CN103197385A

CN103197385A - Optical module and light path coupling method thereof

Info

Publication number: CN103197385A
Application number: CN2013101186130A
Authority: CN
Inventors: 黄永亮; 刘一诚
Original assignee: Hisense Broadband Multimedia Technology Co Ltd
Current assignee: Hisense Broadband Multimedia Technology Co Ltd
Priority date: 2013-04-08
Filing date: 2013-04-08
Publication date: 2013-07-10
Anticipated expiration: 2033-04-08
Also published as: CN103197385B

Abstract

The invention discloses an optical module and a light path coupling method of the optical module. The optical module comprises a printed circuit board (PCB), an optical element arranged on the PCB, an optical fiber which is coupled with the optical element through an optical lens module. The optical module further comprises a fixed support frame, a lens support frame which is detachably connected with the fixed support frame and an optical fiber support frame which is detachably connected with the lens support frame. The fixed support frame is fixed on the PCB. The optical lens module is arranged on the lens support frame. The optical fiber is arranged on the optical fiber support frame. The optical element is arranged between the fixed support frame and the lens support frame. At least two positioning parts are arranged on the fixed support frame. Corresponding positioning parts which are matched with the positioning parts on the fixed support frame for achieving detachable connection are arranged on the lens support frame. In addition, by means of mechanical fixation of multiple support frames, coupling of a light path is achieved, procedures are simplified, coupling cost is reduced and uniformity and accuracy of coupling are improved.

Description

Optical module and light path coupling process thereof

Technical field

The present invention relates to optical communication technique, specifically, relate to a kind of light path coupling process of optical module and the optical module that adopts this method to be coupled.

Background technology

In existing optical communication technique, light signal is used as the carrier of information, is carrying out high speed, long-time, information transmission reliably.As the core component of optical communication field, the coupling effect of optical element and transmission path (optical fiber) greatly affects light signal strength and quality of signals in the optical module, and then becomes one of key factor that influences the information transmission.

At present, optical element and Transmission Fibers realize that the method for light path coupling is divided into two kinds of active coupling and passive coupling in the optical module.

The process of active coupling process is: will be fixed on as the laser instrument of light source on the pcb board, it is luminous to control laser instrument then, use the coupling mechanism adjustment as the locus that changes the optical lens module that the light transmission path device uses, and detect by this module and be coupled to light intensity in the optical fiber, when the light intensity of sending when optical fiber reaches maximal value, determine that the lens position of this moment is the optimum coupling position.

The process of passive coupling method is: fixed laser at first, respectively laser instrument and optical lens module are photographed with two video cameras then, image is transferred in the PC, adjust the position of lens, when the center of circle of two images overlaps, determine that the lens position of this moment is the optimum coupling position.

If adopt active coupling scheme, need to use dedicated coupler, and if adopt the passive coupling mode, need to use two video cameras, the device therefor price is higher when causing being coupled, operation is more.And, no matter be active coupling scheme or passive coupling mode, after finding the optimum coupling position, all need to fix with UV glue earlier.UV glue be a kind of can quick-setting glue when when irradiation ultraviolet ray, but its intensity is lower, next also needs to carry out hot setting with black glue.In the manual operation process before black adhesive curing, owing to lack high-intensity mechanical fixation between laser instrument, optical lens module and the optical fiber of formation light path, the as easy as rolling off a log optical lens module that causes departs from coupling position, thereby causes light path coupling effect variation.

Summary of the invention

One of purpose of the present invention is to provide a kind of light path coupling process of optical module, and this method has been simplified operation in the coupling that realizes light path by the mechanical fixation between a plurality of supports, has reduced the coupling cost, has improved coupling consistance and accuracy.

For achieving the above object, light path coupling process provided by the present invention adopts following technical proposals to be achieved:

A kind of light path coupling process of optical module is characterized in that described method comprises the steps:

A, fixedly has the fixed support of at least two positioning elements at the pcb board of optical module;

B, obtain wherein center and the line of centres thereof of two described two positioning elements;

C, be the reference position with the center of the described line of centres and at least one described positioning element, determine the center of optical element in the light path according to the known location relation;

D, the center of determining according to step c are placed on the pcb board described optical element also fixing;

E, will have the corresponding positioning element that is complementary with described support bracket fastened positioning element and the lens carrier that is provided with the optical lens module is connected by described positioning element and described corresponding positioning element with described fixed support, make that the corresponding first optical lens module is corresponding one by one in described optical element and the described lens carrier, and the fixed lens support;

F, will be provided with the corresponding connection with described lens carrier of structure of fiber_optic of optical fiber, make that the corresponding second optical lens module is corresponding one by one in described optical fiber and the described lens carrier, and the fixed fiber support;

Wherein, to close be that center and the position between the corresponding positioning element line of centres of the lens center in the first optical lens module described in the described lens carrier and described corresponding positioning element concerns for described known location.

Aforesaid light path coupling process, for further simplifying coupling process, improving accurate positioning, in described lens carrier, lens center in the described first optical lens module is positioned on the line of centres of described corresponding positioning element, in described step c, the center of described optical element is positioned on the line of centres of the described positioning element on the described fixed support.

Aforesaid light path coupling process, for improving the mechanical connection steadiness, described corresponding positioning element on the described lens carrier lays respectively at the left and right sides of the described first optical lens module, described positioning element on the described fixed support is positioned at the described support bracket fastened left and right sides, and described optical element is between described positioning element.

The present invention also provides a kind of optical module that adopts above-mentioned light path coupling process to realize coupling, and this optical module has higher coupling consistance height and accuracy.

Specifically, a kind of optical module, comprise pcb board, be arranged on the optical element on the pcb board, the optical fiber that is coupled by the optical lens module with optical element, described optical module also includes fixed support, reach and the detachable structure of fiber_optic that is connected of lens carrier with the detachable lens carrier that is connected of fixed support, described fixed support is fixed on the described pcb board, described optical lens module is arranged on the described lens carrier, described optical fiber is arranged on the described structure of fiber_optic, described optical element is between described fixed support and described lens carrier, described fixed support is provided with at least two positioning elements, described lens carrier be provided with described fixed support on positioning element be complementary to realize the corresponding positioning element that removably connects.

Aforesaid optical module, for increasing the fixing glue contact area, improving fixed performance, described fixed support offers some breach in its left and right sides edge at least.

Preferably, described support bracket fastened left and right sides edge all offers a plurality of interrupted, equally distributed breach.

Aforesaid optical module produces projection for avoiding unnecessary glue to penetrate into frame bottom, offers holding tank at described fixed support bottom, close described gap position place.

Aforesaid optical module, for convenient lens carrier is carried out secure, offer some hole for injecting glue on the described lens carrier, described hole for injecting glue top is that step trough, bottom are hydraucone, and the bottom end vertical transition of described step trough is to the osculum on described hydraucone top.

Aforesaid optical module, for making things convenient for the fixing of structure of fiber_optic, described structure of fiber_optic partly is positioned on the described fixed support, described structure of fiber_optic and the contacted side of described fixed support offer the structure of fiber_optic groove, and corresponding described structure of fiber_optic groove offers the fixed support groove on the described fixed support.

Further, for strengthening fixed performance, a described structure of fiber_optic lateral edges place of described lens carrier dorsad offers some breach.

Compared with prior art, advantage of the present invention and good effect are: when adopting light path coupling process of the present invention to carry out the light path coupling of optical module, can determine the optimum coupling position by simple measurement, simplify the coupling operation, reduce the coupling cost; And whole coupling process only needs simple mechanical assembling process, and coupling speed is fast; In addition, owing to fix the constant intensity height mechanically between each light path part, relative position is firm, can not exist the people to be the problem that maloperation causes coupling position to change, improve consistance and the accuracy of light path coupling, and then help the lifting of optical module performance.

After reading the specific embodiment of the present invention by reference to the accompanying drawings, other characteristics of the present invention and advantage will become clearer.

Description of drawings

Fig. 1 is the light path coupled structure synoptic diagram of an embodiment of optical module of the present invention;

Fig. 2 is the blast structural representation of Fig. 1;

Fig. 3 is support bracket fastened Facad structure synoptic diagram among Fig. 1;

Fig. 4 is support bracket fastened structure synoptic diagram among Fig. 1;

Fig. 5 is the perspective view of lens carrier among Fig. 1;

Fig. 6 is the cross-sectional view of hole for injecting glue among Fig. 5;

Fig. 7 is the perspective view of structure of fiber_optic among Fig. 1;

Fig. 8 is the emission light path principle figure of the optical module of Fig. 1 embodiment;

Fig. 9 is the receiving light path schematic diagram of the optical module of Fig. 1 embodiment;

Figure 10 is the method flow diagram that Fig. 1 optical module carries out the light path coupling.

Embodiment

Below in conjunction with the drawings and specific embodiments technical scheme of the present invention is described in further detail.

Please refer to an embodiment of the optical module of the present invention that goes out illustrated in figures 1 and 2, wherein, Fig. 1 is the light path coupled structure synoptic diagram of this embodiment, and Fig. 2 is the blast structural representation of Fig. 1.

Anticipate as shown in Figures 1 and 2, illustrate in conjunction with the fixed support Facad structure synoptic diagram of Fig. 3 simultaneously, the optical module of this embodiment includes pcb board 1, at pcb board 1 fixed support 2 is arranged fixedly, two

pilot holes

21 and 22 about fixed support 2 is provided with, between

pilot hole

21 and 22, be placed with as the laser array 5 of optical module light-emitting component and receive the photodetector array 6 of optical element, laser array 5 and photodetector array 6 respectively be arranged on pcb board 1 on transmitter circuitry 7 and receiver circuit 8 be electrically connected.Top at laser array 5 and photodetector array 6 is provided with lens carrier 3,

lens carrier

3 and 2 detachable connections of fixed support.The optical module of this embodiment also includes and the lens carrier 3 detachable structure of fiber_optic that are connected 4, structure of fiber_optic 4 is provided with fibre ribbon array 42, optical lens module in this fibre ribbon array 42 and laser array 5 and the photodetector array 6 scioptics supports 3 is coupled, thereby realizes the light path coupling of whole optical module.

The structure of fixed support 2 is with reference to shown in the back view of the front view (FV) of figure 3 and Fig. 4, anticipate as shown in Figure 3, Figure 4, simultaneously in conjunction with meaning illustrated in figures 1 and 2, on the fixed support 2 in this embodiment optical module except be provided with to laser array 5 and photodetector array 6 position about two

pilot holes

21 and 22, all offer a plurality of breach 23 in its left and right sides edge, and a plurality of breach is interrupted, the edge that is evenly distributed on respective side.In addition, also offer a breach 23 at fixed support 2 with respect to a side of pilot hole 21 and 22.By offering these breach at fixed support 2, when using glue to be fixed to fixed support 2 on the pcb board 1, can increase the contact area of glue and fixed support 2, thereby be conducive to fixed support 2 is fixedly secured on pcb board 1.In the left and right sides, fixed support 2 bottom, offer holding tank 24 respectively near the gap position of respective side, can be used for holding the glue that penetrates into fixed support 2 bottoms from breach 23, to prevent producing the protruding fixed support 2 occurrence positions change that makes in fixed support 2 bottoms because of the infiltration of glue.In addition, for making things convenient for fixed fiber support 4, also offer groove 25 in fixed support 2 and structure of fiber_optic 4 contacted side inboards.This groove 25 please refer to following description with cooperation and the function of structure of fiber_optic 4 relevant structures.

The structure of lens carrier 3 please refer to shown in Figure 5.As schematically shown in Figure 5, lens carrier 3 is provided with the optical lens module, specifically, the optical lens module includes and is positioned at lens carrier 3 bottoms, first optical lens array corresponding with laser array 5 and photodetector array 6 (this is not shown, can with reference to figure 8 and shown in Figure 9) and is arranged in lens carrier 3 front ends, second optical lens array 33 corresponding with the fibre ribbon array 42 of structure of fiber_optic 4.Lens carrier 3 is respectively arranged with a reference column 32(in the second optical lens array both sides and there is shown one of them, another is symmetrical arranged with it), this reference column 32 is inserted into respectively in the pilot hole 21 on the fixed support 2, thereby realizes that lens carrier 3 is connected with the detachable of fixed support 2.And, by laser array 5 and photodetector array 6 are positioned, can be so that after lens carrier 3 and fixed support 2 be connected and fixed, second optical lens array in the lens carrier 3 is just corresponding and realize accurately being coupled one by one with laser array 5 between pilot hole 21 and photodetector array 6, and the specific implementation method is with reference to the flow process description of back.

With after fixed support 2 is connected, can't guarantee fixedly securing of lens 3 at lens carrier 3.For this reason, also offered two hole for injecting glue 36 on the lens carrier 3, be used for injecting glue and lens carrier 3 is fixed on the pcb board 1.The cross-section structure of hole for injecting glue 36 as shown in Figure 6.Specifically, as schematically shown in Figure 6, hole for injecting glue top is step trough 361, and the bottom is hydraucone 363, and the bottom end of step trough 361 is connected by the osculum of vertical connecting portion 362 with hydraucone 363 tops.By the hole for injecting glue 36 that adopts this structure, can utilize the hydraucone 363 increase glue of bottom and the contact area of lens carrier 3, help lens carrier 3 secure; And, by the step trough 361 that top is set, make glue be not easy to ooze out and trickle on lens carrier 3 surfaces.In addition, middle vertical connecting portion 362 can avoid effectively that lens carrier 3 rocks in adding the glue fixation procedure, thereby has increased the fastness of lens carrier 3.

In addition, for realizing being connected and fixed of structure of fiber_optic 4, the front end both sides of lens carrier 3 are provided with two

joint pins

34 and 35, these two joint pins will cooperate with the corresponding connecting hole on the structure of fiber_optic 4, in order to structure of fiber_optic 4 is connected with lens carrier 3, concrete syndeton is please in conjunction with the structure of structure of fiber_optic shown in Figure 74.

The structure of the structure of fiber_optic 4 that goes out as shown in Figure 7, in conjunction with illustrated in Figure 1, the structure of fiber_optic 4 of this embodiment is provided with a plurality of optic fibre holes 41, and fibre ribbon array 42 1 ends will pass from corresponding optic fibre hole 41, and then carries out accurate optically-coupled with second optical lens array 33 on the lens carrier 3.On structure of fiber_optic 4, be to offer two connecting

holes

43 and 44 respectively at the two ends of optic fibre hole 41 specifically, two joint pins 34 of

lens carrier

3 and 35 can be inserted into respectively in connecting

hole

43 and 44, thereby structure of fiber_optic 4 and lens carrier 3 are connected and fixed.After structure of fiber_optic 4 and lens carrier 3 were connected and fixed, structure of fiber_optic 4 parts were positioned on the fixed support 2.Corresponding with the groove 25 on the fixed support 2, on the outer side edges of structure of fiber_optic 4, also offer groove 46, this groove 46 will with fixed support 2 on groove 25 be combined to form and add the glue hole.Behind structure of fiber_optic 4 fix in position, add adding glue in the glue hole toward this combined type, so that structure of fiber_optic 4 and fixed support 2 is further fixing, realize fixedly securing of structure of fiber_optic 4.In addition, for ease of being added glue, structure of fiber_optic 4 and pcb board 1 fix, structure of fiber_optic 4 dorsad lens carrier 3 a side, also namely connecting

hole

43 and 44 opposite side place offer a plurality of breach 45, the contact area of glue and structure of fiber_optic 4 when increasing injecting glue, enhancing constant intensity dorsad.

In this embodiment, two reference columns 32 on the lens carrier 3 are positioned at the left and right sides of first optical lens array, accordingly, two pilot holes 21 on the

fixed support

2 and 22 are positioned at the left and right sides of fixed support 2, can so that lens carrier 3 be connected ground with fixed support 2 more firm, improve mechanical connection stability.After adopting this syndeton, laser array 5 and photodetector 6 will be between two pilot holes 21.This structure is only for preferred embodiment, but not limits.If connective stability can guarantee, then also can change the position of reference column 32 on lens carrier 3, correspondingly change the position of pilot hole 21 on fixed support 2 simultaneously.For example, two reference columns 32 all are positioned at the same side of first optical lens array, and pilot hole 21 is corresponding with reference column 32 positions with 22.When adopting the fixed support 2 of this structure and lens carrier 3, laser array 5 and photodetector 6 will be positioned at the same side of two reference columns 32, the position corresponding with first optical lens array.

What need further specify is, in this embodiment, adopted and at fixed support 2 mode that pilot hole, lens carrier 3 arrange reference column has been set and realizes that fixed support 2 is connected with the detachable of lens carrier 3, but be not limited to this, also can reference column be set at fixed support 2, modes such as pilot hole are set at lens carrier 3 realize.Same, lens carrier 3 with detachable the connection also be not limited to the mode that employing arranges joint pin at lens carrier 3, connecting hole is set at structure of fiber_optic 4 between the structure of fiber_optic 4.And the optical element among this embodiment is that array, optical lens module are that optical lens array, corresponding optical fiber also are the fibre ribbon array, but is not defined as array, also can be single optical element, single lens and simple optical fiber.

In addition, the reference column on the pilot hole on the fixed support 2 and the lens carrier 3 also is not limited to two, can also be more, has when more, can only select wherein two to use.

The light path principle figure of the optical module of this embodiment please refer to Fig. 8 and shown in Figure 9.

The emission light path principle figure of optical module as schematically shown in Figure 8, be arranged on shown a laser instrument in the array among the laser array 5(figure on the pcb board 1) as light-emitting component, be electrically connected by gold thread with transmitter circuitry 7.Armed electric signal is on transmitter circuitry 7 is modulated to laser instrument in the laser array 5, and then the emission light signal corresponding with electric signal.This light signal incides on the corresponding optical lens in first optical lens array 31 in the lens carrier 3, final second optical lens array, 31 transmission on lens carrier 3 are come out and are coupled in the optical fiber in the fibre ribbon array 42 after optical lens changes directional light into, and then transmit outward through optical fiber.

The receiving light path principle of optical module as shown in Figure 9.Specifically, be arranged on shown a photodetector in the array among the photodetector array 6(figure on the pcb board 1) as receiving optical element, be electrically connected by gold thread with receiver circuit 8.Outside light signal incides in the optical module through fibre ribbon array 42, at first incide in second optical lens array 33 corresponding with fibre ribbon array 42, after optical lens changes directional light into, finally focus on the photodetector array 6 through first optical lens array 31.Photodetector array 6 changes the light signal that receives into electric signal and limits to put etc. through receiver circuit 8 handles the back output electric signal corresponding with light signal, for level system use afterwards.

For the optical module of said structure, its process of carrying out the light path coupling can be with reference to method flow diagram shown in Figure 10.

As shown in figure 10, extremely illustrated in Figure 9 in conjunction with Fig. 1 simultaneously, the step of optical module being carried out the light path coupling is as follows:

Step 101: flow process begins.

Step 102: fixed support 2 is fixed on the pcb board 1.

The fixed support 2 of Fig. 3 and structure shown in Figure 4 is placed on the correct position place of pcb board 1, then, adds glue at breach 23 places of fixed support 2 both sides, and with 120 ° high-temperature baking about 2 hours.

Step 103: determine that optical element arranges the position on pcb board.

Obtain on the fixed support 2 center of two

pilot holes

21 and 22, and obtain two lines between the center.If pilot hole is circular, then its center is its center of circle.Because the size of fixed support 2 determines, after having determined the position of fixed support 2 on pcb board 1, two

pilot hole

21 and 22 center also are easy to get access to.After obtaining two centers, obtain two lines of centres between the center again.Then, with this line of centres and wherein the center of one or two positioning element be the reference position, determine the center of optical element in the light path according to known location relation.The relation of the known location here refers to that center and the position between the reference column line of centres of two reference columns 32 on lens center and two lens carriers 3 in first corresponding with optical element in the lens carrier 3 optical lens module 31 concern.Concrete definite method is: in the process of fixed processing support 2 and lens carrier 3, two pilot holes 21 on the

fixed support

2 and 22 with lens carrier 3 on two reference columns 32 corresponding one by one, the line of centres equal in length of the line of centres of two pilot holes and two reference columns, and in the lens carrier 3 in the optical lens module (as first optical lens array) corresponding with optical element the center of lens concern with position between two reference columns 32 and also determine.For example, the lens center perhaps is positioned on the extended line of two reference column 32 lines of centres on the line of centres between two reference columns 32, and perhaps there is certain distance etc. in vertical direction in the line of centres with two reference columns 32.Because the accurate light path coupling position of optical element and lens is that optical element center and lens center coincide together, and again because the pilot hole center on the fixed support 2 and the reference column center on the lens carrier 3 are one to one, so, after the center and the line of centres that obtain

pilot hole

21 and 22, with this line of centres and wherein the center of one or two pilot hole be reference position or benchmark, concern to determine the concrete center of optical element according to known location.Optical module structure with Fig. 1 embodiment, lens center in first optical lens array 31 in the lens carrier 3 is between two reference columns 32 and on the line of centres of two reference columns 32, then can obtain the distance between certain lens center and any one the reference column center, this distance is exactly a known location Relation Parameters.Then, with on the fixed support 2 and this reference column corresponding positioning hole be starting point, measure identical distance at the pilot hole line of centres, then utilize this distance determined point on the line of centres to be the center of optical element to be placed.By the lens center in first optical lens array 31 in the lens carrier 3 is placed on the line of centres of two reference column 32 supports, only need to use the line of centres of horizontal range between

pilot hole

21 and 22 between a lens center and the reference column to determine the center of optical element, the step of determining the center in the coupling process has been lacked in letter, also is conducive to improve the accuracy of location.In this embodiment, optical element to be placed is laser array 5 and photodetector array 6, has included a plurality of optical elements in each array.Accordingly, in the lens carrier 3 with it corresponding optical lens module be the optical lens array that includes a plurality of lens.At this moment, when determining the position of laser array 5 or photoelectronic detecting array 6, can only select lens in the optical lens array to measure distance between its center and the reference column center, determine that according to this distance the position of a corresponding laser instrument or photodetector get final product then, also soon array of optical elements is handled as a unit.

Step 104: optical element is fixed on the pcb board.

After the center of having determined optical element to be placed, optical element is in place, use elargol to toast about 45 minutes down at 100 ℃, be fixed on the pcb board 1.

Step 105: fixed lens support.

After fixing optical element, the reference column 32 of lens carrier 3 is inserted in the corresponding

pilot hole

21 and 22 of fixed support 2, realize being connected and fixed of lens carrier 3 and fixed support 2, make optical element corresponding one by one with first optical lens array simultaneously.Then, in the hole for injecting glue 36 of lens carrier 3, inject glue, lens carrier 3 is fixed on the pcb board 1.

Step 106: fixed fiber support.

Behind lens carrier 2 fix in position, place structure of fiber_optic 4 at fixed support 2, and with the connecting

hole

43 and 44 of structure of fiber_optic 4 corresponding being inserted on the

joint pin

34 and 35 of lens carrier 3 respectively, realize being connected and fixed of structure of fiber_optic 4 and lens carrier 3.Connect when putting in place, the groove 46 on the structure of fiber_optic 4 will dock with the groove 25 on the fixed support 2 and form and add the glue hole.Then, inject glue toward adding in the glue hole, structure of fiber_optic 4 is fixed on the fixed support 2.For further structure of fiber_optic 4 being fixed, breach 45 places that can also be chosen in structure of fiber_optic 4 add glue, so that structure of fiber_optic 4 is fixed on the pcb board 1.

Step 107: the mechanical connection of finishing the light path each several part is fixed, and realizes that simultaneously the light path of each several part accurately is coupled, and flow process finishes.

When utilizing said method to carry out the light path coupling of optical module, can determine the optimum coupling position by simple measurement, the coupling operation is few, and the coupling cost is low.And whole coupling process only needs simple mechanical assembling process, and coupling speed is fast.And, owing to be connected and fixed mechanically earlier between each light path part, the constant intensity height, relative position is firm, the problem that in adding the process of adhesive curing, can not exist the people to cause coupling position to change for maloperation, improve consistance and the accuracy of light path coupling, and then helped the lifting of optical module performance.

Above embodiment is only in order to illustrating technical scheme of the present invention, but not limits it; Although with reference to previous embodiment the present invention is had been described in detail, for the person of ordinary skill of the art, still can make amendment to the technical scheme that previous embodiment is put down in writing, perhaps part technical characterictic wherein is equal to replacement; And these modifications or replacement do not make the essence of appropriate technical solution break away from the spirit and scope of the present invention's technical scheme required for protection.

Claims

1. the light path coupling process of an optical module is characterized in that, described method comprises the steps:

B, obtain wherein center and the line of centres thereof of two described positioning elements;

Wherein, to close be that center and the position between the line of centres thereof of the lens center in the first optical lens module described in the described lens carrier and described corresponding positioning element concerns for described known location.

2. light path coupling process according to claim 1, it is characterized in that, in described lens carrier, lens center in the described first optical lens module is positioned on the line of centres of described corresponding positioning element, in described step c, the center of described optical element is positioned on the line of centres of the described positioning element on the described fixed support.

3. light path coupling process according to claim 1 and 2, it is characterized in that, described corresponding positioning element on the described lens carrier lays respectively at the left and right sides of the described first optical lens module, described positioning element on the described fixed support is positioned at the described support bracket fastened left and right sides, and described optical element is between described positioning element.

4. optical module, comprise pcb board, be arranged on the optical element on the pcb board, the optical fiber that is coupled by the optical lens module with optical element, it is characterized in that, described optical module also includes fixed support, reach and the detachable structure of fiber_optic that is connected of lens carrier with the detachable lens carrier that is connected of fixed support, described fixed support is fixed on the described pcb board, described optical lens module is arranged on the described lens carrier, described optical fiber is arranged on the described structure of fiber_optic, described optical element is between described fixed support and described lens carrier, described fixed support is provided with at least two positioning elements, described lens carrier be provided with described fixed support on positioning element be complementary to realize the corresponding positioning element that removably connects.

5. optical module according to claim 4 is characterized in that, described fixed support offers some breach in its left and right sides edge at least.

6. optical module according to claim 5 is characterized in that, described support bracket fastened left and right sides edge all offers a plurality of interrupted, equally distributed breach.

7. optical module according to claim 5 is characterized in that, offers holding tank at described fixed support bottom, close described gap position place.

8. according to each described optical module in the claim 4 to 7, it is characterized in that, offer some hole for injecting glue on the described lens carrier, described hole for injecting glue top is that step trough, bottom are hydraucone, and the bottom end vertical transition of described step trough is to the osculum on described hydraucone top.

9. according to each described optical module in the claim 4 to 7, it is characterized in that, described structure of fiber_optic partly is positioned on the described fixed support, described structure of fiber_optic and the contacted side of described fixed support offer the structure of fiber_optic groove, and corresponding described structure of fiber_optic groove offers the fixed support groove on the described fixed support.

10. optical module according to claim 9 is characterized in that, a described structure of fiber_optic lateral edges place of described lens carrier dorsad offers some breach.