CN207528973U - Fibre distribution frame - Google Patents

Abstract

The disclosure is directed to a kind of fibre distribution frames, belong to optical fiber telecommunications system technical field.The fibre distribution frame includes rack and babinet, wherein：The babinet is mounted in the rack；Fiber reel in the babinet is installed, multiple optical fiber connecting terminals for connecting optical fiber are provided on the fiber reel；Optical-fibre channel is provided in the rack, the babinet is provided with fiber outlet, and the fiber outlet is connected with the optical-fibre channel；The position of the fiber outlet of the babinet is corresponded in the optical-fibre channel, is provided at least one lineation subchannel, one end of the lineation subchannel is corresponding with the fiber outlet of the babinet.Using the disclosure, which can save the time in terms of the replacement to optical fiber, promote the efficiency for replacing optical fiber.

Description

Fibre distribution frame

Technical field

The disclosure is directed to optical fiber telecommunications system technical field, especially with respect to a kind of fibre distribution frame.

Background technology

ODF (Optical Distribution Frame, fibre distribution frame) is that one kind aims at the design of fiber optic communication computer room Optical fiber wiring equipment, be part indispensable in fiber optic communication computer room.

Fibre distribution frame in the relevant technologies generally includes rack and multiple babinets, wherein, multiple babinets are mounted on rack In, multiple fiber reels can be installed, such as 6 fiber reels in each babinet, the front end of each fiber reel is provided with to connect Multiple optical fiber connecting terminals of optical fiber, wherein, optical fiber connecting terminal is located at interface inside fiber reel and outside fiber reel Interface be respectively used to connect different optical fiber.Specifically, the optical fiber connected inside fiber reel is connected to another optical fiber distributing On frame or equipment (such as server, router or interchanger), the optical fiber of fiber reel external connection converges in what is set in rack In optical-fibre channel, for connecting another equipment (such as server), in this way, different equipment can pass through the optical fiber in rack Realize communication.

During the disclosure is realized, inventor has found to have at least the following problems：

Up to a hundred optical fiber, such as 288 are usually mounted in fibre distribution frame, the optical fiber that these optical fiber converge in rack leads to In road, cause the optical fiber in optical-fibre channel more chaotic, in this way, the later stage when optical fiber failure the optical fiber is replaced when, Technical staff needs to extract the optical fiber of failure from the optical fiber of a large amount of confusions out using the plenty of time, it is seen then that this optical fiber distributing Frame than relatively time-consuming, greatly reduces the efficiency for replacing optical fiber in terms of the replacement to optical fiber.

Utility model content

Present disclose provides a kind of fibre distribution frames.The technical solution is as follows：

According to the embodiment of the present disclosure in a first aspect, providing a kind of fibre distribution frame, the fibre distribution frame includes rack And babinet, wherein：

The babinet is mounted in the rack；

Fiber reel in the babinet is installed, multiple optical fiber joint ends for connecting optical fiber are provided on the fiber reel Son；

Optical-fibre channel is provided in the rack, the babinet is provided with fiber outlet, the fiber outlet and the light Fine channel is connected；

The optical-fibre channel corresponds to the position of the fiber outlet of the babinet, sets at least one lineation subchannel, described One end of lineation subchannel is corresponding with the fiber outlet of the babinet.

Optionally, the optical-fibre channel corresponds to the position of the fiber outlet of the babinet, is provided with multiple stripe boards；

The optical-fibre channel is divided into multiple lineation subchannels by the multiple stripe board.

Optionally, the optical-fibre channel includes main channel and at least one branched bottom, and each branched bottom corresponds to One babinet, the multiple lineation subchannel are arranged in the main channel or the branched bottom.

Optionally, the position of the fiber outlet of the babinet is corresponded in the optical-fibre channel, is provided with multiple stripe boards；

The branched bottom or the main channel are divided into multiple lineation subchannels by the stripe board.

Optionally, the number of the corresponding lineation subchannel of the babinet is more than or equal to the number of fiber reel in the babinet Mesh.

Optionally, multiple optical fiber connecting terminals in the fiber reel are laterally arranged, and the fiber outlet of the babinet is located at The side of the babinet；

Each lineation subchannel respectively with a fiber reel on the same plane.

Optionally, the fiber reel is provided with hub slot at the position of the fiber outlet of the babinet.

Optionally, the optical fiber connecting terminal has tubular structure, and the inner wall of the optical fiber connecting terminal is provided with interior spiral shell Line, the mounting head that the optical fiber connecting terminal is used to set with optical fiber end are threadably secured.

Optionally, processor is provided in the babinet, display panel is provided on the cover board of the babinet, it is each described The detector that optical fiber whether is connected for detection fiber connection terminal is provided in optical fiber connecting terminal；

The processor is electrically connected respectively with the detector in the babinet and display panel.

Optionally, communication component, the communication component and the processor electricity in the babinet are additionally provided in the babinet Property connection.

The technical scheme provided by this disclosed embodiment can include the following benefits：

In the embodiment of the present disclosure, multiple lineation subchannels are provided in the optical-fibre channel of the fibre distribution frame, in this way, working as skill It, can be by the fiber distribution in each babinet to multiple lineation subchannels when art personnel install optical fiber in the fibre distribution frame In, and then the optical fiber in each babinet can be divided into many beams so that optical fiber is relatively more neat in fibre distribution frame, and the later stage works as When the optical fiber is replaced in optical fiber failure, technical staff can easily extract failure optical fiber out, therefore, this light Fine distributing frame can be saved the time in terms of the replacement to optical fiber, promote the efficiency for replacing optical fiber, and then can overcome related skill The problem of art.

It should be understood that above general description and following detailed description are only exemplary and explanatory, not The disclosure can be limited.

Description of the drawings

To describe the technical solutions in the embodiments of the present invention more clearly, make required in being described below to embodiment Attached drawing is briefly described, it should be apparent that, the accompanying drawings in the following description is only some embodiments of the utility model, For those of ordinary skill in the art, without creative efforts, it can also be obtained according to these attached drawings Other attached drawings.

Fig. 1 is the structure diagram of a kind of fibre distribution frame exemplified according to implementation；

Fig. 2 is the structure diagram of a kind of fiber reel exemplified according to implementation；

Fig. 3 is the structure diagram of a kind of fibre distribution frame exemplified according to implementation；

Fig. 4 is the structure diagram of a kind of fibre distribution frame exemplified according to implementation；

Fig. 5 is the structure diagram of a kind of fibre distribution frame exemplified according to implementation；

Fig. 6 is the structure diagram of a kind of fibre distribution frame exemplified according to implementation；

Fig. 7 is the structure diagram of hub slot in part A in Fig. 1；

Fig. 8 is according to a kind of optical fiber and the schematic diagram of the connection mode of optical fiber connecting terminal for implementing to exemplify；

Fig. 9 is the structure diagram of a kind of fibre distribution frame exemplified according to implementation；

Figure 10 is the structure diagram of a kind of fibre distribution frame exemplified according to implementation；

Figure 11 is the structure diagram of a kind of fibre distribution frame exemplified according to implementation；

Figure 12 is the structure diagram of a kind of fibre distribution frame exemplified according to implementation.

Marginal data

1st, rack 2, babinet

3rd, fiber reel 4, stripe board

5th, L shaped plate 6, fiber connector

7th, optical fiber 8, mounting head

9th, connecting pole 11, optical-fibre channel

21st, fiber outlet 22, cover board

23rd, processor 24, communication component

31st, optical fiber connecting terminal 32, hub slot

41st, structure 51, riser are tilted

52nd, transverse slat 111, lineation subchannel

112nd, main channel 113, branched bottom

221st, display panel 311, detector

Specific embodiment

Here exemplary embodiment will be illustrated in detail, example is illustrated in the accompanying drawings.Following description is related to During attached drawing, unless otherwise indicated, the same numbers in different attached drawings represent the same or similar element.Following exemplary embodiment Described in embodiment do not represent all embodiments consistent with the disclosure.On the contrary, they be only with it is such as appended The example of the consistent device and method of some aspects be described in detail in claims, the disclosure.

The embodiment of the present disclosure provides a kind of fibre distribution frame, also referred to as ODF (Optical Distribution Frame, Fibre distribution frame) fibre distribution frame, be aim at fiber optic communication computer room design optical fiber wiring equipment, be in fiber optic communication computer room not The part that can or lack, for ease of description, hereinafter referred ODF.

As shown in Figure 1, ODF includes rack 1 and babinet 2, wherein：Babinet 2 is mounted in rack 1；Light is installed in babinet 2 Fine disk 3 is provided on fiber reel 3 multiple for connecting the optical fiber connecting terminals 31 of optical fiber；Optical-fibre channel is provided in rack 1 11, babinet 2 is provided with fiber outlet 21, and fiber outlet 21 is connected with optical-fibre channel 11；Babinet 2 is corresponded in optical-fibre channel 11 The position of fiber outlet 21 is provided with multiple lineation subchannels 111,111 one end of lineation subchannel and the fiber outlet of babinet 2 21 is corresponding.

In force, the rack 1 of ODF can be the cabinet formula structure of the cuboid of console mode, can be installed in rack 1 to A few babinet 2, as shown in Figure 1, multiple babinets 2 can successively pacify from top to bottom in rack 1 along the short transverse of rack 1 Dress, the quantity of middle case 2 can be depending on actual conditions.As shown in Figure 1, babinet 2 can be provided with 21 He of fiber outlet Cover board 22, wherein, as shown in Figure 1, fiber outlet 21 can be arranged on the side wall of babinet 2, for optical fiber to be made to go out across optical fiber Mouth 21 is mounted in babinet 2, as shown in Figure 1, cover board 22 can be hinged on the bottom plate of babinet 2, can be opened and closed, with peace Optical fiber inside dress and protection.

As shown in Figure 1, multiple fiber reels 3 can be installed, such as 6 fiber reels, Fig. 1 can be installed in each babinet 2 In a fiber reel 3 is represented per a line, fiber reel 3 is a kind of for placing and connecting the disk of optical fiber, and shape can be flat Rectangular box-shaped structure, fiber reel 3 can be from top to bottom sequentially arranged in the form of drawer in babinet 2 in babinet 2.Such as figure Shown in 1, multiple optical fiber connecting terminals 31 are provided on each fiber reel 3, the quantity of optical fiber connecting terminal 31 is typically 6,6 Optical fiber connecting terminal 31 is laterally arranged in fiber reel 3, and as shown in Fig. 2, a part for optical fiber connecting terminal 31 is located at light The inside of fine disk 3, a part protrude from the outside of fiber reel 3.Wherein, optical fiber connecting terminal be located at interface inside fiber reel and Interface outside fiber reel is respectively used to connect different optical fiber.

Optical fiber can be installed in fiber reel 3 as described above, as shown in Fig. 2, the optical fiber bunchy inside fiber reel 3 is coiled in In disk, one end of optical fiber fiber reel 3 inside welding on each optical fiber connecting terminal 31, on all optical fiber connecting terminals 31 Optical fiber can pool a branch of, form optical cable as shown in Figure 2, which can be used for connecting the optical fiber in another ODF, It can be used for connection interchanger or router etc..In this way, the end of the optical fiber connecting terminal 31 in fiber reel 3 is used for The optical fiber that welding optic fibre disk 3 is internally mounted to, the end for protruding from the optical fiber connecting terminal 31 of fiber reel 3 are used to install fiber reel Optical fiber outside 3, the optical fiber outside fiber reel 3 for connecting another equipment (such as server), and then, different equipment To realize communication by the optical fiber in rack.

As shown in Figure 1, being additionally provided with optical-fibre channel 11 in rack 1, optical-fibre channel 11 can be horizontally installed in rack 1, It can also be disposed longitudinally in rack 1, can also laterally and longitudinally be combined and be arranged in rack 1, in position, optical-fibre channel 11 in rack 1, is usually located at the side of babinet 2, in practical applications, can also respectively set a light in the both sides of babinet 2 Fine channel 11, mainly depending on actual conditions, the present embodiment does not limit this for structure, position and the quantity of optical-fibre channel 11 System is provided with 11 example of optical-fibre channel for convenience of introducing with the side of babinet 2.In the application, the fiber outlet 21 of babinet 2, on The direction of optical fiber connecting terminal 31 stated is related to optical-fibre channel 11, for example, as shown in Figure 1, optical-fibre channel 11 is located at babinet 2 Right side, then fiber outlet 21 is arranged on the side wall on the right side of babinet 2, and is connected with optical-fibre channel 11, so that installation After optical fiber is pierced by from fiber outlet 21, into optical-fibre channel 11.As shown in Figure 1, and referring to Fig. 2, optical fiber connecting terminal 31 are usually inclined on fiber reel 3, and optical fiber connecting terminal 31 is towards fiber outlet 21, to facilitate optical fiber from fiber outlet 21 In be pierced by.If optical fiber connecting terminal 31 is vertically set on fiber reel 3, then after installation optical fiber, optical fiber is connected from optical fiber Terminal 31 can be bent to fiber outlet 21, be easy to cause the attenuation of fiber middle light signal, influenced fiber optic communication.

In force, as shown in Figure 1, corresponding to the position of the fiber outlet 21 of each babinet 2 in optical-fibre channel 11, setting There are multiple lineation subchannels 111,111 one end of lineation subchannel are corresponding with the fiber outlet 21 of babinet 2.Wherein, lineation The quantity of channel 111 can arbitrarily be set, for example, the number of lineation subchannel 111 can be more than or equal in each babinet 2 The number of fiber reel 3.As shown in Figure 1, a fiber reel 3 corresponds to a lineation subchannel 111, in this case, each babinet 2 The number of corresponding lineation subchannel 111 is identical with the number of fiber reel 3 in the babinet 2, each lineation subchannel 111 respectively with One fiber reel 3 on the same plane, in this way, each fiber reel 3 corresponds to a lineation subchannel 111 so that each babinet 2 In optical fiber it is more regular, distinguish the optical fiber in each fiber reel 3 convenient for technical staff.

Wherein, each lineation subchannel 111 respectively with a fiber reel 3 on the same plane, can be according to practical feelings Condition is there are many situation, for example, arrange when multiple optical fiber connecting terminals 31 in each fiber reel 3 are vertical, each lineation subchannel 111 when being vertically provided at the fiber outlet of babinet 2, then each lineation subchannel 111 can be respectively with a fiber reel 3 in phase On same vertical plane.In another example as shown in Figure 1, it is generally the case that multiple optical fiber connecting terminals in each fiber reel 3 are lateral Arrangement, the fiber outlet 21 of babinet 2 is located at the side of babinet 2, when the number of lineation subchannel 111 and the number phase of fiber reel 3 Meanwhile each lineation subchannel 111 can be respectively with a fiber reel 3 on identical horizontal plane.

In practical applications, optical fiber can be mounted on corresponding optical fiber connecting terminal 31 by technical staff first, then Optical fiber in each fiber reel 3 is organized into a tuftlet, is converged in 3 corresponding lineation subchannel 111 of fiber reel, Ran Houzai Optical fiber in babinets 2 all in rack 1 is organized into a big beam, is pierced by from total fiber outlet of rack 1, wears all optical fiber Go out total fiber outlet of rack 1, be connected respectively to miscellaneous equipment such as server etc..

In this way, being arranged by lineation subchannel 111 to the optical fiber installed in rack 1, it that is to say, technical staff first will Optical fiber in each fiber reel 3 is organized into a tuftlet, converges in 3 corresponding lineation subchannel 111 of fiber reel, then again will Optical fiber in rack 1 in all babinets 2 is organized into a big beam, is pierced by from total fiber outlet of rack 1.Use this structure ODF, internal optical fiber is more neat, and the later stage, technical staff can be very when the optical fiber is replaced in optical fiber failure Easily failure optical fiber is extracted out, therefore, this ODF can save the time of technical staff in terms of the replacement to optical fiber, carry Rise the efficiency for replacing optical fiber.

Optionally, set platy structure that can optical-fibre channel 11 be divided into multiple subchannels, phase in optical-fibre channel 11 The structure answered can be that optical-fibre channel 11 corresponds to the position of the fiber outlet 21 of babinet 2, can set multiple stripe boards 4, these Optical-fibre channel 11 is divided into multiple lineation subchannels 111 by stripe board 4.

In force, as shown in figure 3, the fiber outlet 21 of optical-fibre channel 11 and babinet 2 can be in contact, such case Under, optical-fibre channel 11 can be the channel of a longitudinal direction, and the position of the fiber outlet 21 of each babinet 2 is corresponded in optical-fibre channel 11 It puts place and multiple stripe boards 4 is set, the stripe board 4 close to 11 inner wall of optical-fibre channel can be fixed on light by lateral connecting pole 9 On the inner wall of fine channel 11, adjacent stripe board 4 can be fixed to each other by lateral connecting pole 9.In this way, go out from babinet 2 The optical fiber come can be respectively carried out in corresponding lineation subchannel 111, and then, optical fiber is relatively more neat in optical-fibre channel 11, Convenient for combing the optical fiber in rack 1.

Optionally, can also have a certain distance, such case between optical-fibre channel 11 and the fiber outlet 21 of babinet 2 Under, as shown in Figure 1, optical-fibre channel 11 can include main channel 112 and at least one branched bottom 113, dotted line frame is interior i.e. in Fig. 1 For lateral branched bottom 113, each branched bottom 113 corresponds to a babinet 2, and lineation subchannel 111 can be arranged on main logical In road 112 or branched bottom 113.

Wherein, main channel 112 can be longitudinal in optical-fibre channel 11, and branched bottom 113 can in optical-fibre channel 11 To be lateral.Lineation subchannel 111 can be provided separately in main channel 112 or branched bottom 113, can also be in branch Be respectively provided with lineation subchannel 111 in channel 113 and main channel 112, correspondingly, the formation of lineation subchannel 111 can have with Lower three kinds of modes：

Mode one, the corresponding structure setting of situation of lineation subchannel 111 is only set in branched bottom 113 to be, As shown in figure 4, dotted line frame represents branched bottom 113 in Fig. 4, the fiber outlet 21 of babinet 2 is corresponded in each branched bottom 113 Position is provided with multiple stripe boards 4；Branched bottom 113 is divided at the fiber outlet 21 of babinet 2 more by multiple stripe boards 4 A lineation subchannel 111.

In mode one, as shown in figure 5, one end of each fiber outlet 21 of the stripe board 4 far from babinet 2 is provided with arc Tilting structure 41, tilt structure 41 be located in main channel 112, by optical fiber guiding rack 1 total fiber outlet at.This lineation Subchannel 111 can not only achieve the effect that the optical fiber installed in optical-fibre channel 11 is more regular, but also this lineation subchannel 111 occupy ODF space it is smaller, make that ODF's is relatively simple for structure.It can be to avoid optical fiber 90 for arc in addition, tilting structure 41 Degree bending damage caused by optical fiber, and then the tilting structure 41 of this arc can play a protective role to optical fiber.

Mode two only sets the situation of lineation subchannel 111 and above-mentioned optical-fibre channel 11 and babinet 2 in main channel 112 Fiber outlet 21 be in contact, optical-fibre channel 11 is the channel of a longitudinal direction, and the light of each babinet 2 is corresponded in optical-fibre channel 11 The situation of the multiple stripe boards 4 of setting is identical at the position of fibre outlet 21, and details are not described herein again.

Mode three is respectively provided with the situation of lineation subchannel 111, corresponding structure in main channel 112 and branched bottom 113 Setting can, as shown in fig. 6, corresponding to the position of the fiber outlet 21 of babinet 2 in each optical-fibre channel 11, be provided with multiple L Shape plate 5；One end of L shaped plate 5 is located in main channel 112, and the other end of L shaped plate 5 is located in branched bottom 113；L shaped plate 5 is by light Fine channel 11 is divided into multiple lineation subchannels 111.

In mode three, as shown in fig. 6, each L shaped plate 5 can include riser 51 and transverse slat 52, riser 51 and transverse slat 52 It is integrally formed, the end of transverse slat 52 is fixed on the side wall of babinet 2, and a part for transverse slat 52 is located in branched bottom 113, separately A part is located in main channel 112, and riser 51 can be fully located in main channel 112, and the end of riser 51 can extend At the total fiber outlet that is to say rack 1 to the passway of main channel 112.In this way, technical staff will be in each fiber reel 3 Optical fiber be organized into a branch of, be placed in corresponding lineation subchannel 111 so that optical fiber in each fiber reel 3 and its Optical fiber in his fiber reel 3, is kept apart by L shaped plate, and then, the lineation effect of this lineation subchannel 111 is more preferable, entire machine Optical fiber in frame 1 is more neat.When a certain optical fibre damage, technical staff is easier to extract out the optical fiber of failure.It is in addition, perpendicular Right angle between plate 51 and transverse slat 52 is fillet right angle, the right angle of optical fiber can also be avoided to bend, and then from can playing protection light Fine effect.

Optionally, in order to make the optical fiber in babinet 2 between each fiber reel 3 more neat, corresponding structure can be, such as Shown in Fig. 1, each fiber reel 3 is provided with hub slot 32 at the position of the fiber outlet 21 of babinet 2, wherein, hub slot 32 Structure diagram can be as shown in Figure 7.

In force, all optical fiber bunchys in babinet 2 in each fiber reel 3 are by corresponding hub slot 32, into Enter lineation subchannel 111, in this way, the optical fiber in each fiber reel 3 can be made more regular.

In practical applications, the mounting means in optical fiber and fiber reel 3 between optical fiber connecting terminal 31 is mostly that optical fiber is direct It is inserted on optical fiber connecting terminal 31, this connection mode, when later stage technical staff replaces failure optical fiber, it is easy to touch To other optical fiber, the optical fiber touched is easy to come off from optical fiber connecting terminal 31, and then leads to the interruption of communication.So it is Solve the problems, such as that optical fiber easily comes off from optical fiber connecting terminal 31, corresponding structure can be：

Optical fiber connecting terminal 31 has tubular structure, and the inner wall of optical fiber connecting terminal 31 is provided with internal thread, optical fiber connection The mounting head that terminal 31 is used to set with optical fiber end is threadably secured.

In force, usual optical fiber end is provided with fiber connector, and mounting head can be set on fiber connector.Example Such as, the connection mode between a kind of optical fiber as shown in Figure 8 and optical fiber connecting terminal 31, fiber connector 6 are fixed on optical fiber 7 On, the mounting head 8 with tubular structure is set on optical fiber 7.Wherein, mounting head 8 comes off from the tail portion of optical fiber 7 in order to prevent, Correspondingly, the tail portion of optical fiber 7 can be arranged with limited location snap ring, which can be can only be to the card of a direction movement Ring for example, the limited location snap ring cannot be moved to the tail portion of optical fiber, and then can play mounting head 8 position-limiting action, above-mentioned limiting Snap ring may be also secured on optical fiber, such as in optical fiber is installed, can after mounting head 8 is set on optical fiber 7 by technical staff Limited location snap ring is moulded on optical fiber 7, come off in this way, limited location snap ring is also possible to prevent mounting head 8 from the tail portion of optical fiber 7.

Based on described above, after technical staff rotates mounting head 8 into optical fiber connecting terminal 31, so as in fiber reel Optical fiber of the welding in the optical fiber and mounting head 8 of optical fiber connecting terminal 31 realizes connection in 3, realizes the company between optical fiber and optical fiber It connects.Above-mentioned optical fiber connecting terminal 31 is connected through a screw thread with mounting head 8, is connected than stronger, and technical staff is in the later stage to optical fiber During optical fiber in disk 3 carries out maintenance and inspection, even if accidentallyying run into optical fiber, optical fiber will not be from optical fiber connecting terminal 31 In come off, and then, it is ensured that the stability of fiber optic communication.

In practical applications, manage and check for convenience the service condition of optical fiber connecting terminal 31, it is every in babinet 2 One fiber reel 3 has a corresponding number, and the optical fiber connecting terminal 31 in each fiber reel 3 also has corresponding number, wherein, The service condition of optical fiber connecting terminal 31 is：It has used and idle.Such as 1.1 can represent that No. 1 optical fiber in No. 1 fiber reel connects Connecting terminal.Be provided in rack 1 for record optical fiber connecting terminal 31 service condition logbook, which can be paper The table of matter version is hung in rack 1, and technical staff is facilitated to be checked and registered, wherein, the content of logbook can be such as table 1 It is shown.In this way, technical staff after optical fiber is installed, can be updated the service condition of optical fiber connecting terminal 31.

The service condition record sheet of 1 optical fiber connecting terminal of table

But the logbook of the service condition of above-mentioned optical fiber connecting terminal 31, technical staff is needed to carry out filling in registration, than Compared with the time for expending technical staff, corresponding processing can be, as shown in figure 9, wherein, Fig. 9 is the vertical view of babinet 2, dotted line Drawn component is represented to be provided with processor 23 in the inside of babinet 2, each babinet 2, be set on the cover board 22 of each babinet 2 There is display panel 221, be provided in each optical fiber connecting terminal 31 for whether detection fiber connection terminal 31 to connect optical fiber Detector 311；As shown in Figure 10, each processor 23 respectively with the detector 311 and display panel 221 in corresponding babinet 2 Be electrically connected, illustrate the connection relation of one of detector 311 and processor 23 in wherein Fig. 9, other detectors 311 and The connection relation of processor 23 is similar.

In force, processor can be CPU (Central Processing Unit, central processing unit) etc., use In handling the information that is shown in display panel 221.Display panel 221 can be liquid crystal display panel etc., for showing information.This Sample, when optical fiber connecting terminal 31 connects optical fiber, detector 311 detects the access of optical fiber, and sending optical fiber to processor 23 connects The signal entered, after processor 23 receives above-mentioned signal, based on the number of above-mentioned optical fiber connecting terminal 31, to display panel 221 The corresponding signal of " use " accordingly numbered is sent, after display panel 221 receives the signal of the transmission of processor 23, aobvious Show that panel 221 corresponds to the position of above-mentioned number and shows " use " information.

In this way, the service condition of optical fiber connecting terminal 31 can be updated by top mode, do not need to technical staff into Row update so as to save the time of technical staff, improves working efficiency.

Optionally, technical staff can also check the use feelings of optical fiber connecting terminal 31 on the background terminal of management ODF Condition, corresponding structure can as shown in figure 11, communication component 24 is additionally provided in each babinet 2, as shown in figure 12, communication Component 24 is electrically connected with the processor 23 in corresponding babinet 2.

In force, communication component 24 can be local area network communication component or bluetooth communication means, wherein, local Netcom Believe that component can be WiFi (Wireless-Fidelity, wireless network) component, the components such as WiFi antennas can be included, for making ODF access to LAN carries out data transmission；Bluetooth communication means are used for and the computer in other terminals such as fiber optic communication computer room Bluetooth connection is established, and is carried out data transmission.This of ODF establishes data connection by communication component 24 and other terminals Function makes processor 23 that the service condition of optical fiber connecting terminal 31 to be sent to the end on display panel 221 and ODF backstages simultaneously End.In this way, can be the service condition for showing optical fiber connecting terminal 31 on the terminal display screen on backstage, in this way, technical staff The service condition of optical fiber connecting terminal 31 can be checked on background terminal, optical fiber connecting terminal is checked without the scene to ODF 31 service condition, so as to which technical staff is facilitated to check and manage the service condition of optical fiber connecting terminal 31.

In the embodiment of the present disclosure, multiple lineation subchannels are provided in the optical-fibre channel of above-mentioned ODF, in this way, as technology people , can be by the fiber distribution in each babinet to multiple lineation subchannels when member installs optical fiber in the ODF, it and then can will Optical fiber in each babinet is divided into many beams so that optical fiber is relatively more neat in ODF, and the later stage breaks down when optical fiber to the optical fiber When being replaced, technical staff can easily extract failure optical fiber out, and therefore, this ODF is in terms of the replacement to optical fiber It can save the time of technical staff, the working efficiency of lift technique personnel.

Those skilled in the art will readily occur to the disclosure its after considering specification and putting into practice disclosure disclosed herein Its embodiment.This application is intended to cover any variations, uses, or adaptations of the disclosure, these modifications, purposes or Person's adaptive change follows the general principle of the disclosure and including the undocumented common knowledge in the art of the disclosure Or conventional techniques.Description and embodiments are considered only as illustratively, and the true scope and spirit of the disclosure are by above Claim is pointed out.

It should be understood that the present disclosure is not limited to the precise structures that have been described above and shown in the drawings, and And various modifications and changes may be made without departing from the scope thereof.The scope of the present disclosure is only limited by appended claim.

Claims (10)

1. a kind of fibre distribution frame, which is characterized in that the fibre distribution frame includes rack and babinet, wherein：

The babinet is mounted in the rack；

Fiber reel in the babinet is installed, multiple optical fiber connecting terminals for connecting optical fiber are provided on the fiber reel；

Optical-fibre channel is provided in the rack, the babinet is provided with fiber outlet, and the fiber outlet leads to the optical fiber Road is connected；

The optical-fibre channel corresponds to the position of the fiber outlet of the babinet, sets at least one lineation subchannel, the lineation One end of subchannel is corresponding with the fiber outlet of the babinet.

2. fibre distribution frame according to claim 1, which is characterized in that the optical-fibre channel corresponds to the optical fiber of the babinet The position of outlet is provided with multiple stripe boards；

The optical-fibre channel is divided into multiple lineation subchannels by the multiple stripe board.

3. fibre distribution frame according to claim 1, which is characterized in that the optical-fibre channel includes main channel and at least one A branched bottom, each branched bottom correspond to a babinet, the multiple lineation subchannel be arranged on the main channel or In the branched bottom.

4. fibre distribution frame according to claim 3, which is characterized in that the light of the babinet is corresponded in the optical-fibre channel The position of fibre outlet, is provided with multiple stripe boards；

The branched bottom or the main channel are divided into multiple lineation subchannels by the stripe board.

5. fibre distribution frame according to claim 1, which is characterized in that the number of the corresponding lineation subchannel of the babinet More than or equal to the number of fiber reel in the babinet.

6. fibre distribution frame according to claim 1, which is characterized in that multiple optical fiber connecting terminals in the fiber reel Laterally arrangement, the fiber outlet of the babinet are located at the side of the babinet；

Each lineation subchannel respectively with a fiber reel on the same plane.

7. according to the fibre distribution frame described in any one of claim 1-6, which is characterized in that the fiber reel is close to the case Hub slot is provided at the position of the fiber outlet of body.

8. according to the fibre distribution frame described in any one of claim 1-6, which is characterized in that the optical fiber connecting terminal has Tubular structure, the inner wall of the optical fiber connecting terminal are provided with internal thread, and the optical fiber connecting terminal is used to set with optical fiber end The mounting head put is threadably secured.

9. according to the fibre distribution frame described in any one of claim 1-6, which is characterized in that be provided with processing in the babinet Device is provided with display panel on the cover board of the babinet, is provided in each optical fiber connecting terminal and connects for detection fiber Whether connecting terminal connects the detector of optical fiber；

The processor is electrically connected respectively with the detector in the babinet and display panel.

10. fibre distribution frame according to claim 9, which is characterized in that communication component, institute are additionally provided in the babinet Communication component is stated to be electrically connected with the processor in the babinet.