CN206533369U - Optical fiber jumper connection system - Google Patents

Abstract

A kind of optical fiber jumper connection system, the system is specifically included：Master control input unit, a plurality of rack display devices, a plurality of display apparatus and a plurality of node display devices；Master control input unit is used for the nodal information for receiving input, and digital controlled signal and the rack position corresponding to obtaining destination node in nodal information are generated according to nodal information, is exported digital controlled signal to rack display device according to rack position；Rack display device is used to, according to the digital controlled signal output cue received, and the positions of panels according to corresponding to digital controlled signal obtains destination node, be exported digital controlled signal to display apparatus according to positions of panels；Display apparatus is used for according to the faceplate formation output cue received, and obtains the node location of destination node according to faceplate formation, is exported digital controlled signal to node display device according to node location；Node display device is used for according to the digital controlled signal output cue received.

Description

Optical fiber jumper connection system

Technical field

The utility model is related to computer room line layout field, espespecially a kind of optical fiber jumper connection system.

Background technology

Generally there are thousands of computer equipments modern large-scale data center, so huge scale far beyond Previous traditional wiring concept, will not only pay attention to from cost, while also to realize efficient cable-management, in real time may be used Lean on, optical fiber that is attractive in appearance, being easy to extension connects up the data center for being just adapted to Future Development trend.Therefore, past equipment room is single Point-to-point optical patchcord or welding can not meet daily use demand.

FTS equipment is that Fiber Transfer System fibre-optic transmission system (FOTS)s are exactly a kind of optical fiber for meeting above-mentioned requirements Attachment means, for optimizing the optical fiber connection inside data center machine room, it by the connection of various apparatus optical fibers by focusing on spy Determine FTS fibre faceplates, then mutually carry out jumper connection realization to interconnect.The optical fiber of so various equipment just can be by being connected to spy Panel on fixed FTS racks, the optical fiber cable laid in advance behind by panel is connected to the FTS faces where target device Plate, to reach the purpose for being easy to maintenance and management.

In general, existing FTS equipment uses hierarchical connection.A set of FTS system is made up of several racks, each rack Some panels are installed, if installing dry-cured meat bar under each panel, there are 16 fiber ports on every piece of coupling bar.One nodal information Including the cabinet No. where node port, panel number and port position.So device port link information can just pass through section Point numbering is recognized.Because FTS equipment is inactive component, placed when FTS racks are scattered, the fiber port of fibre faceplate is more When and in the case that substantial amounts of optical fiber cable gathers, it is existing manually search by way of need to search one by one in sequence it is fixed Position, confirms position step by step.It is difficult to the specific node location for quickly finding, being accurately positioned needs, with passage dilatation, hardware connection Adjustment, port number can further increase.Panel optical fiber cable, which gathers, causes the maintenance management difficulty of fibre faceplate and fiber port Further lifting, the time searched one by one is significantly increased, while also increasing the time for excluding optical fiber link failure.

Utility model content

The utility model purpose is to solve the problem of existing fiber Transmission system position can not quickly be positioned.

For up to above-mentioned purpose, the utility model provides a kind of optical fiber jumper connection system, and the system is included：Master control input dress Put, a plurality of rack display devices, a plurality of display apparatus and a plurality of node display devices；The master control input unit Nodal information for receiving input, generates digital controlled signal according to the nodal information and obtains mesh in the nodal information The rack position corresponding to node is marked, the digital controlled signal is exported to the rack according to the rack position and shows dress Put；The rack display device is arranged on each rack and is connected with the master control input unit, for according to the institute received State digital controlled signal output cue, and the panel position according to corresponding to the digital controlled signal obtains destination node Put, exported the digital controlled signal to the display apparatus according to the positions of panels；The display apparatus It is arranged on each panel in rack and is connected with the rack display device, for defeated according to the faceplate formation received Go out cue, and the node location of destination node is obtained according to the faceplate formation, will be described according to the node location Digital controlled signal is exported to the node display device；The node display device be arranged on each node in panel and with The display apparatus is connected, for exporting cue according to the digital controlled signal received.

In above-mentioned optical fiber jumper connection system, it is preferred that the master control input unit is translated comprising input module and data signal Code transport module；The input module is used for the nodal information for receiving input；Data signal decoding transport module with The input module is connected, for the nodal information to be converted to the digital controlled signal of sixteen-bit binary form simultaneously Data interaction is carried out with the rack display device on the rack corresponding to destination node in the digital controlled signal.

In above-mentioned optical fiber jumper connection system, it is preferred that the master control input unit also includes control unit, the control list Member is used to add control information in the nodal information and is converted to the numeral by data signal decoding transport module Control signal, the control information of the cue in the digital controlled signal makes prompt action.

In above-mentioned optical fiber jumper connection system, it is preferred that the master control input unit also includes display module, the display mould Block is liquid crystal dot matrix display screen, and the display module is connected with the input module, for showing the section that input module is received Point information.

In above-mentioned optical fiber jumper connection system, it is preferred that the data signal decoding transport module is the integrated electricity of single-chip microcomputer Road chip.

In above-mentioned optical fiber jumper connection system, it is preferred that the rack display device includes rack position instruction module and face Board position calculates transport module；The rack position instruction module is used to be carried according to the digital controlled signal output received Show signal；The positions of panels, which calculates transport module, to be used to calculate the acquisition digital control letter according to the digital controlled signal The positions of panels of positions of panels and transmission node in number corresponding to destination node, and according to the positions of panels by the numeral Control signal exports the display apparatus corresponding to the positions of panels.

In above-mentioned optical fiber jumper connection system, it is preferred that the display apparatus includes positions of panels indicating module and section Point position decoding transport module；The positions of panels indicating module is used to be carried according to the digital controlled signal output received Show signal；The positions of panels, which calculates transport module, to be used to calculate the node for obtaining destination node according to the digital controlled signal Position is simultaneously exported to the corresponding node display device.

Advantageous effects of the present utility model are：By input node full location information, digital integration control is used Circuit and light emitting diode processed, the indicator lamp of node port correspondence position, realizes the position of FTS Fiber Nodes needed for lighting automatically Indicate function.The characteristics of technical scheme, is the deficiency that compensate for original FTS panels sourceless characteristic, with the addition of correspondence position Function is indicated, by the utility model by the way that all cabinet panels are connected into general control panel, input pair by control circuit The position of node is answered to may indicate that the physical location of the node.

Brief description of the drawings

Accompanying drawing described herein is used for providing further understanding to of the present utility model, constitutes the part of the application, Do not constitute and limit of the present utility model.In the accompanying drawings：

Fig. 1 is the structural representation of optical fiber jumper connection system provided by the utility model；

Fig. 2 is master control location input device to all rack connection diagrams；

Fig. 3 is the structure subordinate relation schematic diagram of each apparatus module；

Fig. 4 is the structure chart of master control location input device 001；

Fig. 5 is the structure chart of rack lever position indicator 002；

Fig. 6 is the structure chart of positions of panels display device 003；

Fig. 7 is the structure chart of node location display device 004；

Embodiment

For the purpose, technical scheme and advantage of the utility model embodiment are more clearly understood, with reference to embodiment And accompanying drawing, the utility model is described in further details.Here, schematic description and description of the present utility model is used for The utility model is explained, but is not intended as limiting of the present utility model.

It refer to shown in Fig. 1, the utility model provides a kind of optical fiber jumper connection system, the system is included：Master control input dress Set to 0 01, a plurality of rack display devices 002, a plurality of display apparatus 003 and a plurality of node display devices 004；It is described Master control input unit 001 is used for the nodal information for receiving input, generates digital controlled signal according to the nodal information and obtains Rack position in the nodal information corresponding to destination node, exports the digital controlled signal according to the rack position To the rack display device 002；The rack display device 002 be arranged on each rack and with the master control input unit 001 is connected, for exporting cue according to the digital controlled signal received, and according to the digital controlled signal The positions of panels corresponding to destination node is obtained, is exported the digital controlled signal to the panel according to the positions of panels Display device 003；The display apparatus 003 be arranged on each panel in rack and with the rack display device 002 It is connected, for exporting cue according to the faceplate formation received, and target section is obtained according to the faceplate formation The node location of point, exports the digital controlled signal to the node display device 004 according to the node location；It is described Node display device 004 is arranged on each node in panel and is connected with the display apparatus 003, for according to reception The digital controlled signal output cue arrived.

In real work, the system includes master control position master control input unit 001, rack lever position indicator 002, panel Lever position indicator 003, and node location display device 004.Its overall structure block diagram is as shown in figure 1, the device is by master control position Computer room console side can be typically deployed in as master control end by putting master control input unit 001, be easy to regular job and implemented to control, its Lower end can connect multiple racks by bus, and rack can be deployed in computer room diverse location, should meet from 001 master control position master control Input unit side observation be clear that enclosure top region, it is ensured that centre without influence sight block with computer room physics every Disconnected, each rack respectively installs a set of rack lever position indicator 002, and master control position master control input unit 001 to all racks connects Schematic diagram such as Fig. 2 is met, the rack lever position indicator 002 of each rack is connected to all faces in this rack by connecting line Plate.Each positions of panels display device 003 is connected to each panel by connecting line and couples bar, should be easy to installed in cabinet front The height of regular maintenance simultaneously ensures that no fibre circuit is unobstructed.With the effect for the position display for realizing control node port, machine The structure subordinate relation schematic diagram of each apparatus module is as shown in Figure 3 in cabinet.

In the preferred embodiment of the utility model one, the master control input unit 001 includes input module 101 and numeral Signal interpretation transport module 103；The input module 101 is used for the nodal information for receiving input；The data signal is translated Code transport module 103 is connected with the input module 101, for the nodal information to be converted into sixteen-bit binary form The digital controlled signal simultaneously shows dress with the rack on the rack corresponding to destination node in the digital controlled signal Set to 0 02 carry out data interaction.Specifically it refer to shown in Fig. 4, the major function in real work of master control input unit 001 is Receive the nodal information of input and generate the lower end device of digital controlled signal control correspondence and show signal, further may also include aobvious Show module 102 and power module 104.

Wherein, input module 101 can also include control unit, and described control unit is used to control information adding the section The digital controlled signal is converted in point information and by data signal decoding transport module, the cue is according to institute The control information stated in digital controlled signal makes prompt action.Described control unit specifically can be by input node position Button and the function button composition for realizing control input, wherein realizing that the button of input node position receives the node of outside input Positional information, the input form that input module 101 receives is the mixing of numeral and letter, represents the physical location of node.Its lattice Formula is cabinet No. panel number node column address node row addresses, shape such as 14.1.M13.Its interior joint column address is English alphabet, Realize the function button of control input comprising " it is determined that ", " replacement ", " illumination ", " lighting ", " closing "；" it is determined that " button be used for connect The node location being had confirmed that by user, and calculate node is position encoded." replacement " button is used to remove what user had currently inputted Previous positional information." illumination " button is used to light the panel where the node location that user had previously had confirmed that, and can close Close the bright panel of first former point (if first front panel is different from current panel)." lighting " button is used to light node location instruction The node location indicator lamp lighted before lamp, and closing." closing " is used for instruction of closed node position etc. and face plate illumination Indicator lamp.

Input module 101 obtains 7 positional informations of a FTS node location from the input of user, wherein 4-5 are Capitalization English letter correspondence sequentially switchs to numeral, and (such as A is that 1, Z is 26) ten's digit information, and its front two is rack position Numbering, the 3rd is positions of panels numbering, the last 4 node location data signals for its definition.Line position where its interior joint is put For the 4th to the 5th.Column position is the 6th to the 7th；It is as shown in table 1 below：

Table 1

Display module 102, realizes input presentation of information, is one piece of liquid crystal dot matrix display screen, will be defeated by input module 101 The letter and number entered is shown on LCD screen.Data signal is decoded and transport module 103, realizes that input information binary system turns Change and be responsible for lower end device talk with interacting；Input module 101 can be obtained using single-chip microcomputer integrated circuit chip The decimal system information of node is converted to 16 binary location signals of specific format, and is transferred to corresponding rack position display Device 002.Table 2 defines the implication of each representative of the data signal, and most-significant byte is used to represent chosen FTS cabinets and FTS The position of panel.The meaning of most-significant byte address field：0：Reserved bit；1-4：Cabinet is numbered, and supports to represent 16 racks altogether；5-7：Panel Numbering, supports to represent 4 panels altogether.

Table 2

Table 3 defines the meaning of the least-significant byte address field (representing the position of node in the panel) of the signal：0-3：Need a little The column number of bright node；4-7：Need the line number of node lighted.Power module 104, is embodied as whole master control input mould Block is powered.

Table 3

In the preferred embodiment of the utility model one, the rack display device 002 includes rack position instruction module 201 Transport module 202 is calculated with positions of panels；The rack position instruction module 201 is used for described digital control according to what is received Signal output cue；The positions of panels, which calculates transport module 202, to be used to calculate acquisition according to the digital controlled signal The positions of panels of positions of panels and transmission node in the digital controlled signal corresponding to destination node, and according to the panel The digital controlled signal is exported the display apparatus 003 corresponding to the positions of panels by position.

In real work, the rack lever position indicator 002 can include rack position instruction module 201 and positions of panels Calculate transport module 202, rack power module 103, as shown in figure 5, the main rack position and face for completing to indicate input node Board position flag bit judges, position is sent into correspondence panel.Wherein, rack position instruction module 201, it is main to realize instruction pair Answer the rack of node location；Positions of panels calculates transport module 202, and main realize calculates the positions of panels for obtaining node, transmission The positions of panels of node.Positions of panels calculates node location data signal that transport module 202 defines by the numeral of one 12 Signal represents that table 4 defines the meaning of high 4 of the data signal, and high 4 are used to represent chosen FTS cabinets and FTS panels Position, the signal least-significant byte represent meaning with table 3：0-4：All the time done and computing with low level, output 0；5-7：Panel number Address field.Rack power module 203, is mainly embodied as rack position display module and positions of panels calculates transport module and powered, And be that institute's junction Board position display device 003 and its all submodules are powered.

Table 4

In the preferred embodiment of the utility model one, the display apparatus includes positions of panels indicating module and section Point position decoding transport module；The positions of panels indicating module is used to be carried according to the digital controlled signal output received Show signal；The positions of panels, which calculates transport module, to be used to calculate the node for obtaining destination node according to the digital controlled signal Position is simultaneously exported to the corresponding node display device.

In real work, the positions of panels display device 003, as shown in fig. 6, comprising positions of panels indicating module 301, Node location decodes transport module 302, panel integral illumination module 303, panel power supply module 304.It is main aobvious from rack position The positions of panels of the receiving node of showing device 002 and display, while the position of node is transferred into node location display device 004. Wherein, the positions of panels indicating module 301, it is main to realize the positions of panels for indicating node；The node location decoding transmission Module 302, main realize is handled the node location of reception, is converted into node location and is transferred to node location display dress Set to 0 04.Its transfer principle position：The node location information obtained by positions of panels computing module, as shown in table 5.Pass through 0-3 Corresponding node coupling bar position is obtained, 4-7 obtain position of the corresponding node in coupling bar.So as to realize connection correspondence The power supply of node location instruction device 401 on position.

Table 5

Panel integral illumination module 303, main realize implements integral illumination to the panel；Panel power supply module 304, mainly The electric consumption on lighting that rack power supply module 203 is provided, which is distributed to panel integral illumination module 303 and distributed, is connected to panel position Put all node location display devices 004 in display device 003.

The node location display device 004, as shown in fig. 7, comprising node location display module 401, being mainly responsible for section The display of point position；Wherein, node location display module 401, it is main to realize the node location information that received on panel Corresponding node position display.

In summary, when optical fiber jumper connection system provided by the utility model is applied in real work, master control input Device 001 receives the node location data of user's input, calculates corresponding rack position and by panel and port location information Lower end rack display device 002 is transferred to by rack and general control panel data connecting line；Rack lever position indicator 002 is being received The indicator lamp of itself is lighted after to signal first, corresponding positions of panels is calculated and is transferred to information by data connecting line Corresponding positions of panels display device 003；Positions of panels display device 003 lights the instruction of itself first after receiving signal Lamp, the panel is illuminated by face plate illumination device, then calculates the position of corresponding node port and information is passed through into data Connecting line is transferred to corresponding node lever position indicator 004；Node location display device 004 uses the position of the node received Calculate the physical location where exit port and light the position indicator of port side；With this at present to FTS node locatings When positive location and breakdown maintenance in application scenarios position two application scenarios, only need to by master control input unit 001 The specific node location for wishing to search of input, by " it is determined that ", the instruction of corresponding node position is then lighted by " lighting " Lamp, if dark can be lighted the illumination of correspondence cabinet panel by " illumination ", be reached and passed through with this for ease of operation in rack The system reaches the quick purpose searched and positioned.

The design that the utility model is related to the coupling bar to existing FTS racks, panel is improved, including but not limited to using number The reception of word integrated chip, processing, transmission node position and the LED light use that independent control is added at each node of panel Improved in the design for indicating the node location chosen, the optical fiber jumper connection system is used by input node full location information Digital integration controls circuit and light emitting diode or audible device, the indicator lamp of node port correspondence position needed for lighting automatically, Realize the position indicating function of FTS Fiber Nodes.The characteristics of technical scheme, is to compensate for original FTS panels sourceless characteristic Deficiency, with the addition of the instruction function of correspondence position, by the utility model by the way that all cabinet panels are passed through into control circuit General control panel is connected to, the position of input corresponding node is the physical location that may indicate that the node；With this, pass through luminous, color The means such as instruction or auditory tone cues, can be accurately positioned optical fiber jumper connection node location, so that the effect of lifting operating efficiency is reached, The system has expandability simultaneously, is easy to subsequently increase rack and panel.

Particular embodiments described above, has carried out entering one to the purpose of this utility model, technical scheme and beneficial effect Step is described in detail, be should be understood that and be the foregoing is only specific embodiment of the utility model, is not used to limit this The protection domain of utility model, it is all within spirit of the present utility model and principle, any modification for being made, equivalent substitution, change Enter, should be included within protection domain of the present utility model.

Claims (7)

1. a kind of optical fiber jumper connection system, it is characterised in that the system is included：Master control input unit, a plurality of racks display dress Put, a plurality of display apparatus and a plurality of node display devices；

The master control input unit is used for the nodal information for receiving input, and digital controlled signal is generated simultaneously according to the nodal information The rack position corresponding to destination node in the nodal information is obtained, according to the rack position by the digital controlled signal Export to the rack display device；

The rack display device is arranged on each rack and is connected with the master control input unit, for according to the institute received State digital controlled signal output cue, and the panel position according to corresponding to the digital controlled signal obtains destination node Put, exported the digital controlled signal to the display apparatus according to the positions of panels；

The display apparatus is arranged on each panel in rack and is connected with the rack display device, is connect for basis The faceplate formation output cue received, and according to the node location of faceplate formation acquisition destination node, root The digital controlled signal is exported to the node display device according to the node location；

The node display device is arranged on each node in panel and is connected with the display apparatus, is connect for basis The digital controlled signal output cue received.

2. optical fiber jumper connection system according to claim 1, it is characterised in that the master control input unit includes input module With digital signal interpretation transport module；

The input module is used for the nodal information for receiving input；

The data signal decoding transport module is connected with the input module, for the nodal information to be converted into sixteen bit The digital controlled signal of binary format and with the institute on the rack corresponding to destination node in the digital controlled signal State rack display device and carry out data interaction.

3. optical fiber jumper connection system according to claim 2, it is characterised in that the input module includes control unit, institute Stating control unit is used to add in the nodal information control information and be converted to by data signal decoding transport module The digital controlled signal, it is dynamic that the control information of the cue in the digital controlled signal makes prompting Make.

4. optical fiber jumper connection system according to claim 2, it is characterised in that the master control input unit is also comprising display mould Block, the display module is liquid crystal dot matrix display screen, and the display module is connected with the input module, for showing input mould The nodal information that block is received.

5. optical fiber jumper connection system according to claim 2, it is characterised in that the data signal decoding transport module is single The integrated circuit chip of piece machine.

6. optical fiber jumper connection system according to claim 1, it is characterised in that the rack display device includes rack position Indicating module and positions of panels calculate transport module；

The rack position instruction module is used for according to the digital controlled signal output cue received；

The positions of panels, which calculates transport module, to be used to calculate the acquisition digital controlled signal according to the digital controlled signal The positions of panels of positions of panels and transmission node corresponding to middle destination node, and controlled the numeral according to the positions of panels Signal output processed is to the corresponding display apparatus of the positions of panels.

7. optical fiber jumper connection system according to claim 1, it is characterised in that the display apparatus includes positions of panels Indicating module and node location decoding transport module；

The positions of panels indicating module is used for according to the digital controlled signal output cue received；

The positions of panels, which calculates transport module, to be used to calculate the node position for obtaining destination node according to the digital controlled signal Put and export to the corresponding node display device.