CN207704092U - A kind of optical fiber plugging structure and system - Google Patents
A kind of optical fiber plugging structure and system Download PDFInfo
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- CN207704092U CN207704092U CN201721606510.9U CN201721606510U CN207704092U CN 207704092 U CN207704092 U CN 207704092U CN 201721606510 U CN201721606510 U CN 201721606510U CN 207704092 U CN207704092 U CN 207704092U
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Abstract
The utility model is related to optical module fields, and in particular to a kind of the optical fiber plugging structure and system of optical module.The optical fiber plugging structure includes briquetting, and it is arranged in shell and accommodates the optical fiber closure channel for the fiber optic bundle that ribbon fiber/array is laterally arranged, the optical fiber blocks point fine part that the fiber optic bundle that ribbon fiber/array is laterally arranged at least provided with one in channel is squeezed to both sides, optical fiber closure channel, briquetting, shell are conductive material, the briquetting compresses setting and is blocked on channel in optical fiber, and is connect with optical fiber closure channel, shell.The utility model realizes the closure of optical fiber by being squeezed fibre ribbon and being compressed, each close fiber optic is made to coordinate, and reduces gap, and the EMI for preventing fiber cross-sections from revealing effectively reduces crack size caused by fiber optic bundle/ribbon fiber, while ensureing the safety of optical fiber.
Description
Technical field
The utility model is related to optical module fields, and in particular to a kind of optical fiber plugging structure based on optical module and be
System.
Background technology
With modern society's informationization, intelligentized propulsion, requirement of the modern society to the information transmission system is higher and higher,
The demand of data center is also increasing.To high-speed, the requirement of low energy consumption has expedited the emergence of out various transmission for data center and base station
Module, especially optical module, due to its superiority of optical module, be also developed it is rapid, rate developed to all the way 10G, 25G,
100G even 400G.
Commonly a kind of optical module for realizing interconnection is AOC (active optical cable) for data center.Two branch
The active light module for holding hot plug is connected by an optical cable, and the optical fiber in optical cable needs to penetrate in module by module tail portion,
And it is coupled with the light path on PCBA by MOI (Mechanical optical interface).
Since the rate of light film block is higher and higher, more high-frequency signal can give off the smaller electromagnetic wave of wavelength, these
Electromagnetic wave can form electromagnetic interference to the external world, and therefore, industry has done stringent standard to the Electro Magnetic Compatibility of light film block.But
The higher optical module of rate, Electro Magnetic Compatibility are more susceptible to problem.
For example, for the AOC of 100G, in QSFP optical modules, the rate of 100G by the channel of four 25G come
It realizes, the wavelength of the electron waves of 25Ghz is 12mm, a quarter 3mm, if there are one length in 3mm on light film block shell
Seam, then the leakage of EMI i.e. can be very serious.However many optical modules have used 12 light paths, and use the shape of fibre ribbon
The ribbon width of formula, 12X1 just has 3mm or so, and how to block through the section electromagnetic interference signal of ribbon fiber is a difficulty
Topic.Also, it in addition to the AOC of 100G, can be applied on the AOC products of other frequencies, and be not limited to AOC, can apply
In the module (QSFP) plugged soon.
Meanwhile in the assembly of practical optical module, the optical cable of inside modules needs certain length surplus again, therefore, thoroughly
The EMI leakages for crossing ribbon fiber are not easy to block.
How to realize block optical fiber prevent EMI from revealing, be those skilled in the art always primary study the problem of one of.
Utility model content
The technical problem to be solved by the present invention is to for the drawbacks described above of the prior art, provide a kind of optical module
Optical fiber plugging structure, solve the problems, such as optical fiber EMI leakage.
The technical problem to be solved by the present invention is to for the drawbacks described above of the prior art, provide a kind of optical module
Optical fiber plugging system, solve the problems, such as optical fiber EMI leakage.
Technical solution adopted by the utility model to solve its technical problems is:A kind of optical fiber plugging structure, optical fiber are provided
Plugging structure is arranged in the optical module that can draw ribbon fiber/fiber optic bundle, and the optical module includes shell, the optical fiber
Plugging structure includes briquetting, and is arranged in shell and accommodates the optical fiber envelope for the fiber optic bundle that ribbon fiber/array is laterally arranged
Stifled channel, the optical fiber, which blocks, squeezes the fiber optic bundle that ribbon fiber/array is laterally arranged to both sides at least provided with one in channel
Point fine part of pressure, optical fiber closure channel, briquetting, shell are conductive material, and the briquetting compresses setting and blocked in optical fiber
On channel, and it is connect with optical fiber closure channel, shell.
Wherein, preferred version is:The optical fiber plugging structure further includes optical fiber holding plane arranged at the bottom, described point
Fine part includes the baffler that fitting is arranged on optical fiber holding plane, and the baffler is longitudinally disposed along optical fiber holding plane.
Wherein, preferred version is:Described point of fine part further includes the protrusion being arranged at baffler both ends, and the briquetting extruding is set
It sets between two protrusions, and is interference fitted respectively with two protrusions.
Wherein, preferred version is:The optical fiber holding plane is equipped with multiple bafflers disposed in parallel.
Wherein, preferred version is:The briquetting is flexible material.
Wherein, preferred version is:The optical module further includes the optical fiber lower fixture block being arranged in shell, the optical fiber envelope
Stifled channel is arranged at the middle part of optical fiber lower fixture block, and the optical module further includes being bonded the optical fiber being arranged in optical fiber lower fixture block rear end
Upper fixture block, the optical fiber lower fixture block and optical fiber upper fixture block are conductive material;And the briquetting squeezes setting and is pressed from both sides under optical fiber
The optical fiber of block blocks on channel, and is connect with optical fiber lower fixture block, shell.
Wherein, preferred version is:The optical module is optical module, and the shell of the optical module includes pedestal and upper cover,
The optical fiber lower fixture block is set on the base, and optical fiber lower fixture block is fixed on pedestal by the optical fiber upper fixture block, the briquetting patch
It closes and is arranged on upper lid, the briquetting is compressed when pedestal and upper cover are installed to be arranged in optical fiber lower fixture block.
Wherein, preferred version is:The briquetting is covered by the way that conductive back glue sticking is supreme.
Wherein, preferred version is:The optical fiber blocks the simple optical fiber diameter of the depth and ribbon fiber/fiber optic bundle in channel
It matches, the optical fiber lower fixture block and pedestal include the confined planes for blocking the both sides of the face in channel with optical fiber and flushing, the pressure
Block is compressed to optical fiber and blocks logical upper and conform in optical fiber lower fixture block and the equal confined planes of pedestal.
Technical solution adopted by the utility model to solve its technical problems is:A kind of optical fiber plugging system, optical fiber are provided
Plugging structure is arranged in the optical module that can draw ribbon fiber/fiber optic bundle, and the optical module includes shell, the optical fiber
The optical fiber that plugging system includes briquetting, is arranged in shell blocks channel and ribbon fiber/fiber optic bundle, and the optical fiber blocks
At least provided with one point of fine part in channel, the fiber optic bundle that described point of fine part laterally arranges the ribbon fiber/array is to both sides
It squeezes, the enjoyable optical fiber that is cooperatively disposed to of the fiber optic bundle that the ribbon fiber/array is laterally arranged blocks in channel;And institute
State that optical fiber blocks channel, briquetting, shell are conductive material, the briquetting setting blocks on channel in optical fiber and squeezes optical fiber table
Face, and connect with optical fiber closure channel, shell.
The beneficial effects of the utility model are that compared with prior art, the utility model passes through to ribbon fiber/array
The fiber optic bundle laterally arranged is squeezed and is compressed, that is, realizes the closure of optical fiber, and each close fiber optic is made to coordinate, and reduces gap, is prevented
The only EMI of fiber cross-sections leakage, effectively reduces crack size caused by the fiber optic bundle that ribbon fiber/array is laterally arranged, simultaneously
Ensure the safety of optical fiber.
Description of the drawings
Below in conjunction with accompanying drawings and embodiments, the utility model is described in further detail, in attached drawing:
Fig. 1 is structural schematic diagram of the utility model optical fiber plugging structure in non-fiber;
Fig. 2 is structural schematic diagram of the utility model optical fiber plugging structure in incoming fiber optic;
Fig. 3 is the utility model optical fiber plugging structure in the structural schematic diagram for placing briquetting;
Fig. 4 is the structural schematic diagram of the fine part of the utility model point;
Fig. 5 is the cross-sectional structure schematic diagram of the utility model optical fiber plugging structure;
Fig. 6 is the configuration schematic diagram of the utility model optical module;
Fig. 7 is the structural schematic diagram of the utility model pedestal;
Fig. 8 is the structural schematic diagram of the utility model upper cover.
Specific implementation mode
In conjunction with attached drawing, elaborate to the preferred embodiment of the utility model.
As shown in Figures 1 to 5, the utility model provides the preferred embodiment of optical fiber plugging structure.
A kind of optical fiber plugging structure, optical fiber plugging structure are arranged in the optical module that can draw ribbon fiber/fiber optic bundle 200
Interior, the optical module includes shell, and the optical fiber plugging structure includes briquetting 120, and is arranged in shell and accommodates band
The optical fiber for the fiber optic bundle 200 that shape optical fiber/array is laterally arranged blocks channel 110, and the optical fiber blocks at least to be arranged in channel 110
There are a point fine part 111 for squeezing the fiber optic bundle 200 that ribbon fiber/array is laterally arranged to both sides, the optical fiber to block channel
110, briquetting 120, shell are conductive material, and the briquetting 120 compresses setting and blocked on channel 110 in optical fiber, and and optical fiber
Block channel 110, shell connection.Wherein, the 200 abbreviation optical fiber described below of fiber optic bundle that ribbon fiber/array is laterally arranged.
Further, a kind of optical fiber plugging system of optical module is provided, optical module includes shell, and the optical fiber blocks
The optical fiber that system includes briquetting 120, is arranged in shell blocks channel 110 and more fibre array formulas are arranged in optical fiber closure
Optical fiber in channel 110, the optical fiber block in channel 110 at least provided with one point of fine part 111, and described point of fine part 111 is by institute
It states the fiber optic bundle 200 that ribbon fiber/array is laterally arranged to squeeze to both sides, the optical fiber that the ribbon fiber/array is laterally arranged
The enjoyable optical fiber that is cooperatively disposed to of beam 200 blocks in channel 110;And the optical fiber blocks channel 110, briquetting 120, shell
It is conductive material, the setting of the briquetting 120 blocks on channel 110 and squeeze optical fiber surface in optical fiber, and blocks and lead to optical fiber
Road 110, shell connection.
Specifically, 200 array of the fiber optic bundle arrangement that ribbon fiber/array is laterally arranged mainly blocks channel in optical fiber
Array is arranged into a line on 110, and as ribbon fiber is horizontally installed on, optical fiber blocks on channel 110 or fiber optic bundle uniline is lateral
It is arranged in optical fiber to block on channel 110, the fiber optic bundle 200 that the ribbon fiber/array is laterally arranged is mutual in the horizontal direction
It squeezes, meanwhile, then the fine part 111 of setting point between the fiber optic bundle 200 laterally arranged of ribbon fiber/array, it further increases band-like
The 200 extruding degree in the horizontal direction of fiber optic bundle that optical fiber/array is laterally arranged;And band-like light is extruded in by briquetting 120
Optical fiber is fitted in the surface that optical fiber blocks channel 110, realized to band by the upper surface for the fiber optic bundle 200 that fibre/array is laterally arranged
It is blocked on the fiber cross-sections for the fiber optic bundle 200 that shape optical fiber/array is laterally arranged, reduces optical cable 300 and enter module end
The leakage of EMI.
In the present embodiment, optical fiber closure channel 110, briquetting 120, shell are conductive material, realize briquetting
120, optical fiber blocks the energization in channel 110, realizes the energization of briquetting 120, shell.
And the briquetting 120 is flexible material.When briquetting 120 is compressed on optical fiber closure channel 110, elasticity is carried out
Deformation not only reduces the force to optical fiber, prevents optical fiber stress is excessive from deforming upon or damaging optical fiber, and make briquetting 120
Closer, reduction gap is bonded between optical fiber.
In the present embodiment, and with reference to figure 1, Fig. 4 and Fig. 5, the optical fiber plugging structure further includes light arranged at the bottom
Fine holding plane 112, described point of fine part 111 include the baffler 1111 that fitting is arranged on optical fiber holding plane 112, the resistance
Partition board 1111 is longitudinally disposed along optical fiber holding plane 112.
Specifically, optical fiber block the optical fiber holding plane 112 in channel 110 including bottom, both sides side wall 114, Yi Jishe
The baffler 1111 in optical fiber holding plane 112 is set, the optical fiber holding plane 112, side wall 114 and baffler 1111 are formed extremely
Few two optical fiber rest areas, if being just equipped with the optical fiber rest area of corresponding number with multiple bafflers 1111.When briquetting 120 compresses
Setting optical fiber block channel 110 on when, 120 bottom surface of briquetting respectively with the top of side wall 114, the top of baffler 1111 and light
Fine upper surface against.
In the present embodiment, described point of fine part 111 further includes the protrusion 1112 being arranged at 1111 both ends of baffler, the pressure
Block 120, which squeezes, to be arranged between two protrusions 1112, and is interference fitted respectively with two protrusions 1112.That is briquetting 120 and baffler
1111 have good contact, and reduce gap of the protrusion 1112 in briquetting 120 and generate.Meanwhile the effect of protrusion 1112
It is to prevent the optical fiber of both sides from crossing over.
Further, the optical fiber holding plane 112 is equipped with multiple bafflers 1111 disposed in parallel;Optical fiber is improved to exist
The extruding degree of horizontal direction.
As shown in Fig. 6, Fig. 7 and Fig. 8, the utility model provides the preferred embodiment of optical module.
The optical module further includes the optical fiber lower fixture block 131 being arranged in shell, and the optical fiber blocks channel 110 and is arranged
In optical fiber lower fixture block 131, the rear end that the optical fiber blocks channel 110 is intelligent acess end and fitting is provided with optical fiber upper fixture block
132, the optical fiber lower fixture block 131 and optical fiber upper fixture block 132 are conductive material;And the briquetting 120 squeezes and is arranged in light
The optical fiber of fine lower fixture block 131 blocks on channel 110, and is connect with optical fiber closure channel 110, optical fiber lower fixture block 131, shell.It is excellent
Selection of land, the briquetting 120 pass through in conductive back glue sticking to upper cover 142.
In the present embodiment, and with reference to 7 and 8, the shell includes pedestal 141 and upper cover 142, the optical fiber lower fixture block
131 are arranged on pedestal 141, and optical fiber lower fixture block 131 is fixed on pedestal 141 by the optical fiber upper fixture block 132, the briquetting
120 fittings are arranged in upper cover 142, and the briquetting 120 is compressed to be arranged under optical fiber when pedestal 141 and upper cover 142 are installed and be pressed from both sides
On block 131.
Specifically, optical fiber blocks channel 110 and is arranged at the middle part of optical fiber lower fixture block 131, the rear end of optical fiber lower fixture block 131 with
Optical cable 300 connects, and the optical fiber in access optical cable 300.
And optical fiber lower fixture block 131 is fixed at the intelligent acess end of optical fiber upper fixture block 132, and by optical fiber upper fixture block 132
It is fixed on pedestal 141, while pedestal 141 is provided on the notch for placing optical fiber upper fixture block 132 and pedestal 141 also
It is provided with screw notch, the optical fiber upper fixture block 132 is provided with and the matched notch of screw notch, the optical fiber upper fixture block
132 are resisted against on screw notch, and are fixed on the screw notch of pedestal 141 across optical fiber upper fixture block 132 by screw.
And the front end of optical fiber lower fixture block 131 is provided with PCBA board 180, the PCBA board 180 is additionally arranged at pedestal 141
On, optical fiber is drawn from optical cable 300, and passes through optical fiber lower fixture block 131, and is connect with PCBA board 180, realizes the transmission of optical signal.
In the present embodiment, the optical module is preferably optical module, and optical module further includes being arranged in pedestal 141 and upper cover
Unlock piece 150 between 142, specifically, unlock piece 150 is interactive to be arranged in upper cover 142, realize optical module plug locking and
Unlock.
And the optical module further includes the pressure ring 160 being arranged on optical cable 300,160 optical cables 300 of the pressure ring are solid
It is scheduled on optical module, specifically, the intelligent acess end further includes the external thread structure of a protrusion, convenient for the company with pressure ring 160
It connects, fixed optical fiber.
And the optical module further includes that the glue being arranged on optical cable 300 emits 170, the glue emit 170 optical cable 300 with
The binding site of module forms a flexible buffer area, protects the optical fiber in optical cable 300, prevents its fracture.
In the present embodiment, the scheme that two kinds of optical fiber block channel 110 and optical fiber cooperation is provided.
Scheme one,
The depth that the optical fiber blocks channel 110 is matched with the diameter of optical fiber, i.e. optical fiber holding plane 112 and side wall
The distance at 114 tops is matched with the diameter of optical fiber, and the optical fiber lower fixture block 131 and pedestal 141 include blocking to lead to optical fiber
The confined planes that the both sides of the face in road 110 flush, the briquetting 120 are compressed to optical fiber and block logical upper and conform to optical fiber lower fixture block
131 and the equal confined planes of pedestal 141 on.
Scheme two,
The optical fiber block channel 110 depth is bigger than the diameter of optical fiber or the optical fiber blocks the depth in channel 110
Smaller than the diameter of optical fiber, the optical fiber lower fixture block 131 and pedestal 141 include neat with the both sides of the face in optical fiber closure channel 110
Flat confined planes, the briquetting 120 are set as boss or groove structure, and the briquetting 120 is compressed to optical fiber and blocks logical upper and paste
It is bonded in optical fiber lower fixture block 131 and the equal confined planes of pedestal 141.
Alternatively, can also be that the optical fiber blocks the depth in channel 110 and matched with the diameter of optical fiber, pressed from both sides under the optical fiber
Block 131 and the equal confined planes of pedestal 141, the both sides of the face that channel 110 is blocked with optical fiber do not flush, and state briquetting 120 and are set as convex
Platform or groove structure, the briquetting 120 are compressed to optical fiber and block logical upper and conform to optical fiber lower fixture block 131 and pedestal 141 is equal
On confined planes.
Further, said program not only enables 120 pressed fiber of briquetting, realizes and blocks, while can not also damage light
Fibre improves the service life of optical fiber.
In the present invention, attached drawing is the embodiment of QSFP/QSFP+ optical modules.Similar MSA optical modules, such as
This technical solution can be used in SFP/SFP+ optical modules, XFP optical modules, CFP/CFP2/CFP4 etc..And XFP, other non-MSA's
Optical module/system casing, which goes out, can use this scheme at multi-beam.
As described above, only the best embodiment of the utility model is not intended to limit the scope of the utility model,
All equivalent change or modifications made according to the patent scope of the utility model are all that the utility model is covered.
Claims (10)
1. a kind of optical fiber plugging structure, optical fiber plugging structure are arranged in the optical module that can draw ribbon fiber/fiber optic bundle, institute
It includes shell to state optical module, it is characterised in that:The optical fiber plugging structure includes briquetting, and is arranged in shell and accommodates
The optical fiber for the fiber optic bundle that ribbon fiber/array is laterally arranged blocks channel, and the optical fiber blocks will at least provided with one in channel
Point fine part that the fiber optic bundle that ribbon fiber/array is laterally arranged is squeezed to both sides, optical fiber closure channel, briquetting, shell are equal
For conductive material, the briquetting compresses setting and is blocked on channel in optical fiber, and is connect with optical fiber closure channel, shell.
2. optical fiber plugging structure according to claim 1, it is characterised in that:The optical fiber plugging structure further includes that setting exists
The optical fiber holding plane of bottom, described point of fine part include the baffler that fitting is arranged on optical fiber holding plane, the baffler
Along the longitudinally disposed of optical fiber holding plane.
3. optical fiber plugging structure according to claim 2, it is characterised in that:Described point of fine part further includes being arranged in baffler
The protrusion at both ends, the briquetting, which squeezes, to be arranged between two protrusions, and is interference fitted respectively with two protrusions.
4. according to any optical fiber plugging structure of claim 2 to 3, it is characterised in that:It is set on the optical fiber holding plane
There are multiple bafflers disposed in parallel.
5. optical fiber plugging structure according to claim 1, it is characterised in that:The briquetting is flexible material.
6. optical fiber plugging structure according to any one of claims 1 to 3, it is characterised in that:The optical module further includes setting
The optical fiber lower fixture block in shell is set, the optical fiber blocks channel and is arranged at the middle part of optical fiber lower fixture block, and the optical module is also
The optical fiber upper fixture block in optical fiber lower fixture block rear end is set including fitting, the optical fiber lower fixture block and optical fiber upper fixture block are conduction material
Matter;And the briquetting squeezes and is arranged on the optical fiber closure channel of optical fiber lower fixture block, and connect with optical fiber lower fixture block, shell.
7. optical fiber plugging structure according to claim 6, it is characterised in that:The optical module is optical module, the light
The shell of module includes pedestal and upper cover, and the optical fiber lower fixture block is set on the base, and the optical fiber upper fixture block will press from both sides under optical fiber
Block is fixed on pedestal, and the briquetting fitting is arranged on upper lid, and the briquetting compresses setting when pedestal and upper cover are installed and exists
In optical fiber lower fixture block.
8. optical fiber plugging structure according to claim 7, it is characterised in that:The briquetting is supreme by conductive back glue sticking
It covers.
9. optical fiber plugging structure according to claim 7, it is characterised in that:The optical fiber block the depth in channel with it is band-like
The simple optical fiber diameter of optical fiber/fiber optic bundle matches, and the optical fiber lower fixture block and pedestal include two that channel is blocked with optical fiber
The confined planes that side end face flushes, the briquetting are compressed to optical fiber and block logical upper and conform to optical fiber lower fixture block and the equal limit of pedestal
On face.
10. a kind of optical fiber plugging system, optical fiber plugging structure are arranged in the optical module that can draw ribbon fiber/fiber optic bundle,
The optical module includes shell, it is characterised in that:The optical fiber envelope that the optical fiber plugging system includes briquetting, is arranged in shell
Stifled channel and ribbon fiber/fiber optic bundle, the optical fiber are blocked at least provided with one point of fine part in channel, and described point of fine part will
The fiber optic bundle that the ribbon fiber/array is laterally arranged is squeezed to both sides, the fiber optic bundle that the ribbon fiber/array is laterally arranged
The enjoyable optical fiber that is cooperatively disposed to blocks in channel;And the optical fiber blocks channel, briquetting, shell are conductive material, institute
It states briquetting setting and blocks on channel and squeeze optical fiber surface in optical fiber, and connect with optical fiber closure channel, shell.
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CN201721606510.9U CN207704092U (en) | 2017-11-27 | 2017-11-27 | A kind of optical fiber plugging structure and system |
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CN201721606510.9U CN207704092U (en) | 2017-11-27 | 2017-11-27 | A kind of optical fiber plugging structure and system |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
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WO2019100379A1 (en) * | 2017-11-27 | 2019-05-31 | 昂纳信息技术(深圳)有限公司 | Optical fiber plugging structure and system |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
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WO2019100379A1 (en) * | 2017-11-27 | 2019-05-31 | 昂纳信息技术(深圳)有限公司 | Optical fiber plugging structure and system |
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Address after: 518000 No. 35, Cuijing Road, Pingshan New District, Shenzhen, Guangdong Patentee after: Ona Technology (Shenzhen) Group Co.,Ltd. Address before: No.35 Cuijing Road, Pingshan District, Shenzhen City, Guangdong Province Patentee before: O-NET COMMUNICATIONS (SHENZHEN) Ltd. |
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