CN202803518U - Optical component coupling dispensing system - Google Patents

Abstract

The utility model discloses an optical component coupling dispensing system. The optical component coupling dispensing system is applied to dispensing glue to an adapter and a photodiode in a predetermined position, and comprises at least a dispensing device, wherein the dispensing device comprises a first pipeline in which glue water is sealed, a second pipeline which is communicated with the first pipeline, and a displacing device comprising a drive mechanism and a movement mechanism; the first pipeline is fixed on the movement mechanism; the drive mechanism drives the movement mechanism and the first pipeline to move synchronously in the first direction and close to the predetermined positions; and the dispensing device further comprises a compressed air supply device for introducing compressed air to the second pipeline for a certain period of time so as to extrude glue water in the first pipeline to the predetermined position. Due to adoption of the method, the optical component coupling dispensing system is capable of realizing automatic dispensing process of the optical receiving component.

Description

Optical assembly Coupling point colloid system

Technical field

The utility model relates to a kind of optical assembly Coupling point colloid system for the mutual conversion equipment of assembling photoelectricity, especially relates to a kind of optical assembly Coupling point colloid system for the assembling optical fiber receive module.

Background technology

Optical fiber receive module comprises adapter and photodiode.The assembling procedure of optical fiber receive module comprise the adapter to optical fiber receive module be fixed, to the photodiode of optical fiber receive module power up, optically-coupled, with the relative step such as fixing with adapter of photodiode.

As photodiode and the relatively-stationary step 1 of adapter, adopt the mode of some ultraviolet glue to realize.In the prior art, this ultraviolet glue process is by manually finishing, and efficient is lower and be unfavorable for that whole production processes of optical fiber receive module realize automation.

The utility model content

The technical problem that the utility model mainly solves provides a kind of optical assembly Coupling point colloid system of realizing a glue process automation.

For solving the problems of the technologies described above, the technical scheme that the utility model adopts is: a kind of optical assembly Coupling point colloid system is provided, is used in the precalculated position adapter and photodiode being carried out a glue, optical assembly Coupling point colloid system comprises at least one point glue equipment; Point glue equipment comprises: the first pipeline, seal glue in it up for safekeeping; Second pipe is with the first pipeline communication; Gearshift comprises driving mechanism and travel mechanism, and the first pipeline is fixed in the travel mechanism, and driving mechanism driving travel mechanism and the first pipeline are along the first direction synchronizing moving and near the precalculated position; The compressed air feedway, the compressed air that is used for passing into certain time length is to second pipe, so that the first ducted glue is extruded into the precalculated position.

Wherein, after the first ducted glue is extruded, driving mechanism further drive travel mechanism and the first pipeline along the second direction synchronizing moving opposite with first direction with away from the precalculated position.

Wherein, glue is ultraviolet glue.

Wherein, point glue equipment further comprises the dop that is arranged in the travel mechanism, and the first device for cleaning pipeline is crossed dop and is fixed to travel mechanism.

Wherein, point glue equipment further comprises holder, and holder arranges fixed mount, and driving mechanism is fixed to holder by fixed mount.

Wherein, point glue equipment further comprises slide rail and the slide block that cooperatively interacts, and slide block is arranged in the travel mechanism, and slide rail is arranged on the holder; The slide rail guide slides makes travel mechanism slide along first direction or second direction.

Wherein, holder comprises fixedly transverse arm and column, and slide rail and fixed mount are arranged on fixedly on the transverse arm, and column is positioned at the bottom of fixing transverse arm and is used for supporting fixedly transverse arm.

Wherein, optical assembly Coupling point colloid system comprises two above point glue equipments, and point glue equipment radially distributes centered by the precalculated position.

Wherein, two above point glue equipment synchronization actions are to extrude synchronously glue to the precalculated position.

Wherein, the second pipe of two above point glue equipments connects same compressed air feedway.

The beneficial effects of the utility model are: the situation that is different from prior art, the utility model optical assembly Coupling point colloid system comprises at least one point glue equipment, this point glue equipment utilize gearshift adjust the first pipeline make it near precalculated position and the compressed air that passes into certain time length by the compressed air feedway to second pipe so that the first ducted glue is extruded into the precalculated position, this glue process is all finished by optical assembly Coupling point colloid system, has realized the automation of some glue process.

Description of drawings

Fig. 1 is the stereogram of the utility model optical assembly Coupling point colloid system one specific embodiment;

Fig. 2 is the partial enlarged drawing of a point glue equipment of optical assembly Coupling point colloid system shown in Figure 1.

The specific embodiment

Consult Fig. 1 and Fig. 2, the utility model one preferred embodiments optical assembly Coupling point colloid system 100 is used in the precalculated position (not shown) adapter (not shown) and the photodiode (not shown) of optical fiber receive module (not shown) is carried out a glue.In the present embodiment, optical assembly Coupling point colloid system 100 comprises three point glue equipments 10 and compressed air feedway (not shown).The compressed air feedway is used for the some glue amount of control point adhesive dispenser 10.This three point glue equipment 10 radially distributes centered by the precalculated position.Preferably, this three point glue equipment 10 is radial being evenly distributed centered by the precalculated position.

Every bit adhesive dispenser 10 comprises the first pipeline 1, second pipe 2, gearshift 3 and holder 4.

Seal glue up for safekeeping in the first pipeline 1.Preferably, this glue is selected ultraviolet glue.One end of second pipe 2 is communicated with the first pipeline 1, and the other end is communicated with the compressed air feedway.

Gearshift 3 comprises driving mechanism 31 and travel mechanism 32.The first pipeline 1 is fixed in the travel mechanism 32, in the present embodiment, dop 320 is set in the travel mechanism 32, thereby the first pipeline 1 is relative fixing with travel mechanism 32 by dop 320 clampings.Preferably, in the present embodiment, driving mechanism 31 is cylinders.

Holder 4 comprises fixedly transverse arm 41 and column 42.Column 42 is positioned at the bottom of fixing transverse arm 41 and is used for supporting fixedly transverse arm 41.Fixedly transverse arm 41 is horizontally disposed with towards the precalculated position, and fixedly the end face of transverse arm 41 arranges fixed mount 412 and slide rail 411.Driving mechanism 31 is fixed to fixedly transverse arm 41 by fixed mount 412.The slide block 321 that cooperatively interacts with slide rail 411 is set in the travel mechanism 32.

About the compressed air feedway, in the present embodiment, the number of compressed air feedway is one, and the second pipe 2 of three point glue equipments 10 connects this same compressed air feedway.When driving this compressed air feedway, the output squeezing air is to the second pipe 2 of each point glue equipment 10 simultaneously, to extrude simultaneously glue in the first pipeline 1 to the precalculated position.In the practical application, every bit adhesive dispenser 10 also can be connected to different compressed air feedwaies, and the utility model does not limit this.

When the adapter that uses 100 pairs of pre-positions of the utility model optical assembly Coupling point colloid system and photodiode carried out glue, driving mechanism 31 drove travel mechanisms 32 and drives that the first pipeline 1 moves towards the precalculated position until the end of the first pipeline 1 arrives the pre-position.Setting this moving direction is first direction A, in the present embodiment, and the first direction A setting in a certain angle of the first pipeline 10 of different point glue equipments 10; When point glue equipment 10 relative precalculated positions were radial even distribution, the first direction A of the first pipeline 1 of every adjacent two point glue equipments 10 was 120 ° of angles and converges towards the precalculated position in this three point glue equipment 10.Accurate, the some glue position of the first pipeline 1 is positioned at the top of adapter and is positioned at the periphery week side of photodiode.Further drive compression air feeder makes it second pipe 2 is passed into the compressed air of certain time length, so that an amount of glue in the first pipeline 1 is extruded into the precalculated position.The point glue action of optical fiber receive module is finished.

In the practical application, after the action of the some glue of optical fiber receive module was finished, the combination of adapter and photodiode was also insecure, therefore also needs to use roasting adhesive dispenser the glue of pre-position is baked adhesive curing.Therefore, in the process of roasting adhesive curing, if the first pipeline 1 close some glue position of each point glue equipment 10, then the glue of the first pipeline 1 port also will together solidify along with a curing of glue position glue, when use next time, extrude glue, and can cause the waste of glue.Therefore, in the roasting adhesive curing process, the precalculated position need to be withdrawn in the end of the first pipeline 1.

The evacuation process of the end of the first pipeline 1 is fully opposite with the adjustment direction of some glue process.After glue in the first pipeline 1 is extruded, driving mechanism 31 drive travel mechanisms 32 and the first pipeline 1 along the second direction B synchronizing moving opposite with first direction A with away from the precalculated position.

Driving mechanism 31 drives in the process that travel mechanisms 32 move along first direction A or second direction B, slide rail 411 guide slides 321 make travel mechanism 32 relative to fixing transverse arm 41 stable movements, and can deflection not occur in other directions that are different from first direction A or second direction B.

In the present embodiment, three point glue equipments 10 are adjusted respectively simultaneously the position of each first pipeline 1 and simultaneously a glue is carried out in the precalculated position under the controls of same compressed air feedway, greatly shorten the some glue time, and then improve some glue efficient.

Above-described embodiment comprises that take optical assembly Coupling point colloid system 100 three point glue equipments 10 describe as example, and in the practical application, the quantity of the point glue equipment 10 of optical assembly Coupling point colloid system 100 should not be so limited.Optical assembly Coupling point colloid system can also comprise that number is the point glue equipment 10 that is different from three any number.For example, optical assembly Coupling point colloid system only comprises a point glue equipment 10, at this moment, if the pre-position needs many places point glue, optical assembly Coupling point colloid system also should comprise the mobile device of a circular motion, adjusts the difference glue position in end to the precalculated position of the first pipeline 1 and carries out successively a glue action.

Compared with prior art, the utility model optical assembly Coupling point colloid system 100 comprises at least one point glue equipment 10, this point glue equipment 10 utilize gearshift 3 adjust the first pipeline 10 make it near precalculated position and the compressed air that passes into certain time length by the compressed air feedway to second pipe 2 so that the glue in the first pipeline 1 is extruded into the precalculated position, this glue process is all finished by optical assembly Coupling point colloid system, has realized the automation of some glue process.

The above only is embodiment of the present utility model; be not so limit claim of the present utility model; every equivalent structure or equivalent flow process conversion that utilizes the utility model specification and accompanying drawing content to do; or directly or indirectly be used in other relevant technical fields, all in like manner be included in the scope of patent protection of the present utility model.

Claims (10)

1. an optical assembly Coupling point colloid system is used in the precalculated position adapter and photodiode being carried out a glue, it is characterized in that described optical assembly Coupling point colloid system comprises at least one point glue equipment; Described point glue equipment comprises:

The first pipeline is sealed glue up for safekeeping in it;

Second pipe is with described the first pipeline communication;

Gearshift comprises driving mechanism and travel mechanism, and described the first pipeline is fixed in the described travel mechanism, and described driving mechanism drives described travel mechanism and described the first pipeline along the first direction synchronizing moving and near described precalculated position;

The compressed air feedway is used for passing into the compressed air of certain time length to described second pipe, so that the described first ducted glue is extruded into described precalculated position.

2. optical assembly Coupling point colloid system according to claim 1, it is characterized in that, after the described first ducted glue is extruded, described driving mechanism further drive described travel mechanism and described the first pipeline along the second direction synchronizing moving opposite with first direction with away from described precalculated position.

3. optical assembly Coupling point colloid system according to claim 1 is characterized in that described glue is ultraviolet glue.

4. optical assembly Coupling point colloid system according to claim 1 is characterized in that described point glue equipment further comprises the dop that is arranged in the described travel mechanism, and described the first device for cleaning pipeline is crossed described dop and is fixed to described travel mechanism.

5. optical assembly Coupling point colloid system according to claim 1 is characterized in that described point glue equipment further comprises holder, and described holder arranges fixed mount, and described driving mechanism is fixed to described holder by described fixed mount.

6. optical assembly Coupling point colloid system according to claim 5 is characterized in that, described point glue equipment further comprises slide rail and the slide block that cooperatively interacts, and described slide block is arranged in the described travel mechanism, and described slide rail is arranged on the described holder; Described slide rail is guided described slide block makes described travel mechanism slide along described first direction or described second direction.

7. optical assembly Coupling point colloid system according to claim 6, it is characterized in that, described holder comprises fixedly transverse arm and column, and described slide rail and described fixed mount are arranged on the described fixedly transverse arm, and described column is positioned at the bottom of described fixedly transverse arm and is used for supporting described fixedly transverse arm.

8. optical assembly Coupling point colloid system according to claim 1 is characterized in that, described optical assembly Coupling point colloid system comprises two above point glue equipments, and described point glue equipment radially distributes centered by described precalculated position.

9. optical assembly Coupling point colloid system according to claim 8 is characterized in that, described two above point glue equipment synchronization actions are to extrude synchronously glue to described precalculated position.

10. optical assembly Coupling point colloid system according to claim 9 is characterized in that, the second pipe of described two above point glue equipments connects same compressed air feedway.

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