CN206710654U - A kind of parallel light transceiving module - Google Patents

Abstract

The utility model discloses a kind of parallel light transceiving module, including upper lid, base, the parallel light transceiver component being arranged between the upper lid and base, the parallel optical interface and claw being connected with parallel light transceiver component, base is detachably connected with the upper lid, have in upper lid and be used for the storage tank for housing parallel light transceiver component and the interface position groove for housing parallel optical interface, the front end of the upper inherent interface position groove of lid also has the first claw locating slot, there is the second claw locating slot in base, first claw locating slot coordinates with the second claw locating slot grips the claw, claw is rectangle frame, the both sides of the claw are symmetrically arranged with elastic claw, the parallel optical interface is extended in the rectangle frame.Parallel light transceiving module of the present utility model, simple for structure and compact, density of components is high, and module interior space utilization rate is high, and manufacturing process is simple, is advantageous to product mass production, and improve production efficiency.

Description

A kind of parallel light transceiving module

Technical field

Optical module technical field is the utility model is related to, is to be related to a kind of parallel light transceiving module specifically.

Background technology

In civil area, with greatly developing for Chao Suan data centers and internet, high speed, low-power consumption, wide warm area, super large The parallel optical module of capacity is rapidly developed.In military domain, the Digital Phased Array radar is greatly developed, and wherein light is received and dispatched Module is digital transmission/reception in Digital Array Radar（T/R）The core devices of component, and western countries to adverse environment resistant, The parallel light transceiving module of high-speed is enforced a tight blockade and embargoed.

Parallel optical module requires higher density of components compared with single channel module, smaller package dimension and weight, more Low energy consumption, while have to thermal design, electromagnetic interference shield design, packaging technology design, photoelectric coupling design and circuit design Higher requirement, the direct decision module Performance And Reliability of the perfect structural design scheme of parallel modules.

The content of the invention

The utility model has higher requirement to solve existing parallel optical module to density of components, package dimension etc. Technical problem, it is proposed that a kind of parallel light transceiving module, can solve the above problems.

In order to solve the above-mentioned technical problem, the utility model is achieved using following technical scheme：

A kind of parallel light transceiving module, including upper lid, base, the parallel light being arranged between the upper lid and the base Transmitting-receiving subassembly, the parallel optical interface and claw being connected with the parallel light transceiver component, the base and the upper lid are removable Connection is unloaded, there is the storage tank for being used for housing the parallel light transceiver component in the upper lid and connect for housing the parallel light The interface position groove of mouth, the front end of the upper inherent interface position groove of lid also have the first claw locating slot, the base Inside there is the second claw locating slot, the first claw locating slot coordinates with the second claw locating slot clamps the claw Fixed, the claw is rectangle frame, and the both sides of the claw are symmetrically arranged with elastic claw, and the parallel optical interface extends to described In rectangle frame.

Further, the parallel light transceiver component includes PCB, flexible PCB, the parallel optical interface bag The first parallel optical interface and the second parallel optical interface are included, one end of the flexible PCB and one end of the PCB connect Connect, electrical interface, upper table of the flexible PCB towards the PCB are provided with the lower surface of the PCB The top in face carries out 180 ° of turnovers, and the flexible PCB is towards being provided with optical transceiving device on the surface of the PCB And lens, the optical port of the optical transceiving device are aligned with the first optical port of the lens, first parallel optical interface and institute State the second parallel optical interface to be arranged in the U-lag formed between the PCB and the flexible PCB, described Wherein one end of one parallel optical interface is connected with second parallel optical interface by optical fiber, first parallel optical interface it is another Outer one end is connected with the second optical port of the lens, the circuit in the PCB and the circuit on the flexible PCB Electrical connection, second parallel optical interface provide the optical interface for connecting aerial lug, and second parallel optical interface is set Put in the interface position groove, and the leading section of second parallel optical interface is extended in the rectangle frame.

Further, the flexible PCB is fixed with rigid plate, the rigidity on the surface of the PCB Plate is fixed in the storage tank.

Further, the rigid plate is pasted onto in the storage tank by heat-conducting glue.

Further, the parallel light transceiving module also includes end plug, the end plug and the pluggable connection of the claw.

Further, in addition to support, the support are detachably connected with the upper lid, shape on the lateral surface of the support Into the mounting post having for being fixedly mounted with external structure.

Further, the afterbody of the upper lid is provided with screw hole, on the medial surface of the support formed with the screw The corresponding support fixed column in hole, the support fixed column is interior to have internal thread, and support fixed column is inserted into the screw hole It is interior, fixed by screw.

Further, it is provided with the upper lid with female first screwed hole, fixation is provided with the PCB Through hole, the upper lid are fixed by screw and the PCB.

Further, it is provided with the upper lid with female second screwed hole, is provided with mounting hole on the base, institute Lid is stated to fix by screw and the base.

Further, the side on the upper lid positioned at second screwed hole is further opened with positioning hole, on the base The opening position corresponding with the positioning hole is formed with positioning convex, and when upper lid assembles with the base, the positioning convex is inserted Enter to the positioning hole.

Compared with prior art, the advantages of the utility model and good effect is：Parallel light of the present utility model receives and dispatches mould Block, simple for structure and compact, density of components is high, and module interior space utilization rate is high, and manufacturing process is simple, is advantageous to product batch Quantify production, and improve production efficiency.

After the detailed description of the utility model embodiment is read in conjunction with the figure, other features and advantage of the present utility model It will become clearer.

Brief description of the drawings

, below will be to embodiment in order to illustrate more clearly of the utility model embodiment or technical scheme of the prior art Or the required accompanying drawing used is briefly described in description of the prior art, it should be apparent that, drawings in the following description are only It is some embodiments of the utility model, for those of ordinary skill in the art, is not paying the premise of creative work Under, other accompanying drawings can also be obtained according to these accompanying drawings.

Fig. 1 is a kind of example structure split figure for the parallel light transceiving module that the utility model is proposed；

Fig. 2 is the external structure schematic diagram of upper lid in Fig. 1；

Fig. 3 is the internal structure schematic diagram of upper lid in Fig. 2；

Fig. 4 is the external structure schematic diagram of Fig. 1 center bases；

Fig. 5 is the internal structure schematic diagram of Fig. 4 center bases；

Fig. 6 is a kind of embodiment assembling structure schematic diagram for the parallel light transceiving module that the utility model is proposed；

Fig. 7 is the split figure of parallel light transceiver component in Fig. 1；

Fig. 8 is the assembling structure schematic diagram of parallel light transceiver component in Fig. 7；

Fig. 9 is the partial structural diagram of lens in Fig. 7；

Figure 10 is the partial structural diagram of lens in Fig. 7.

Embodiment

Below in conjunction with the accompanying drawing in the utility model embodiment, the technical scheme in the embodiment of the utility model is carried out Clearly and completely describing, it is clear that described embodiment is only the utility model part of the embodiment, rather than whole Embodiment.Based on the embodiment in the utility model, those of ordinary skill in the art are not under the premise of creative work is made The every other embodiment obtained, belong to the scope of the utility model protection.

Embodiment one, the present embodiment propose a kind of parallel light transceiving module, as shown in figure 1, including upper lid 11, base 12nd, the parallel light for be arranged on the parallel light transceiver component 13 between lid 11 and base 12, being connected with parallel light transceiver component 13 Interface 14 and claw 15, base 12 are detachably connected with upper lid 11, and as shown in Figure 1, Figure 3, Fig. 3 is that the inside structure of upper lid shows It is intended to, has in upper lid 11 and be used to house the storage tank 110 of parallel light transceiver component 13 and for housing parallel optical interface 14 Interface position groove 111, upper lid 11 is interior also to have the first claw locating slot 112 in the front end of interface position groove 111, as shown in figure 5, For the internal structure schematic diagram of base 12, there is the second claw locating slot 121 in base 12, the first claw locating slot 112 and the Two claw locating slots 121, which coordinate, grips claw 15, as shown in figure 1, claw 15 is rectangle frame, the both sides of claw 15 are symmetrical Elastic claw 151 is provided with, parallel optical interface 14 is extended in rectangle frame.The parallel light transceiving module of the present embodiment, it is simple for structure And it is compact, density of components is high, and module interior space utilization rate is high, and manufacturing process is simple, is advantageous to product mass production, with And improve production efficiency.

As a preferred embodiment, as shown in fig. 7, parallel light transceiver component 13 includes PCB 131, flexibility Circuit board 132, parallel optical interface 14 include the first parallel optical interface 141 and the second parallel optical interface 142, flexible PCB 132 One end be connected with one end of PCB 131, electrical interface 133, flexible circuit are provided with the lower surface of PCB 131 Plate carries out 180 ° of turnovers towards 132 to the top of the upper surface of PCB 131, as shown in figure 8, being received for the parallel light assembled Send out component structure diagram, flexible PCB 132 towards be provided with the surface of PCB 131 optical transceiving device 134 and Lens 135, as shown in figure 9, be the structural representation of lens 135, the of the optical port 134a of optical transceiving device 134 and lens 135 One optical port 135a is aligned, and the first parallel optical interface 141 and the second parallel optical interface 142 are arranged on PCB 131 and flexible electrical In the U-lag formed between road plate 132, wherein one end of the first parallel optical interface 141 passes through with the second parallel optical interface 142 Optical fiber 136 connects, as shown in Figure 10, for the polycrystalline substance schematic diagram of lens 135, the other end of the first parallel optical interface 141 It is connected with the second optical port 135b of lens 135, the circuit in PCB 131 is electrically connected with the circuit on flexible PCB 132 Connect, the second parallel optical interface 142 provides the optical interface 142a for connecting aerial lug, and the second parallel optical interface 142 is set In interface position groove 111, and the leading section of the second parallel optical interface 142 is extended in rectangle frame.The parallel light of the present embodiment Transmitting-receiving subassembly, by way of the PCB of hard is combined with flexible PCB, and flexible PCB carries out 180 ° and turned over Folding, the U groove structure that can accommodate more multicomponent device is formed, therefore more components can be laid in limited space, Compact-sized, reliability is high, and the package dimension of component is small, in light weight.Using the type of attachment of two parallel optical interfaces, one side It is flexible to solve the problems, such as that interface position is set, still further aspect is not limited the position of optical transceiving device, can be by flexible The length realization of optical fiber is adjusted, furthermore, the parallel optical interface not being connected with lens is used to externally provide the convenient optical interface plugged, Pluggable parallel optical transceiver module can be widely used in.

Wherein, optical transceiving device 134, which comprises at least, receives driving chip, PD detectors, laser, transmitting driving chip, The way of the present embodiment light path needs optical transceiving device, lens, parallel optical interface to be engaged, such as, if parallel optical interface has 24 channel lights, then corresponding optical transceiving device should also have 24 paths light paths, and lens have 24 tunnel optical ports, experiment card Bright, the packaging density of the optical assembly of this programme realizes the parallel light path of 24 passages enough, and overall package size is small, certainly, For 12 channel lights, it is easier to realize using this structure.

It is passive that parallel optical interface uses the laser or detector of lens and optical transceiving device with parallel optical port to carry out Coupling, the optical transceiving device light path scheme of parallel transmission uses passive coupling, using the patch device pickup lens of micron accuracy, Lens are aligned per optical port center all the way with the photosurface of laser or detector, implement passive coupling technique, coupling Technique is simple, and coupling efficiency is high, and reliability is high.

PCB 131 is electrically connected with flexible PCB 132 by connector.As a preferred embodiment, such as scheme Shown in 7, connector female end 131-1 is provided with the upper surface of PCB 131, flexible PCB 132 is towards PCB Connector male head 132-1, connector female end 131-1 and connector male head 132-1 socket connections are provided with 131 surface, when The position of right connector female end and connector male head, which can also be exchanged in realization, namely the upper surface of PCB 131, to be provided with Connector male head, connector female end is provided with flexible PCB 132, can equally be realized PCB 131 and flexible electrical Circuit realiration electrical connection in road plate 132.The connector preferably uses high speed connector, data transmission efficiency height.PCB circuits Connector female end is set on the upper surface of plate 131, connector male head is set on flexible PCB 132, and connector female end is with being connected The mode of device male socket connection, as shown in figure 8, realizing the three-dimension packaging of product, this packaged type improves the scheme connected The packaging density of product, solve circuit wiring space limitation problem, while be advantageous to the design of height circuit, meet parallel Optical assembly high rate data transmission performance.

Electrical interface 133 realizes upper electricity and the communication of module, it is preferred to use the pluggable connectors of 10x10 MEG-Array, side Just the installation and removal of optical assembly.Parallel optical interface is compatible with the connector interface of MPO standards, and meeting SNAP12 MSA agreements will Ask.Product design size compatibility SNAP12 modules, facilitate client is in situ to substitute, while increase the density of light path.

As shown in figure 8, in order to improve intensity when flexible PCB is fixed, it is convenient by this optical assembly and the fixed peace of upper lid Dress, rigid plate 137 preferably is fixed with surface of the flexible PCB 132 backwards to PCB 131, rigid plate 137 is fixed on In storage tank 110.

Rigid plate 137 is preferably made using the good metal material of thermal conductivity, is radiated beneficial to optical transceiving device, solves to seal in height The problem of filling quick heat radiating in the environment of density.

Preferred rigid plate is pressed together by heat pressing process and flexible PCB in the present embodiment, in order to further improve The heat-sinking capability of optical assembly, rigid plate 137 are pasted onto in storage tank 110 by heat-conducting glue.

Wherein upper lid 11 is preferably made using the good metal material of thermal conductivity, has higher radiating efficiency.Parallel light is received Heat caused by hair component 13 is directly delivered on upper lid 11 by rigid plate 137 and heat-conducting glue, while upper lid 11 and outside Liquid cooling plate contacts, therefore parallel light transceiving module has most short thermally conductive pathways, and module is within the temperature range of -55 DEG C ~ 95 DEG C Normal work, -45 DEG C of operating temperature ~ 85 DEG C of remote unconventional module, realize that the wide warm area of product works and adverse environment resistant Ability.

Because upper lid 11 uses metal material, also there is good shielding properties and the ability of electromagnetism interference simultaneously.

As shown in figure 1, parallel light transceiving module also includes end plug 16, end plug 16 and 15 pluggable connection of claw.Such as Fig. 6 institutes Show, in parallel light transceiving module unused state, by end plug 16 and the grafting of claw 16, for protection module optical port from dust Deng pollution, end plug 16 is preferably using flexible elastomeric material, and certainly, the utility model is not limited to elastomeric material.

As shown in figure 1, parallel light transceiving module also includes support 17, support 17 is detachably connected with upper lid 11, support 17 Lateral surface on formed with the mounting post 171 for being fixedly mounted with external structure.

As shown in Figure 1, Figure 2, Figure 3 shows, the afterbody of upper lid 11 is provided with screw hole 113, on the medial surface of support 17 formed with The corresponding support fixed column 172 of screw hole 113, support fixed column 172 is interior to have internal thread, and support fixed column 172 is inserted To screw hole 113, fixed by screw 20, screw hole 113 preferably uses counter bore structure, and screw 20 is accordingly sunk using cross recess Head screw, the end of screw 20 can be located in screw hole 113, play a part of protecting screw 20, on causing The outer surface of lid 11 keeps clean and tidy.

In order to improve fixed steadiness, preferably screw hole 113 and support fixed column 172 has two respectively, during assembling, Two support fixed columns 172 are located at the both sides of parallel light transceiver component 13 respectively.After support 17 is fixed with upper lid 11, support 17 is also It can play a part of compressing PCB 131 and upper lid 11.Further improve, the installation of parallel light transceiver component 13 is steady Solidity.

As shown in Figure 1, Figure 3, it is provided with upper lid 11 with female first screwed hole 114, is opened in PCB 131 There is fixed via 131a, upper lid 11 is fixed by screw 18 and PCB 131.First screwed hole 114 preferably uses blind hole knot Structure is designed, and screw 18 is inserted into the first screwed hole 114 through fixed via 131a, passes through screw thread with the first screwed hole 114 Connection, and then upper lid 11 and the fixation of PCB 131 are realized, the first screwed hole 114 is designed using blind hole structure, Ke Yiqi To the effect of protection screw 18, while it can ensure that the upper outer surface of lid 11 is clean and tidy.

As shown in figure 3, it is provided with upper lid 11 with female second screwed hole 115, as shown in Figure 4, Figure 5, base 12 On be provided with mounting hole 122, upper lid 11 is fixed by screw 19 and base 12.Screw 19 is inserted into through mounting hole 122 In two screwed holes 115, it is connected by screw thread with the second screwed hole 115, and then realizes being fixedly connected for upper lid 11 and base 12, the Two screwed holes 115 are preferably designed using blind hole structure, on the one hand can protect screw 19, still further aspect can ensure upper lid 11 Outer surface is clean and tidy.In addition, mounting hole 122 is preferably realized using counterbore, can equally play a part of protecting screw 19.

Side on upper lid 11 positioned at the second screwed hole 115 is further opened with positioning hole 116, on base 12 with positioning hole 116 Corresponding opening position is formed with positioning convex 123, and when upper lid 11 assembles with base 12, positioning convex 123 is inserted into positioning hole Pre-determined bit is carried out in 116, it is convenient to insert screw 19 for base to be alignd with upper lid.As a same reason, positioning hole 116 is preferred Realized using blind hole.

As shown in figure 4, module installation fixing screwed hole 124 is also formed with the lateral surface of base 12, for this is parallel Optical transceiver module is installed with external structure.

As shown in figure 5, clamping pawl is additionally provided with the second claw locating slot 121, for claw 15 is spacing

Certainly, it is to be also not limited to the example above to limitation of the present utility model, the utility model that described above, which is not, The variations, modifications, additions or substitutions that those skilled in the art are made in essential scope of the present utility model, Also the scope of protection of the utility model should be belonged to.

Claims (10)

1. A kind of 1. parallel light transceiving module, it is characterised in that：Including upper lid, base, be arranged on it is described it is upper lid with the base it Between parallel light transceiver component, the parallel optical interface and claw that are connected with the parallel light transceiver component, the base and institute State lid to be detachably connected, have in the upper lid and be used to house the storage tank of the parallel light transceiver component and for housing The interface position groove of parallel optical interface is stated, the front end of the upper inherent interface position groove of lid also has the positioning of the first claw Groove, the base is interior to have the second claw locating slot, and the first claw locating slot coordinates with the second claw locating slot will The claw grips, and the claw is rectangle frame, and the both sides of the claw are symmetrically arranged with elastic claw, and the parallel light connects Mouth is extended in the rectangle frame.
2. 2. parallel light transceiving module according to claim 1, it is characterised in that：The parallel light transceiver component includes PCB Circuit board, flexible PCB, the parallel optical interface include the first parallel optical interface and the second parallel optical interface, the flexible electrical One end of road plate is connected with one end of the PCB, and electrical interface is provided with the lower surface of the PCB, described Flexible PCB carries out 180 ° of turnovers towards the top of the upper surface of the PCB, and the flexible PCB is towards described It is provided with optical transceiving device and lens on the surface of PCB, the of the optical port of the optical transceiving device and the lens One optical port is aligned, first parallel optical interface and second parallel optical interface be arranged on the PCB with it is described soft Property circuit board between in the U-lag that is formed, wherein one end of first parallel optical interface and second parallel optical interface Connected by optical fiber, the other end of first parallel optical interface is connected with the second optical port of the lens, the PCB circuits Circuit on plate is electrically connected with the circuit on the flexible PCB, and second parallel optical interface provides to be connected for connecting outside The optical interface of device is connect, second parallel optical interface is arranged in the interface position groove, and second parallel optical interface Leading section is extended in the rectangle frame.
3. 3. parallel light transceiving module according to claim 2, it is characterised in that：The flexible PCB is backwards to the PCB Rigid plate is fixed with the surface of circuit board, the rigid plate is fixed in the storage tank.
4. 4. parallel light transceiving module according to claim 3, it is characterised in that：The rigid plate is pasted onto by heat-conducting glue In the storage tank.
5. 5. parallel light transceiving module according to claim 1, it is characterised in that：The parallel light transceiving module also includes end Plug, the end plug and the pluggable connection of the claw.
6. 6. according to the parallel light transceiving module described in claim any one of 1-5, it is characterised in that：Also include support, the branch Frame is detachably connected with the upper lid, formed with the installation for being fixedly mounted with external structure on the lateral surface of the support Post.
7. 7. parallel light transceiving module according to claim 6, it is characterised in that：The afterbody of the upper lid is provided with screw hole, It is interior with interior formed with the support fixed column corresponding with the screw hole, the support fixed column on the medial surface of the support Screw thread, and support fixed column is inserted into the screw hole, is fixed by screw.
8. 8. according to the parallel light transceiving module described in claim any one of 2-4, it is characterised in that：It is provided with and carries on the upper lid First screwed hole of internal thread, fixed via is provided with the PCB, and the upper lid passes through screw and the PCB circuits Plate is fixed.
9. 9. according to the parallel light transceiving module described in claim any one of 1-5, it is characterised in that：It is provided with and carries on the upper lid Second screwed hole of internal thread, mounting hole is provided with the base, and the upper lid is fixed by screw and the base.
10. 10. parallel light transceiving module according to claim 9, it is characterised in that：It is located at second spiral shell on the upper lid The side of pit is further opened with positioning hole, on the base opening position corresponding with the positioning hole formed with positioning convex, When upper lid assembles with the base, the positioning convex is inserted into the positioning hole.