CN109696726A - A kind of optical fibre fusion splicer comprising optical fiber adjustment device - Google Patents

Abstract

A kind of optical fibre fusion splicer comprising optical fiber adjustment device, optical fiber adjustment device include pedestal, at least a pair of resilient members, at least a pair of support frame being fixedly connected with elastic component, at least a pair of driving device being flexibly connected with support frame；A pair of elastic component is the plate of elastically deformable, and is separately fixed at the both ends of the length direction of pedestal, and be obliquely installed to substructure height direction relative to base plane；Support frame includes transverse slat, base station, extension, V-shaped groove, and transverse slat is fixedly connected with elastic component, and V-shaped groove is fixedly connected on one end of extension；Driving device is flexibly connected with base station, and pushes support frame；From the width direction unilateral observation of pedestal, a pair of elastic component intersects in X-shaped, intersection point is D, the vertical range for the base plane 13 that intersection point D is connected to 2 lower end surface of elastic component with pedestal 1 is B1, the vertical range for the transverse slat plane 312 that intersection point D is connected to 2 upper surface of elastic component with transverse slat 31 is B2, and B1 is more than or equal to B2.

Description

A kind of optical fibre fusion splicer comprising optical fiber adjustment device

Technical field

The present invention relates to fused fiber splice field more particularly to a kind of optical fibre fusion splicers comprising optical fiber adjustment device.

Background technique

In optical communications, construction and maintenance that optical fibre fusion splicer carries out optical cable are generallyd use.Optical fibre fusion splicer utilizes high pressure It is gently promoted while electric arc melts two profile of optic fibre with optical fiber adjustment device, allows two optical fiber to be fused into one, with reality The coupling of existing optical fiber mode fields.When carrying out the fusion of optical fiber, need two optical fiber aligning to core.

Currently, optical fiber adjustment device therein includes elastic component, when optical fiber adjustment device pair in optical fibre fusion splicer field When optical fiber carries out aligning, elastic component keeps optical fiber adjustment device mobile, thus to two due to generating deformation with deformability The fibre core of optical fiber carries out aligning.

But in the prior art, the setting of elastic component is mostly the V shape setting of fork, increases optical fiber adjustment device indsole The size of seat, is unfavorable for the miniaturization of optical fibre fusion splicer.In addition, structure design in the prior art, is unfavorable for optical fiber centering machine Two support frames move the aligning of optical fiber in structure.

Summary of the invention

The technical problem to be solved by the present invention is to make up above-mentioned the deficiencies in the prior art, provide a kind of comprising optical fiber aligning The optical fibre fusion splicer of mechanism, the optical fiber adjustment device are fixedly connected in the optical fibre fusion splicer, for by two optical fiber Aligning is distinguished in front end, so that two optical fiber are mutually butted, the optical fibre fusion splicer is heated by electric discharge come the fibre core of welding optic fibre, So that fused fiber splice is integrated, the optical fiber adjustment device includes pedestal, at least a pair of resilient members, at least a pair of and elasticity The support frame and at least a pair of driving device being flexibly connected with support frame as described above that part is fixedly connected；

The pedestal is strip, and is respectively fixedly connected with the pair of elastic component；

The pair of elastic component is the plate of elastically deformable, and is separately fixed at the both ends of the length direction of the pedestal, And be obliquely installed relative to the base plane to the substructure height direction, the angle of the elastic component and the pedestal is 45 Degree；

Support frame as described above includes transverse slat, base station, extension and V-shaped groove, and the transverse slat is arranged in parallel with the pedestal, and with The elastic component is fixedly connected, and described base station one end is fixedly connected with the transverse slat, and the other end is fixedly connected with the extension, And the base station is flexibly connected with the driving device, the V-shaped groove is fixedly connected on the top of the extension, is used for two Root optical fiber aligning；

The driving device is flexibly connected with the base station, and pushes support frame as described above, so as to adjust the position of support frame as described above, For the front end aligning of two optical fiber；

From the width direction unilateral observation of the pedestal, the pair of elastic component intersects in X-shaped, intersection point For D, the vertical range of plane where the intersection point D to the elastic component lower end surface is B1, on the intersection point D to the elastic component The vertical range of plane where end face is B2, and B1 is more than or equal to B2.

Further, the pedestal includes multiple boss, and the boss protrudes from the upper surface of the pedestal, the boss packet First side and second side are included, the lower end surface of at least one and the elastic component is hung down in the first side and second side It is direct-connected to connect.

Further, the first side with second side of the boss intersect vertically.

Further, the transverse slat is equipped with multiple grooves, and the groove is depressed in the lower surface of the transverse slat, the groove Including third side and four side, at least one in the third side and the four side is upper with the elastic component End face vertically connects.

Further, the transverse slat, the base station and the extension are integrally formed, and the extension is L shape, including cross Beam and vertical beam, the crossbeam is vertical with the vertical beam to be connect, and the crossbeam is parallel to the transverse slat, and the V-shaped groove is arranged in institute State the top of vertical beam.

Further, it is formed between the base station and the transverse slat for avoiding pushing away of being fixedly connected on the optical fibre fusion splicer Into the avoiding space of guide rail S, and the angle between the base station and the transverse slat is obtuse angle.

Further, the pair of elastic component is orthogonal at 90 degree.

Further, the plate elastic slice that each elastic component is set as two panels and is parallel to each other.

Compared with prior art, the beneficial effect that the present invention reaches is:

Elastic component is set as mutually handing over by the optical fibre fusion splicer in the present invention from the unilateral observation of base width direction There are intersection point in the X-shaped of fork, centre, and the vertical range B1 of plane where intersection point to elastic component lower end surface is more than or equal to intersection point to elastic component The vertical range B2 of plane where upper surface, thus reduce the size of pedestal, it can be achieved that optical fibre fusion splicer miniaturization, meanwhile, The motion range that two support frames can be reduced accelerates the movement velocity of support frame, convenient for optical fiber adjustment device to the aligning of optical fiber Movement.

It is fixed integrated injection molding between elastic component and pedestal in the present invention, so that elastic component is in flexible deformation, pedestal The case where being not likely to produce deformation, being reduced so as to avoid aligning precision.

Detailed description of the invention

Fig. 1 is the overall schematic of optical fibre fusion splicer of the present invention；

Fig. 2 is position view of the optical fiber adjustment device in optical fibre fusion splicer in the present invention；

Fig. 3 is the perspective view of optical fiber adjustment device of the present invention；

Fig. 4 is the side view of the optical fiber adjustment device in the case where the width direction unilateral observation of pedestal；

Fig. 5 is the enlarged drawing in the portion A shown in Fig. 4；

Fig. 6 is the side view of the optical fiber adjustment device of another embodiment in the case where the width direction unilateral observation of pedestal；

Fig. 7 is the enlarged drawing in the portion B shown in Fig. 6；

Fig. 8 is the top view that optical fibre fusion splicer of the invention hides storm shutter；

Fig. 9 is the cross-sectional view along line A-A shown in Fig. 8.

It is numbered in figure:

1 pedestal, 11 boss, 111 first sides, 112 second sides, 12 fixation holes, 13 base planes；

2 elastic components；

3 support frames, 31 transverse slats, 311 grooves, 3111 third sides, 3112 four sides, 312 transverse slat planes, 32 base stations, 33 stretch Portion out, 331 crossbeams, 332 vertical beams, 34V shape slot, 341 planes；

4 driving devices, 41 screw rods；

D intersection point, F storm shutter, S propelling track, J fixture.

Specific embodiment

Hereinafter, based on preferred embodiment and invention is further explained referring to attached drawing.

In addition, understanding for convenience, amplifying (thickness) or reducing the various components (thin) on drawing, but this way is not It is to limit the scope of the invention.

The vocabulary of singular also includes plural reference, and vice versa.

Vocabulary in this specification is to use in order to illustrate the embodiment of the present invention, but rather than try to limit this hair It is bright.

In order to distinguish different units, the first, second equal vocabulary are used in this specification, but these not will receive manufacture Sequence limits, and on detailed description of the invention book and claims, title may be different.

As shown in Figure 1, 2, Fig. 2 is the optical fiber centering machine for hiding optical fibre fusion splicer low portion structure and storm shutter F structure Position view of the structure in optical fibre fusion splicer, the present invention provide a kind of optical fibre fusion splicer comprising optical fiber adjustment device, optical fiber Adjustment device is arranged in optical fibre fusion splicer, and is firmly connected with it, and for adjusting the position of two optical fiber ends, makes optical fiber pair Standard is convenient for welding.

As shown in figure 3, optical fiber adjustment device includes pedestal 1, a pair of resilient members 2, a pair of supporting 3, a pair of of driving device 4, pedestal 1 is strip, be equipped with fixation hole 12, pedestal 1 by screw and optical fibre fusion splicer fixed on fixation hole 12 at Camera structure (not shown) is fixedly connected；Elastic component 2 is fixedly connected with pedestal 1 and support frame 3 respectively, driving device 4 and branch Support 3 is flexibly connected, and the movement of support frame 3 is controlled, so as to adjust the position of optical fiber.

As shown in figure 3, elastic component 2 is fixedly connected with pedestal 1, it is preferred that elastic component 2 passes through integrated injection molding phase with pedestal 1 Connection, elastic component 2 are with elasticity and the two panels plate elastic slice that is parallel to each other, and material is typically the metal material of elasticity Material, such as copper, aluminium, stainless steel.A pair of elastic component 2 is separately positioned on the both ends of 1 length direction of pedestal, and relative to pedestal 1 Plane, be obliquely installed along the short transverse of pedestal 1, the angle between elastic component 2 and pedestal 1 is 45 degree, elastic component 2 it is another One end is fixedly connected with support frame 3.

As shown in figure 3, support frame 3 is a pair for being fixedly connected and being oppositely arranged on pedestal 1, for adjusting two light It is fine.Support frame 3 includes transverse slat 31, base station 32, extension 33, V-shaped groove 34, and transverse slat 31 is parallel to pedestal 1, the lower surface of transverse slat 31 It is fixedly connected with elastic component 2, it is preferred that the two is connected by integrated injection molding；Base station 32 is connect with transverse slat 31 and extension 33, Three, which is integrally formed, to be made, and base station 32 is flexibly connected with driving device 4；Extension 33 is L shape, including crossbeam 331 and vertical beam 332, the two vertically connects, and crossbeam 331 is parallel with transverse slat 31, and V-shaped groove 34 is fixedly connected in the top of vertical beam 332.

As shown in Figure 8,9, Fig. 8 is the top view of optical fibre fusion splicer after hiding storm shutter F shown in Fig. 1, fused fiber splice It include the fixture J for clamping two optical fiber in device, fixture J has propelling track S, and fixture J is slided on propelling track S, adjustment The distance between two optical fiber, convenient for the welding of optical fiber.The space formed between transverse slat 31 and base station 32 can mention for propelling track S For avoiding space, to reduce the height of optical fibre fusion splicer, and the angle between transverse slat 31 and base station 32 is obtuse angle, it is preferred that Angle between transverse slat 31 and base station 32 is 135 degree.

As shown in figure 3, V-shaped groove 34 is fixed in 332 top of vertical beam by injection molding, and two V-shaped grooves 34 are oppositely arranged, and are used In placement and to quasi-fiber, the material of V-shaped groove 34 is ceramics, and hardness is higher, prevents optical fiber from rubbing above it, causes V-arrangement The damage of slot 34, V-shaped groove 34 include plane 341, and plane 341 is smooth face, when so that carrying out aligning to optical fiber by fixture, Optical fiber is moved forward and backward on V-shaped groove 34, reduces the frictional force of optical fiber.

The base station 32 of driving device 4 and support frame 3 connects, and for providing power to base station 32, generates elastic component 2 Deformation, then the V-shaped groove 34 connecting with base station 32 is mobile with the direction of arc line shaped, but since moving distance is shorter, can be considered its with The direction of substantially straight line is mobile, so as to adjust the fibre core of optical fiber, is directed at fibre core.

Specifically, in driving device 4 include motor not shown in the figure, gear, screw rod 41, gear respectively with motor and silk Bar 41 is fixedly connected, and screw rod 41 and base station 32 connect, and when optical fiber aligning, motor operation band moving gear is rotated, so that driving Device 4 is moved along the direction of screw rod 41, then screw rod 41 can push base station 32, thus elastic component 2 generates deformation, makes support frame 3 Using the interconnecting piece of 2 lower end surface of elastic component and pedestal 1 as the center of circle, it is that radius does camber line rotation with elastic component 2, V-shaped groove 34 is driven to move It is dynamic, to drive the optical fiber in V-shaped groove 34 mobile, achieve the purpose that the position for adjusting the fiber core in V-shaped groove 34.

As shown in Figure 4,5, from the width direction unilateral observation of pedestal 1, each pair of elastic component 2 is considered as one A entirety, then a pair of elastic component 2 intersects in X-shaped, intersection point D, and intersection point D to 2 lower end surface of elastic component is connected with pedestal 1 Base plane 13 vertical range be B1, the transverse slat plane 312 that intersection point D to 2 upper surface of elastic component is connected with transverse slat 31 Vertical range is B2, and B1 >=B2.

As shown in Figure 6,7, in another embodiment provided by the invention, it is preferred that pedestal 1 includes multiple boss 11, with Pedestal 1, which is integrally formed, to be made, and protrudes from the upper surface of pedestal 1, and boss 11 includes first side 111 and second side 112, Preferably, first side 111 intersects vertically with second side 112, and the angle of first side 111 and base plane 13 is 45 degree, The angle of second side 112 and base plane 13 is 45 degree, and the two is vertical with the lower end surface of elastic component 2 connect；Transverse slat 31 wraps Multiple grooves 311 are included, groove 311 is depressed in the lower surface of transverse slat 31, and groove 311 includes third side 3111 and four side 3112, it is preferred that third side 3111 and four side 3112 intersect vertically, the folder of third side 3111 and transverse slat plane 312 Angle is 135 degree, and the angle of four side 3112 and transverse slat plane 312 is 135 degree, and the two is vertical with the upper surface of elastic component 2 Connection；The both ends of elastic component 2 are fixedly connected with the side of boss 11 and groove 311 by the way that integrated injection molding is vertical respectively.

Optical fibre fusion splicer of the invention further includes power supply, discharge mechanism, indication mechanism, imaging mechanism, control mechanism, In, power supply is control mechanism power supply, and electric discharge mechanism, indication mechanism, imaging mechanism, optical fiber adjustment device connect with control mechanism It connects, imaging mechanism observes the position of optical fiber, and by location information input control mechanism, is shown by indication mechanism, controls machine Whether the end that structure compares two optical fiber is aligned, and issues and instructs to the motor of optical fiber adjustment device, adjusts light according to the method described above Fine position, after two optical fiber aligns, control mechanism issues instruction to electric discharge mechanism, and two optical fiber of welding complete two optical fiber Fusion process.

A specific embodiment of the invention is described in detail above, those skilled in the art are come It says, without departing from the principle of the present invention, several modifications and improvement can also be carried out to the present invention, these modifications and improvement Also the protection scope of the claims in the present invention is belonged to.

Claims (8)

1. a kind of optical fibre fusion splicer comprising optical fiber adjustment device, the optical fiber adjustment device is fixedly connected on the fused fiber splice In device, for aligning to be distinguished in the front end of two optical fiber, so that two optical fiber are mutually butted, the optical fibre fusion splicer passes through electric discharge Heating carrys out the fibre core of welding optic fibre, so that fused fiber splice is integrated, it is characterised in that:

The optical fiber adjustment device includes pedestal (1), at least a pair of resilient members (2), the fixed company of at least a pair of and elastic component The support frame (3) connect and at least a pair of driving device (4) being flexibly connected with support frame as described above；

The pedestal (1) is strip, and is respectively fixedly connected with the pair of elastic component (2)；

The pair of elastic component (2) is the plate of elastically deformable, and be separately fixed at the length direction of the pedestal (1) Both ends, and being obliquely installed relative to the pedestal (1) plane to the pedestal (1) short transverse, the elastic component (2) with it is described The angle of pedestal (1) is 45 degree；

Support frame as described above (3) includes transverse slat (31), base station (32), extension (33) and V-shaped groove (34), the transverse slat (31) It is arranged in parallel with the pedestal (1), and is fixedly connected with the elastic component (2), described base station (32) one end and the transverse slat (31) it is fixedly connected, the other end is fixedly connected with the extension (33), and the base station (32) and the driving device (4) are living Dynamic connection, the V-shaped groove (34) are fixedly connected on the top of the extension (33), are used for two optical fiber aligning；

The driving device (4) is flexibly connected with the base station (32), and pushes support frame as described above (3), so as to adjust the branch The position of support (3) is the front end aligning of two optical fiber；

From the width direction unilateral observation of the pedestal (1), the pair of elastic component (2) intersects in X Shape, intersection point are (D), and the vertical range of plane where the intersection point (D) to the elastic component (2) lower end surface is B1, the intersection point It (D) is B2 to the vertical range of plane where the elastic component (2) upper surface, and B1 is more than or equal to B2.

2. a kind of optical fibre fusion splicer comprising optical fiber adjustment device according to claim 1, which is characterized in that the pedestal It (1) include multiple boss (11), the boss (11) protrudes from the upper surface of the pedestal (1), and the boss (11) includes the A side (111) and second side (112), at least one in the first side (111) and second side (112) with it is described The lower end surface of elastic component (2) vertically connects.

3. a kind of optical fibre fusion splicer comprising optical fiber adjustment device according to claim 2, which is characterized in that the boss (11) first side (111) intersects vertically with second side (112).

4. a kind of optical fibre fusion splicer comprising optical fiber adjustment device according to claim 2, which is characterized in that the transverse slat (31) multiple grooves (311) are equipped with, the groove (311) is depressed in the lower surface of the transverse slat (31), the groove (311) Including third side (3111) and four side (3112), in the third side (3111) and the four side (3112) extremely Rare one vertical with the upper surface of the elastic component (2) to connect.

5. a kind of optical fibre fusion splicer comprising optical fiber adjustment device according to claim 1, which is characterized in that the transverse slat (31), the base station (32) and the extension (33) are integrally formed, and the extension (33) is L shape, including crossbeam (331) With vertical beam (332), the crossbeam (331) is vertical with the vertical beam (332) to be connect, and the crossbeam (331) is parallel to the transverse slat (31), top of V-shaped groove (34) setting in the vertical beam (332).

6. a kind of optical fibre fusion splicer comprising optical fiber adjustment device according to claim 5, which is characterized in that the base station (32) evacuation for avoiding the propelling track being fixedly connected on the optical fibre fusion splicer (S) is formed between the transverse slat (31) Space, and the angle between the base station (32) and the transverse slat (31) is obtuse angle.

7. a kind of optical fibre fusion splicer comprising optical fiber adjustment device according to claim 1, which is characterized in that the pair of Elastic component (2) it is orthogonal at 90 degree.

8. a kind of optical fibre fusion splicer comprising optical fiber adjustment device according to claim 7, which is characterized in that described each The plate elastic slice that elastic component (2) is set as two panels and is parallel to each other.