CN217404591U - ODF frame with route recognition function - Google Patents

Abstract

The utility model belongs to the technical field of communication equipment, a ODF frame with route recognition function is provided, which comprises a frame body and a box door, wherein the left side of the upper end of the frame body is provided with a frame-out fiber jumping channel, the right side of the upper end of the frame body is provided with a frame-in optical cable channel, a plurality of optical fiber discs are arranged along the height direction of the frame body, an optical cable traction piece is arranged below an optical cable leading-in device, the right side of the frame body is provided with a fiber management plate, and a plurality of fiber management fences corresponding to the optical fiber discs are arranged along the length direction of the fiber management plate in a staggered manner; the left side of the frame body is provided with a fiber dividing mechanism matched with the optical fiber disc, the lower part of the optical fiber disc is provided with a fiber dividing channel part matched with the fiber dividing mechanism, the fiber dividing channel part is provided with a readable label, and an auxiliary fiber searching mechanism is arranged between the fiber dividing mechanism and the fiber dividing channel part. The utility model discloses avoided all defects of jumping the fine circuit and gathering together of current ODF frame, it combines to assist seeks fine mechanism and has reduced the difficulty of optic fibre route discernment, the problem of consuming time and wasting power, has avoided the reason line difficulty moreover.

Description

ODF frame with route recognition function

Technical Field

The utility model belongs to the technical field of communication equipment, specific theory relates to an ODF frame with route recognition function.

Background

The ODF frame, namely an ODF optical fiber distribution frame, is a totally enclosed frame, provides equipment for termination, fusion splicing and storage of optical fibers of optical cables and optical terminal equipment, is main equipment in the existing communication distribution equipment, and has the functions of optical cable termination, wire adjustment, optical cable fiber core and tail fiber protection and the like with optical cable fixing and protecting functions. At present, if an optical cable fault occurs in an optical fiber distribution frame, manual overhaul is needed, an optical fiber route needs to be manually identified, a conventional identification mode is that an optical fiber sequence finder is adopted, when a worker needs to find the optical fiber route, a sending device needs to be clamped on an optical fiber to be found, then a receiving device is used for clamping and testing the other end of the optical fiber one by one, however, with the vigorous development of the communication industry, optical cables in an existing ODF frame are more dense, all jump fiber lines are gathered together, the worker often needs to spend a large amount of time for wire arrangement and then retest, and the existing ODF frame structure causes time and labor consumption for identifying the optical fiber route; on the other hand, the existing ODF rack has a poor wiring structure, which also increases the difficulty of wire management during the identification of the optical fiber route.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an ODF frame with route recognition function to solve the technical problem that the wiring structure has increased the difficulty degree of optical fiber route discernment in the optical fiber route discernment difficulty that prior art exists, consuming time power, ODF frame.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

an ODF frame with a route recognition function comprises a frame body and a box door, wherein a frame outlet fiber jumping channel is arranged on the left side of the upper end of the frame body, a frame inlet optical cable channel is arranged on the right side of the upper end of the frame body, an optical cable leading-in device is arranged in the frame body and below the frame inlet optical cable channel, a plurality of optical fiber discs are arranged in the height direction of the frame body, an optical cable traction piece is arranged below the optical cable leading-in device, a fiber arranging plate is arranged on the right side of the frame body, and a plurality of fiber arranging fences corresponding to the optical fiber discs are arranged in a staggered mode in the length direction of the fiber arranging plate; the left side of the frame body is provided with a fiber distribution mechanism matched with the optical fiber disc, the lower portion of the optical fiber disc is provided with a fiber distribution channel portion matched with the fiber distribution mechanism for use, a readable label is arranged on the fiber distribution channel portion, and an auxiliary fiber searching mechanism is arranged between the fiber distribution mechanism and the fiber distribution channel portion.

Furthermore, divide fine mechanism including setting up the wrapping post on the support body, the perpendicular to divide the fine board of branch that the wrapping post set up, set up branch wire winding unit on fine board upper portion, a plurality of settings are in sub wire winding unit lower part and both sides have the wiring unit of walking the line mouth, and set up and be in walk the excess line of wire unit lower part and hold the unit.

Furthermore, the auxiliary fiber searching mechanism comprises a controller, a plurality of micro vibration motors controlled by the controller, a vibration cylinder matched with the micro vibration motors and driven by the micro vibration motors, and a fiber is taken out of the frame and is penetrated into the vibration cylinder.

Furthermore, the optical cable traction piece comprises a traction panel fixed on the frame body and a plurality of traction through holes arranged on the traction panel.

Furthermore, the fiber arranging fence comprises a frame body and a winding roller arranged on the frame body.

Furthermore, a plurality of winding partition plates are arranged on the winding posts at intervals.

Furthermore, the routing units are arranged at intervals in a ladder shape along the length direction of the fiber distribution plate.

Furthermore, the fiber dividing channel part comprises a plurality of fiber dividing channel units which are arranged in a step shape.

Furthermore, a label part is arranged on the front end face of the optical cable traction piece.

Compared with the prior art, the utility model discloses possess following beneficial effect:

(1) the utility model discloses use the optical fiber disc as the benchmark unit, set up in the support body left side and divide fine mechanism and divide fine passageway portion, the two combines together and realizes that to jump fine grouping branch fine to a frame, realizes jumping fine modularization wiring to a frame, has avoided all defects of jumping fine circuit and gathering together of current ODF frame, has reduced the difficulty of optic fibre route discernment from this, the problem of consuming time power, has avoided the reason line difficulty moreover.

(2) The utility model is provided with the optical cable traction part, the fiber management plate and the fiber management fence on the right side of the frame body, which are used for traction introduction and planning grouping of the optical cables on the frame, thereby reducing the difficulty of wire management and fiber searching of the optical cables on the frame; on the other hand, the optical fiber disk is arranged on two sides of the in-rack optical cable and the out-rack jumping optical fiber, and the optical fiber disk and the out-rack jumping optical fiber are not interfered with each other, so that the wiring in the whole rack is simpler and clearer.

(3) The utility model discloses on the basis of dividing fine mechanism and minute fine passageway portion, set up the supplementary fine mechanism of seeking, it combines readable label and the cell-phone access mode of minute on the fine passageway portion, after acquireing and treat looking for optic fibre wiring code, drive through mobile phone SMS control little letter vibrating motor and treat looking for the optic fibre vibration, the staff can be directly through the jump fine of touch sensation perception vibration, it is compared in the vision seeks fine, in the intensive ODF frame of optic fibre, the fine mode is more excellent for the touch, not only realized that optic fibre route is easily looked for the discernment, and compare with the technological means that adopts electronic tags, control is simple, need not special reading equipment, also avoid connecting the end to optic fibre, the reliance of connector producer.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a schematic side view of the fiber dividing mechanism of the present invention.

Fig. 3 is a top view of the fiber dividing mechanism of the present invention.

Fig. 4 is a partial schematic view of the fiber dividing mechanism of the present invention.

Fig. 5 is a schematic structural view of the fiber dividing passage of the present invention.

Fig. 6 is a schematic structural view of the middle optical cable pulling member of the present invention.

Fig. 7 is a schematic structural view of the fiber management fence of the present invention.

Fig. 8 is a schematic structural view of the auxiliary fiber searching mechanism of the present invention.

Wherein, the names corresponding to the reference numbers are as follows: 1-frame, 2-box door, 3-frame-out fiber jumping channel; 4-an optical cable channel entering the rack, 5-an optical cable leading-in device, 6-an optical fiber disc, 7-an optical cable traction piece, 8-a fiber arranging plate, 9-a fiber arranging fence, 10-a fiber distributing channel part, 11-a winding column and 12-a fiber distributing plate; 13-sub winding unit, 14-routing unit, 15-excess line accommodating unit, 16-winding partition board, 17-auxiliary fiber searching mechanism, 18-fiber separating mechanism, 19-off-shelf fiber jumping, 20-in-shelf optical cable and 21-winding space;

71-pulling panel, 72-pulling through hole, 73-label part;

91-frame, 92-winding roller;

101-a fiber splitting channel unit;

141-a wiring port;

171-controller, 172-vibration drum, 173-mounting panel.

Detailed Description

In order to make the present invention more clear to those skilled in the art, the present invention will be further described in detail with reference to the following embodiments. It should be understood that the following specific embodiments are only for explaining the present invention, and it is convenient to understand that the technical solutions provided by the present invention are not limited to the technical solutions provided by the following embodiments, and the technical solutions provided by the embodiments should not limit the protection scope of the present invention.

Unless otherwise defined, technical or scientific terms used herein should have the ordinary meaning as understood by one of ordinary skill in the art to which this disclosure belongs. The use of the terms "comprising" or "including" and the like in this application is intended to cover the elements or items listed before or after the term and their equivalents, without excluding other elements or items. The positional relationship words "upper", "lower", "left", "right", "front", "rear", and the like are determined in accordance with the layout directions of the drawings in the specification, and are used only for indicating the relative positional relationship, which may be changed when the absolute position of the object to be described is changed.

Examples

As shown in fig. 1-8, this embodiment provides an ODF frame with route recognition function, and this ODF frame is provided with out a frame and jumps fine passageway, right side and advances a frame cable passageway including support body and chamber door, support body upper end left side, and in the support body, be located the below of advancing a frame cable passageway and be provided with optical cable introducing device, be provided with a plurality of optical fiber discs along the direction of height of support body, be provided with the optical cable at optical cable introducing device's below and pull the piece. The frame outlet jumping fiber channels and the frame inlet optical cable channels on the two sides of the split row enable the frame inlet optical cable and the frame outlet jumping fiber split row optical fiber disc to be wired on the two sides, the frame inlet optical cable and the frame outlet jumping fiber split row optical fiber disc are not interfered with each other, and therefore wiring in the whole frame is simpler and clearer.

This embodiment is provided with the optical cable in optical cable introducing device's below and pulls the piece, and the optical cable pulls the piece including fixing the panel that pulls on the support body, and a plurality of edges pull the through-hole that the panel set up, and the optical cable of putting into the shelf passes through optical cable introducing device after, and the piece department is pull at the optical cable realizes pulling and grouping to putting into the optical cable wiring, on this basis, still is provided with label portion on the preceding terminal surface that the optical cable pulls the piece, carries out the mark record with label portion, conveniently seeks and manages the line.

The optical cable traction piece is arranged below the optical cable traction piece, the right side of the frame body is provided with the fiber arranging plate, meanwhile, a plurality of fiber arranging fences corresponding to the optical fiber discs are arranged in the length direction of the fiber arranging plate in a staggered mode, the fiber arranging fences comprise a frame body, winding rollers are arranged on the frame body, the optical cable is put into the frame and is separated from the fiber arranging fences through the winding rollers, winding processing can be carried out on the winding rollers for redundant optical fibers, and the fiber arranging plate and the structural design of the fiber arranging fences reduce the line arranging difficulty of the optical cable which is put into the frame. In a further preferred scheme, according to the distribution of the optical fiber discs, the adjacent fiber tidying fences can be in a staggered arrangement mode, so that a large amount of optical cables entering the rack are prevented from being accumulated at the same position, and the difficulty in tidying and searching the fibers is increased.

The number of the off-shelf jumping fibers is far more than that of the on-shelf optical cables, so that the fiber distributing mechanism matched with the optical fiber disc is arranged on the left side of the shelf body, the fiber distributing channel part matched with the fiber distributing mechanism is arranged on the lower portion of the optical fiber disc, and modular wiring of the off-shelf jumping fibers is realized through the structural design that the analyzing mechanism is combined with the fiber distributing channel part.

In this embodiment, divide fine mechanism including setting up the wrapping post on the support body, the fine board of branch that the perpendicular to wrapping post set up, the sub-unit of winding of setting on dividing fine board upper portion, a plurality of settings have the line unit of walking the line mouth in sub-unit lower part and both sides to and set up and hold the unit in the excess line of walking the line unit lower part, wherein, walk the line unit from top to bottom and be echelonment arrangement in proper order left lower direction, the excess line holds the unit and is used for holding unnecessary tail optical fiber, it is U type structure. The fiber dividing channel part comprises a plurality of fiber dividing channel units which are arranged in a ladder shape, each fiber dividing channel unit is unequal in length, the ladder shape is arranged to increase from left to right, and a clamping groove for accommodating optical fibers to limit speed is arranged on the end face of each fiber dividing channel unit. Based on the structure, the wiring mode of the off-frame jumping fiber is as follows: and winding the off-frame jumping fiber at the sub-winding unit, then introducing the wiring unit, introducing the corresponding fiber dividing channel unit according to the wiring trend, and connecting the corresponding fiber dividing channel unit to the connecting terminal which is opposite to (vertically corresponding to) the fiber dividing channel unit. For the fiber dividing mechanism positioned below (not the first fiber dividing mechanism), the outgoing jumped fibers can pass through the winding posts of the fiber dividing mechanism above the outgoing jumped fibers, in a further preferred scheme, a plurality of winding partition plates are arranged on the winding posts at intervals, different winding spaces are formed among the winding partition plates, and the jumped fibers corresponding to different fiber dividing mechanisms can be wound in different winding spaces so as to facilitate subsequent wire arrangement and fiber searching.

The fiber dividing mechanism and the fiber dividing channel part are structurally designed to provide a structural foundation for assisting fiber searching (excessive dense optical fiber wiring is not applicable), in order to further optimize the technical scheme of the embodiment, the embodiment is provided with the fiber dividing mechanism and the fiber dividing channel part, meanwhile, the fiber dividing channel part is provided with a readable label, specifically, each fiber dividing channel unit is provided with a readable label corresponding to the readable label, the readable label can adopt a two-dimensional code capable of being scanned and identified, the readable label records the wiring coding information of fiber jumping connection on the fiber dividing channel unit, the information is uploaded after the wiring operation is completed by a worker, and then data updating is performed by a background. The auxiliary fiber searching mechanism is combined with the readable label on the fiber dividing channel part for use, so that auxiliary fiber searching is realized.

In this embodiment, the auxiliary fiber searching mechanism includes a controller, a plurality of micro vibration motors (not shown in the figure) controlled by the controller, a vibration cylinder matched with the micro vibration motors and driven by the micro vibration motors, and a jumping fiber taken out of the frame penetrates into the vibration cylinder and can be driven by the vibration cylinder to vibrate; the controller and the micro vibration motor are externally connected with a power supply, the controller can adopt a GSM (global system for mobile communications) short message controller, the micro vibration motor is installed on the installation panel, and the vibration cylinder is connected with the micro vibration motor. The fiber is found in a vibration mode, and compared with the fiber found in a visual mode, the fiber is found in an ODF frame with dense optical fibers in a tactile mode. The working principle of the auxiliary fiber searching mechanism is as follows: firstly, reading a readable label on a fiber splitting channel part by a worker through a mobile phone; secondly, obtaining a wiring code of the optical fiber to be searched; thirdly, inputting the optical fiber connection code to be checked by the mobile phone, and accessing the controller through the short message of the mobile phone; fourthly, the controller controls the corresponding micro vibration motor to be started according to the wiring codes; and fifthly, the micro vibration motor drives the vibration barrel to vibrate, and the staff finds the optical fiber to be searched through touch.

The above is the preferred embodiment of the present invention. It should be noted that, those skilled in the art can make several modifications without departing from the design principle and technical solution of the present invention, and these modifications should also be regarded as the protection scope of the present invention.

Claims (9)

1. An ODF frame with a route identification function comprises a frame body (1) and a box door (2), wherein a frame outlet fiber jumping channel (3) is arranged on the left side of the upper end of the frame body (1), a frame inlet optical cable channel (4) is arranged on the right side of the upper end of the frame body (1), an optical cable introducing device (5) is arranged in the frame body (1) and below the frame inlet optical cable channel (4), and a plurality of optical fiber discs (6) are arranged in the height direction of the frame body (1), and the ODF frame is characterized in that an optical cable traction piece (7) is arranged below the optical cable introducing device (5), a fiber management plate (8) is arranged on the right side of the frame body (1), and a plurality of fiber management fences (9) corresponding to the optical fiber discs (6) are arranged in a staggered mode in the length direction of the fiber management plate (8); the fiber distribution device is characterized in that a fiber distribution mechanism (18) matched with the optical fiber disc (6) is arranged on the left side of the frame body (1), a fiber distribution channel part (10) matched with the fiber distribution mechanism is arranged on the lower portion of the optical fiber disc (6), a readable label is arranged on the fiber distribution channel part (10), and an auxiliary fiber searching mechanism (17) is arranged between the fiber distribution mechanism and the fiber distribution channel part (10).

2. The ODF shelf with route identification function according to claim 1, wherein: divide fine mechanism (18) including setting up wrapping post (11) on support body (1), perpendicular to divide fine board (12) of branch that wrapping post (11) set up, set up and be in divide sub wire winding unit (13) on fine board (12) upper portion, a plurality of settings are in sub wire winding unit (13) lower part and both sides have walk line unit (14) of line mouth (141), and set up and be in walk the excess line of line unit (14) lower part and hold unit (15).

3. The ODF shelf with route identification function according to claim 2, wherein: the auxiliary fiber searching mechanism (17) comprises a controller (171), a plurality of micro vibration motors controlled by the controller (171), a vibration cylinder (172) matched with the micro vibration motors and driven by the micro vibration motors, and a fiber jumping out of a frame penetrates into the vibration cylinder (172).

4. The ODF shelf with route identification function according to claim 3, wherein: the optical cable traction piece (7) comprises a traction panel (71) fixed on the frame body (1) and a plurality of traction through holes (72) arranged along the traction panel (71).

5. The ODF shelf with route identification function according to claim 4, wherein: the fiber tidying fence (9) comprises a frame body (91) and a winding roller (92) arranged on the frame body (91).

6. The ODF shelf with route identification function according to claim 5, wherein: a plurality of winding partition plates (16) are arranged on the winding posts (11) at intervals.

7. The ODF shelf with route identification function according to claim 6, wherein: the routing units (14) are arranged at intervals in a ladder shape along the length direction of the fiber distribution plate (12).

8. The ODF shelf with route identification function according to claim 7, wherein: the fiber dividing channel part (10) comprises a plurality of fiber dividing channel units (101) which are arranged in a step shape.

9. The ODF shelf with route identification function according to claim 8, wherein: a label part (73) is also arranged on the front end surface of the optical cable traction piece (7).

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