the front side edge of the partition plate is transversely provided with wire arranging rings; the integrated welding tray is inserted into a pair of slots with the same left and right heights; a winding post is vertically arranged on the front side surface of the winding disc mounting plate; three oval limiting plates are arranged on each winding post at intervals, and the oval limiting plates are parallel to the front side face of the winding disc mounting plate.

Further, a branching module is arranged on the front side edge of the side baffle; the branching module comprises a mounting bottom plate and arc branching baffle strips which are arranged on the front side surface of the mounting bottom plate at intervals. Utilize the arc separated time shelves on the separated time module to realize the separated time arrangement of cable, make things convenient for constructor to install the cable fast.

Further, two tray support plates with F-shaped cross sections are arranged in the welding tray storage chamber, and the notch of the two tray support plates are arranged oppositely. Utilize the tray backup pad of F shape can place three-layer integration butt fusion tray at least and carry out the deposit.

Further, a wiring channel communicated with four operator equipment installation chambers is arranged at the top of the box body; and supporting jacking blocks are arranged at four top corners of the bottom of the box body.

Further, the wire arranging ring comprises a U-shaped fork head, a fixed cushion block and a fixed screw; the left fork head end part of the U-shaped fork head is provided with a left edge strip which turns right, and the right fork head end part of the U-shaped fork head is provided with a right edge strip which turns left; teeth are arranged above the end part of the left edge strip, and the lower side surface of the right edge strip is elastically pressed above the teeth; the fixed cushion block is fixedly arranged in the middle of the U-shaped bend below the U-shaped fork head, and the fixed screw is fixedly arranged on the fixed cushion block; the fixing screw is used for being installed on the front side screw hole of reason line ring mounting panel and division board in a threaded manner. The adoption tooth can prevent that the cable of reason from droing, plays and stops spacing effect.

Further, the tail end of the right edge strip is provided with an upward-tilting arc flanging, and the inner wall of the right fork head of the U-shaped fork head is provided with an upward-tilting arc guide strip. The arc flanging is adopted, so that the cable can be conveniently extruded from the arc flanging; the adoption of the arc-shaped guide strip can prevent the cable from being extruded from the tail end of the right edge strip and being pressed in the seam between the left edge strip and the right edge strip, so that the cable is prevented from being damaged or signal transmission is prevented from being influenced.

Further, optical cable fixing buckles are also transversely distributed on the front side edge of the partition plate; the optical cable fixing buckle is of an L-shaped structure, one end of the L-shaped structure is vertically arranged on the front side edge of the partition plate, and buckling teeth are arranged on the inner side opposite to the front side edge of the optical cable fixing buckle. Adopt the buckle tooth to carry out the buckle to spacing fixed cable, prevent to drop easily.

Further, a door handle is provided on the outer side surface of the door.

The invention has the beneficial effects that: the equipment of the three operators is respectively placed in the equipment installation rooms of the three operators, and the equipment installation room of the other operator is used as a standby, so that the sharing and integration of the three operators are facilitated; the connecting wires of three operators enter and exit through each wiring channel; redundant cables can be wound on the winding posts, meanwhile, the cables are limited through the oval limiting plates, falling is prevented, and meanwhile, the three layers of cables can be conveniently classified; the integrated welding trays are correspondingly inserted into slots at various heights, and redundant standby integrated welding trays are placed on tray supporting plates in the welding tray storage chambers; the wire harness is sorted and classified through each wire arranging ring on the wire arranging ring mounting plate and the partition plate; and limiting and fixing the key optical fibers in use through the optical cable fixing buckle.

Drawings

FIG. 1 is a schematic diagram of a front view of the present invention;

FIG. 2 is a schematic view of a wire management ring according to the present invention;

FIG. 3 is a schematic view of a winding post structure according to the present invention;

fig. 4 is a schematic view of the structure of the optical cable fixing buckle of the present invention.

Detailed Description

As shown in fig. 1 to 4, the co-construction shared optical fiber ODF disclosed by the invention comprises a box body 1, a box door 19 and at least two integrated welding trays 11; four operator equipment installation chambers 2 are arranged at the upper part in the box body 1; a unit door 5 is arranged on the front side of each operator equipment installation room 2, and a door lock 7 is arranged on each unit door 5; the lower part in the box body 1 is divided into a welding tray installation chamber 3 and a welding tray storage chamber 4 up and down by a division plate 21, and the welding tray storage chamber 4 is positioned below the welding tray installation chamber 3; the box door 19 is hinged on the front side edge of the box body 1, and the box door 19 covers the front sides of the welding tray storage chamber 4 and the welding tray installation chamber 3 after swinging; a wire spool mounting plate 16 and a side baffle 13 are vertically arranged on the left side of the inside of the welding tray mounting chamber 3, and the wire spool mounting plate 16 is positioned on the left side of the side baffle 13; a wire arranging ring mounting plate 9 is vertically arranged on the right side inside the welding tray mounting chamber 3; the side baffle 13 and the wire arranging ring mounting plate 9 are parallel to the left side surface and the right side surface of the box body 1, and slots 10 are correspondingly arranged on the opposite side surfaces of the side baffle 13 and the wire arranging ring mounting plate 9; the front side edge of the wire arranging ring mounting plate 9 is vertically provided with wire arranging rings 23, and the front side edge of the partition plate 21 is transversely provided with wire arranging rings 23; the integrated welding tray 11 is inserted into a pair of slots 10 with the same left and right heights; a winding post 17 is vertically provided on the front side of the spool mounting plate 16; three oval limiting plates 18 are arranged on each winding post 17 at intervals, and the oval limiting plates 18 are parallel to the front side face of the winding disc mounting plate 16.

Wherein, a branching module is arranged on the front side of the side baffle 13; the branching module comprises a mounting base plate 14 and arc-shaped branching bars 15 arranged on the front side surface of the mounting base plate 14 at intervals. Two tray support plates 24 having an F-shaped cross section are provided in the welding tray storage chamber 4, and notches of the two tray support plates 24 are disposed opposite to each other. A wiring channel 6 communicated with the four operator equipment installation chambers 2 is arranged at the top of the box body 1; the four top corners of the bottom of the box body 1 are respectively provided with a supporting top block 8. The wire arranging ring 23 comprises a U-shaped fork head 26, a fixed cushion block 29 and a fixed screw 30; a left edge strip 27 which is turned right is arranged at the left fork end part of the U-shaped fork head 26, and a right edge strip 28 which is turned left is arranged at the right fork end part of the U-shaped fork head 26; a tooth 33 is arranged above the end part of the left edge strip 27, and the lower side surface of the right edge strip 28 is elastically pressed above the tooth 33; the fixed cushion block 29 is fixedly arranged in the middle of the U-shaped bend below the U-shaped fork head 26, and the fixed screw 30 is fixedly arranged on the fixed cushion block 29; the fixing screw 30 is for screw-mounting on the grommet mounting plate 9 and the front side screw hole of the partition plate 21. An upward-tilting arc-shaped flanging 32 is arranged at the tail end of the right side strip 28, and an upward-tilting arc-shaped guide strip 31 is arranged on the inner wall of the right side fork of the U-shaped fork 26. Optical cable fixing buckles 22 are also transversely distributed on the front side edge of the partition plate 21; the cable fixing clasp 22 has an L-shaped structure, and one end of the L-shaped structure is vertically disposed on the front side of the partition plate 21, and a clasp tooth 25 is disposed on the inner side opposite to the front side of the cable fixing clasp 22. A door handle 20 is provided on the outer side surface of the door 19.

When the co-building shared optical fiber ODF disclosed by the invention is used, equipment (an optical fiber tray, an optical splitter and an optical amplifier) of three operators of China Mobile, china Unicom and China telecom are respectively placed in three operator equipment installation rooms 2, and the other operator equipment installation room 2 is used as a standby, so that the sharing and integration of the three operators are facilitated; the connecting wires of three operators are led in and out through each wiring channel 6; the redundant cables can be wound on the winding posts 17, and meanwhile, the cables are limited through the oval limiting plates 18 to prevent falling, and meanwhile, the three layers of cables can be conveniently classified; the integrated welding trays 11 are correspondingly inserted and mounted on the slots 10 at all heights, and redundant standby integrated welding trays 11 are placed on the tray supporting plates 24 in the welding tray storage chamber 4; the wire harness is sorted by the wire harness mounting plates 9 and the wire harness sorting rings 23 on the partition plates 21; the key optical fibers in use are limited and fixed through the optical cable fixing buckles 22.

The co-building shared optical fiber ODF disclosed by the invention has the advantages that: the optical ODF has obvious function distinction and clear wiring in the frame body; the binding positions are multiple, so that a wiring user terminal can conveniently input a plurality of small-core-number optical cables to be stripped and fixed; the top of the ODF is provided with a wiring channel 6, so that when the ODF is convenient to be combined, the tail fiber passes through the wiring channel 6 from the top to perform fiber jumping operation; the co-building sharing of the optical ODF of the cell machine room is realized, resources and space are saved, and the maintenance is convenient; the safety possibility of the arrangement of the machine rooms of the operators is improved, and a standby unit is provided; the optical ODF has reasonable functional layout, simple structure, easy realization and convenient operation and maintenance.

Claims

1. The utility model provides a sharing type optic fibre ODF is built altogether which characterized in that: comprises a box body (1), a box door (19) and at least two integrated welding trays (11); four operator equipment installation chambers (2) are arranged at the upper part in the box body (1); a unit door (5) is arranged at the front side of each operator equipment installation room (2), and a door lock (7) is arranged on each unit door (5); the lower part in the box body (1) is divided into a welding tray installation chamber (3) and a welding tray storage chamber (4) up and down through a partition plate (21), and the welding tray storage chamber (4) is positioned below the welding tray installation chamber (3); the box door (19) is hinged on the front side edge of the box body (1), and the box door (19) covers the front sides of the welding tray storage chamber (4) and the welding tray installation chamber (3) after swinging; a wire spool mounting plate (16) and a side baffle (13) are vertically arranged on the left side of the inside of the welding tray mounting chamber (3), and the wire spool mounting plate (16) is positioned on the left side of the side baffle (13); a wire arranging ring mounting plate (9) is vertically arranged on the right side inside the welding tray mounting chamber (3); the side baffle (13) and the wire arranging ring mounting plate (9) are parallel to the left side surface and the right side surface of the box body (1), and slots (10) are correspondingly arranged on the opposite side surfaces of the side baffle (13) and the wire arranging ring mounting plate (9); the front side edge of the wire arranging ring mounting plate (9) is vertically provided with wire arranging rings (23), and the front side edge of the partition plate (21) is transversely provided with the wire arranging rings (23); the integrated welding tray (11) is inserted into a pair of slots (10) with the same left and right heights; a winding post (17) is vertically arranged on the front side surface of the winding disc mounting plate (16); three elliptical limiting plates (18) are arranged on each winding post (17) at intervals, and the elliptical limiting plates (18) are parallel to the front side surface of the winding disc mounting plate (16);

the wire arranging ring (23) comprises a U-shaped fork head (26), a fixed cushion block (29) and a fixed screw rod (30); a left edge strip (27) which is turned right is arranged at the left fork end part of the U-shaped fork head (26), and a right edge strip (28) which is turned left is arranged at the right fork end part of the U-shaped fork head (26); a tooth (33) is arranged above the end part of the left edge strip (27), and the lower side surface of the right edge strip (28) is elastically pressed above the tooth (33); the fixed cushion block (29) is fixedly arranged at the middle part of the U-shaped bend below the U-shaped fork head (26), and the fixed screw (30) is fixedly arranged on the fixed cushion block (29); the fixed screw (30) is used for being arranged on the thread hole of the front side of the thread arranging ring mounting plate (9) and the partition plate (21) in a threaded manner;

the tail end of the right side bar (28) is provided with an upward-tilting arc flanging (32), and the inner wall of the right side fork of the U-shaped fork head (26) is provided with an upward-tilting arc guide bar (31);

optical cable fixing buckles (22) are also transversely distributed on the front side edge of the partition plate (21); the optical cable fixing buckle (22) is of an L-shaped structure, one end of the L-shaped structure is vertically arranged on the front side edge of the partition plate (21), and the inner side opposite to the front side edge of the optical cable fixing buckle (22) is provided with a buckle tooth (25).

2. The co-construction shared optical fiber ODF of claim 1, wherein: a branching module is arranged on the front side edge of the side baffle (13); the branching module comprises a mounting bottom plate (14) and arc branching baffle strips (15) which are arranged on the front side surface of the mounting bottom plate (14) at intervals.

3. The co-construction shared optical fiber ODF of claim 1, wherein: two tray supporting plates (24) with F-shaped sections are arranged in the welding tray storage chamber (4), and the notch of the two tray supporting plates (24) are oppositely arranged.

4. The co-construction shared optical fiber ODF of claim 1, wherein: a wiring channel (6) communicated with the four operator equipment installation chambers (2) is arranged at the top of the box body (1); four top angles at the bottom of the box body (1) are respectively provided with a supporting top block (8).

5. The co-construction shared optical fiber ODF of claim 1, wherein: a door handle (20) is arranged on the outer side surface of the box door (19).