CN202975388U - System for processing optical fiber end face - Google Patents

Abstract

A system for processing optical fiber end faces is provided. The system comprises a plurality of electrode tips, each electrode tip comprises a plate-shaped electrode with a polarity; and a point electrode group with another polarity, the point electrode group is corresponding to the plate-shaped electrode, the point electrode group comprises a plurality of parallel point electrodes, the point electrodes and the plate-shaped electrode are configured to form an arc region when discharging, and can be used for processing end parts of optical fibers inside the arc region. The multi electrode pair flat electrodes are adopted to discharge to realize discharge processing of the optical fiber end faces, and uniformity and flexibility of processing of the optical fiber end faces can be realized.

Description

System for the treatment of fiber end face

Technical field

The utility model relates to a kind of system for the treatment of fiber end face, particularly, relates to a kind of system that utilizes electrode discharge device to process fiber end face.

Background technology

Proposed to utilize discharge surface treating method to plate the process for treating surface of corrosion stability and abrasion resistant coatings in the metal surface in prior art.For example, Fig. 1 is the principle schematic that a kind of process for treating surface based on electrode discharge of the prior art is shown.Point electrode 201, relative with work metal workpiece 202 as earth terminal can be realized the processing technology such as plating, welding, surfacing cut to metal works 202.

Be for example in the Chinese patent of CN1106902C authorizing publication number, proposed a kind of apparatus for discharge surface treatment, applied voltage between the electrode that forms by the raw material by upgrading material or upgrading material and the metal as processed material and produce discharge and form thus the upgrading layer in the metal surface.A plurality of electrodes of mutually insulated are connecting respectively the supply unit of each electrode special use, utilize each supply unit to supply with discharge pulse to a plurality of electrodes respectively.

Fig. 2 is the principle schematic that two fused fiber splices are continued that the first example based on electrode discharge of the prior art is shown.Two optical fiber in arc zone between two relative point electrodes 301 and 302 pairs are arranged in both carry out Fusion Joining by the discharge generation arc column.But for the kind electrode structure, required electrode current is larger, causes the consumption of electrode to be beaten.

In the prior art, use the mechanical grinding mode that fiber end face is processed, by multiple tracks manual polishing operation, to realize the connection of low insertion loss.When jointed fiber, need to process with the optical fiber sander end face of optical fiber to be continued, but because the volume of sander is large, not be suitable for the user at the on-the-spot this sander of installing that continues.

The utility model content

For solving above-mentioned and other technical matters of the prior art, the utility model proposes a kind of system for the treatment of fiber end face, utilize the multi-pair electrodes plate electrode to discharge fiber end face (surfaces of nonmetallic materials) is carried out discharge process, realize homogeneity, dirigibility that fiber end face is processed.

Aspect further according to the utility model provides a kind of system for the treatment of fiber end face, comprises a plurality of electrode tips, and each described electrode tip comprises: a plate electrode has a kind of polarity; And point electrode group, has another kind of polarity, described point electrode group is corresponding with described plate electrode, wherein, described point electrode group comprises a plurality of point electrodes that are arranged in parallel, described a plurality of point electrode and described plate electrode are configured to form an arc zone when discharge, so that the end that is arranged in the optical fiber in described arc zone is processed.

Further, in above-mentioned system for the treatment of fiber end face, the described a plurality of point electrodes in described point electrode group comprise: a reference electrode is configured to its position and fixes; And at least one travelling electrode, be configured to move with respect to described reference electrode.

In above-mentioned system for the treatment of fiber end face, described plate electrode is configured to move with respect to described reference electrode.

In above-mentioned system for the treatment of fiber end face, described plate electrode is provided with through hole, and described nonmetallic materials can be passed described through hole and be entered described arc zone.

Above-mentioned system for the treatment of fiber end face further comprises at least one supply unit, and each supply unit is configured to from multiple directions, a described optical fiber is transported to described arc zone.

In above-mentioned system for the treatment of fiber end face, each described supply unit comprises clamping device, and it is the maintenance passage of V-arrangement roughly that described clamping device is provided be used to the cross section that keeps described optical fiber.

Above-mentioned system for the treatment of fiber end face further comprises a plurality of the first drive units, and each first drive unit is configured to be combined with described clamping device, to control the translation in described arc zone of described optical fiber, rotation or inclination.

Above-mentioned system for the treatment of fiber end face further comprises a plurality of the second drive units, and each second drive unit is configured to drive a corresponding described plate electrode and moves with respect to described reference electrode being parallel on the direction of described point electrode.

Above-mentioned system for the treatment of fiber end face further comprises a plurality of the 3rd drive units, and each the 3rd drive unit is configured to drive a corresponding described travelling electrode and moves with respect to described reference electrode.

Above-mentioned system for the treatment of fiber end face further comprises a plurality of image acquisition units, and each described image acquisition units is configured to gather the image about the position of described plate electrode, point electrode and optical fiber.

Above-mentioned system for the treatment of fiber end face further comprises computer unit, described computer unit is configured at least one in the first drive unit according to the described image-driven that gathers, the second drive unit and the 3rd drive unit, with change in described optical fiber, plate electrode and a plurality of point electrode at least one the position or change the attitude of described optical fiber.

In above-mentioned system for the treatment of fiber end face, described plate electrode, point electrode group, the second drive unit and the 3rd drive unit are integrated in described electrode tip.

In above-mentioned system for the treatment of fiber end face, described point electrode is asymmetric needle electrode.

According to above-mentioned various embodiment of the present utility model for the treatment of the system of fiber end face with for the treatment of the method for fiber end face, utilize the multi-pair electrodes plate electrode to discharge, discharge process is carried out on surface to nonmetallic materials, realize homogeneity, dirigibility that non-metal material surface is processed, and can produce less electrode material consumption.In addition, the system for the treatment of fiber end face of the present invention uses the little plasma discharge apparatus of volume that fiber end face is processed, thereby is convenient to the on-the-spot installation of user.

In addition, in the system for the treatment of fiber end face of the present utility model, use arc discharge method to carry out the automatic optical fiber end face processing, and the method for the glass surface melting by making optical fiber, eliminate the fiber end face fine crack, reduce the surfaceness of end face etc., increased the endurance life of fiber end face, increased the life-span that optical fiber connects.

For the purpose of this utility model, feature and advantage can be become apparent more, the utility model is described in further detail below in conjunction with the drawings and specific embodiments.

Description of drawings

Fig. 1 is the principle schematic that a kind of process for treating surface based on electrode discharge of the prior art is shown;

Fig. 2 illustrates the principle schematic that two fused fiber splices is continued based on the first of electrode discharge of the prior art;

Fig. 3 is the functional-block diagram for the treatment of the system of fiber end face that illustrates according to a kind of exemplary embodiment of the present utility model;

Fig. 4 is the schematic perspective view for the treatment of the system of fiber end face that illustrates according to a kind of exemplary embodiment of the present utility model;

Fig. 5 is the schematic perspective view that illustrates according to a kind of arrangement of the electrode unit of a kind of exemplary embodiment of the present utility model;

Fig. 6 is the schematic perspective view that illustrates according to the optical fibre feeding device of a kind of exemplary embodiment of the present utility model;

Fig. 7 illustrates optical fiber to enter in a different manner of the present utility model for the treatment of the schematic diagram in the system of fiber end face;

Fig. 8 is the schematic diagram of a kind of exemplary embodiment when optical fiber being shown entering arc zone;

Fig. 9 is the schematic diagram of the another kind of exemplary embodiment when optical fiber being shown entering arc zone; And

Figure 10 illustrates to utilize the utility model to process the control flow chart of the method for fiber end face for the treatment of the system of fiber end face.

Embodiment

Although fully describe the utility model with reference to the accompanying drawing that contains preferred embodiment of the present utility model, but before describing, this should be appreciated that those of ordinary skill in the art can revise utility model described herein, obtains technique effect of the present utility model simultaneously.Therefore, must understand above description to those of ordinary skill in the art and Yan Weiyi discloses widely, and its content does not lie in the described exemplary embodiment of restriction the utility model.In accompanying drawing, identical Reference numeral represents identical ingredient.

Referring to Fig. 3-7, according to embodiment generally of the present utility model, a kind of system of surface of the nonmetallic materials for the treatment of for example fiber end face and so on is provided, comprise a plurality of electrode tips 1, each described electrode tip 1 comprises: the plate electrode 11 with a kind of polarity (for example negative polarity); And the point electrode group 12 with another kind of polarity (for example positive polarity), described point electrode group 12 is corresponding with plate electrode 11.Point electrode group 12 comprises a plurality of point electrodes that are arranged in parallel, and described a plurality of point electrodes and plate electrode 11 are configured to form an arc zone 13 when discharge, so that the end that is arranged in the optical fiber 50 in arc zone 13 is processed.For example, by plate electrode 11 and point electrode group 12 are applied voltage, can produce electric arc in the zone between both, thereby form arc zone 13, be in optical fiber in arc zone 13 by arc heated and partial melting, for example eliminate burr, end face becomes round and smooth, thereby form the end face be suitable for other fiber alignment.With regard to having avoided before docking, the end face of optical fiber being carried out the pretreatment process of mechanical grinding and so on, accelerated handshaking procedure like this.Further, in discharge process, owing to can produce larger electric arc speck on plate electrode 11, reduced the current density on plate electrode 11, thereby reduced consumption of electrode.

Referring to Fig. 5, a plurality of point electrodes in point electrode group 12 comprise: reference electrode 121 and three travelling electrodes 122,123 and 124.Reference electrode 121 is configured to its position and fixes, and travelling electrode 122,123 and 124 is configured to move with respect to described reference electrode.Each point electrode can be asymmetric needle electrode or asymmetric cone-shaped electrode.In addition, plate electrode 11 is configured to move with respect to reference electrode 121.Like this, by at least one in mobile travelling electrode 122,123 and 124, can change temperatures at localized regions in arc zone 13, thereby as required the end face of optical fiber be processed, reach the requirement of required optical fiber surface configuration and surface quality.In the present invention, the plate electrode of electrode tip and point electrode group form the plasma discharge apparatus of small volume to be processed fiber end face, is convenient to the user in the on-the-spot whole disposal system of installing that continues.

According to the further embodiment of the system for the treatment of fiber end face of the present utility model, plate electrode 11 is provided with through hole 111, and the nonmetallic materials of optical fiber 50 and so on can be passed through hole 111 and be entered arc zone 13.Can push dielectric media by through hole 111, perhaps the mode of the surface coverage dielectric media of plate electrode 11, to change and to guide the form of electrical discharge arc, reach the processing expectation to nonmetallic materials.System for the treatment of fiber end face of the present utility model further comprises at least one supply unit 2, and each supply unit 2 is configured to from multiple directions, an optical fiber 50 is transported to arc zone 13.In one embodiment, each supply unit 2 comprises clamping device 21, as shown in Figure 6, described clamping device 21 be provided with for keep optical fiber 50, the cross section is the maintenance passage 22 of roughly V-arrangement.As shown in Figure 3, the system for the treatment of fiber end face of the present utility model further comprises a plurality of the first drive units, and each first drive unit is configured to and clamping device 21 combinations, to control optical fiber 50 in the interior translation of arc zone 13, rotation or inclination.Clamping device 21 can be also a kind of plate jig.

Fig. 7-9th illustrates optical fiber and enters in a different manner of the present utility model for the treatment of the schematic diagram in the system of fiber end face.By controlling clamping device 21, can make optical fiber 50 enter arc zone 13 being parallel to the through hole 111 that passes on the direction of point electrode on plate electrode 11, also can enter arc zone 13 in the direction that is parallel to point electrode between a plurality of point electrode groups, perhaps enter arc zone on the direction perpendicular to point electrode between plate electrode 11 and point electrode group.Alternatively, optical fiber 50 can enter arc zone 13 in the inclination mode, and wherein the angle on the plane of the axial direction of optical fiber and plate electrode 11 is θ.By controlling optical fiber in different positions, along different directions, enter arc zone 13 with different angles, position and the attitude of optical fiber in arc zone 13 can be controlled neatly, and then the surface treatment of fiber end face more uniformly or the surface treatment of specific formation can be realized.In the utility model, supply unit is transported to the position of the required processing of workpiece to be processed (for example optical fiber) mode with translation very flexibly, rotation or inclination in the arc zone 13 that is formed by electrode tip 1 by clamping device 21.For example for optical fiber, can be by clamping device 21 to be parallel to or to become arbitrary suitable angle to enter arc zone perpendicular to electric arc arc column direction or with the electric arc arc column.

Also comprise a plurality of the second drive units in the system for the treatment of fiber end face according to further embodiment of the present utility model, each second drive unit is configured to drive a corresponding plate electrode 11 and moves with respect to reference electrode 121 being parallel on the direction of point electrode, with away from or near reference electrode 121.System for the treatment of fiber end face of the present utility model also comprises a plurality of the 3rd drive units, and each the 3rd drive unit is configured to drive a corresponding travelling electrode 122,123 or 124 and moves with respect to reference electrode 121.Each the 3rd drive unit is provided with a motor (not shown), each motor is electrically connected to a corresponding travelling electrode 122,123 and 124, moves along at least one direction in X, Y and Z-direction in three-dimensional system of coordinate thereby drive travelling electrode.For example, as shown in Figure 5, travelling electrode 122 can move along X-direction, and travelling electrode 123 can move along X and Z-direction, and travelling electrode 124 can move along Z-direction.Like this, in plate electrode 11, reference electrode 121 and travelling electrode 122,123 and 124, the distance between any two electrodes is all adjustable, thereby satisfies the different disposal requirement to the optical fiber 50 in arc zone 13.Each electrode can reset to initial position under the driving of separately drive unit, and can dismantle each electrode, change, the operation such as maintenance.

As shown in Figure 3, the system for the treatment of fiber end face of the present utility model further comprises a plurality of image acquisition units 3, and each image acquisition units 3 is configured to gather the image of the position of relevant plate electrode 11, point electrode and optical fiber 50.Specifically, image acquisition units 3 comprises video camera for pickup image, is used for supporting and the bracket institution of mobile camera, is used for the image pick-up card that the zone to shooting provides the light source with high brightness of illumination and is used for the image of video camera picked-up is stored.

System for the treatment of fiber end face of the present utility model further comprises computer unit, described computer unit is configured to according to by at least one in image-driven the first drive unit, the second drive unit and the 3rd drive unit of camera acquisition, with change in optical fiber 50, plate electrode 11 and a plurality of point electrode at least one the position or change the attitude of described optical fiber by translation, rotation and inclination optical fiber 50.Further, system for the treatment of fiber end face of the present utility model also comprises computer unit the first controller and second controller, computer unit can be communicated by letter with second controller with the first controller, make the first controller control the operation of the first drive unit by the first driving circuit, and second controller is controlled the operation of the second and the 3rd drive unit by the second driving circuit.Computer unit is as total monitoring equipment, can provide the functions such as data communication, conversion, processing, storage and control for other each unit or device, and Real Time Monitoring is carried out in the operation of whole system.Like this, computer unit, supply unit, electrode tip, the first controller and image acquisition units consist of a kind of robotization non-metal material surface disposal system.

For example, in image acquisition units, complete position image acquisition to each electrode position image and workpiece to be processed (for example fiber end face) by video camera, through stored by image pick-up card, the processing such as format conversion imports image digitazation information into computer unit, carry out data analysis and comparison by computer unit, and the relative position of differentiation workpiece to be processed and each electrode, thereby output control information.Control information is controlled clamping device in supply unit by the mode of serial communication, adjusts clamping device and interelectrode relative position, thereby realizes the position correction of workpiece to be processed.

In one embodiment, as shown in Figure 4, plate electrode, point electrode group, the second drive unit and the 3rd drive unit are integrated in an electrode tip 1.On the other hand, second controller and the second driving circuit are integrated in a control module 4, and electrode tip 1 is electrically connected to by positive electrode power cable 51, negative electrode power cable 52 and Electric Machine Control communication cable 53 with control module 4.In order to reduce distributed capacitance, positive electrode power cable 51, negative electrode power cable 52 and Electric Machine Control communication cable 53 all adopt flexible cable, and be arranged to keep at a certain distance away or take the mode of separate cabling, with electric property and the Installation Flexibility that realizes electrode tip 1.Like this, electrode tip 1 is spatially independent of one another with control module 4, consists of split type device, can realize the dirigibility of external electrode head 1 on-the-spot machining of non-metallic material.In another kind of embodiment, electrode tip 1 can be configured to integrated device with control module 4.

Also be provided with on control module 4 for the panel operating key 41 that operates, for the liquid crystal display 42 and the attaching plug 43 that show.Panel operating key 41 and liquid crystal display 42 consist of man-machine dialog interface.By guidance panel operating key 41, can input and regulate the parameters such as rate of discharge for each electrode, discharge time, with the intensity that realizes the electrical discharge arc that control module 4 produces each electrode and the control of discharge time.Further, can also input and regulate plate electrode 11 and travelling electrode 122,123 and 124 displacement parameter by panel operating key 41, realize the control of 4 pairs of the first drive units of control module and second controller, thereby realize to plate electrode 11 and travelling electrode 122,123 and 124 position adjustments on three dimensions.In addition, can be at position, discharge time and the optical fiber 50 of the parameters that shows input on liquid crystal display 42, each electrode the position in arc zone 13 and attitude etc.

Control module 4 can be realized communicating by letter by serial communication mode and computer unit.In addition, also can carry out exchanges data and processing by control module 4 by the panel operating key 41 of self, embedded one-chip computer module separately, carry out work thereby can be used as autonomous device.

On the other hand, supply unit also can be realized communicating by letter by serial communication mode and computer unit, carries out on-line working.Replacedly, also can remove the serial communication with computer unit, make the first controller of supply unit carry out exchanges data and processing by the control panel of self and embedded single-chip microcomputer (not shown) module, control device carries out work thereby make the first controller become independently.Control panel in the first controller is used for clamping device 21 is carried out operation supervise and control as man-machine interface.For example, after carrying out the data processing by the parameter of control panel setting by embedded one-chip computer module, control clamping device 21 and rotate or move along at least one direction in X, Y and Z-direction in three-dimensional system of coordinate.

Although the above has described the embodiment that the system for the treatment of fiber end face of the present utility model comprises an electrode tip 1, the utility model is not limited in this.A plurality of electrode tips can be arranged to matrix form, such as matrix of 2X1,2X2,3X2,3X3 etc., thereby can carry out parallel processing to a plurality of optical fiber (workpiece).Although described the embodiment that electrode tip 1 comprises 1 plate electrode and 4 point electrodes, four point electrodes can realize plate electrode 10 is discharged simultaneously, the utility model is not limited to this.Point electrode also is not limited to outer 4, and can be 3,5,6 etc., and can computer unit controls each electrode in the different time, discharge with different pulse currents.。

Control module 4 can be realized communicating by letter by serial communication mode and computer unit.In addition, also can carry out exchanges data and processing by control module 4 by the panel operating key 41 of self, embedded one-chip computer module separately, carry out work thereby can be used as autonomous device.

As a kind of automatic control system, in the situation that be provided with computer unit, at least one in supply unit and electrode unit and computer unit communicate to connect by serial mode.

According to embodiment on the other hand of the present utility model, utilize above-mentioned various system for the treatment of fiber end face to process the method for fiber end face by a kind of, comprising: a plurality of optical fiber 50 are transported to respectively in corresponding arc zone 13; And control plate electrode 11 and point electrode group and discharge and produce electric arc, so that the end that is arranged in arc zone 13 optical fiber is processed.Further, in producing the process of electric arc, carry dielectric media by the through hole on plate electrode in arc zone, perhaps in the surface coverage dielectric media of plate electrode, to change and the form of guiding electrical discharge arc.

Figure 10 illustrates to utilize the utility model to process the control flow chart of the method for fiber end face for the treatment of the system of fiber end face.At step S100, the system boot initialization.At step S110, whether the electrode unit that can work independently and supply unit carried out differentiation with the computer unit proper communication.If step S110 judgment result is that "No", enter step S112, need to judge whether connecting electrode unit or supply unit.If arranging that S112 judges one of them unit and is not connected into, enter step S114, manually opened and the running parameter of this unit is set, until the setting parameter of this unit is completed.

If step S110 judgment result is that "Yes", enter step S120, judge whether the operational system default parameters.If step S120 judgment result is that "No", executive system parameter setting steps, otherwise enter step S130, judge whether to need to carry out location of workpiece calibration.After completing location of workpiece calibration, enter and arrange S140, utilize video camera that workpiece (for example optical fiber end) and the position of each electrode are gathered.In electrode tip in the position of each electrode and supply unit the parameter of the location of workpiece arrange by the software that is arranged in computer unit, after software environment configuration is correct, start location of workpiece calibration function.

In step S150, the image that gathers is processed, analyzed and judges, the first controller of judged result feed-in supply unit and be used for the second controller of electrode tip.Afterwards, at step S160, respectively first, second, and third drive unit is controlled by the first and second controllers, so that the position of each electrode and optical fiber is calibrated.Afterwards, judge at step S170 whether the position of each electrode and optical fiber satisfies requirement is set.If step S170 judgment result is that "Yes", judge whether to begin discharge at step S180.If workpiece to be processed is carried out discharge operation, the image information of workpiece after step S182 shows discharge process, discharging action can be realized repetitive operation by software or control panel keypress function.Afterwards, judge at step S184 whether workpiece needs to reset, if need to reset, at step S186, clamping device is resetted, with the convenient workpiece that takes out.Complete thus the discharge process process to workpiece.

Although the above has described the system for the treatment of fiber end face of the present utility model to process round fiber as example, obviously the system for the treatment of fiber end face of the present utility model also can be for the treatment of ribbon fiber.Therefore, optical fiber comprises round fiber and ribbon fiber in the utility model.

Provide a kind of automation equipment that utilizes the multi-electrode discharge according to the system for the treatment of fiber end face of above-mentioned various embodiment of the present utility model, when nonmetallic surface is processed, special when processing micro-optics device surperficial (as the end face of round fiber or ribbon fiber), fiber end face after processing has good homogeneity and repeatability, the mechanical treatment that does not need to carry out again other just can carry out fast splicing with other optical fiber, and this system configuration flexibly, can effectively reduce the consumption of electrode in use procedure.In addition, the system for the treatment of fiber end face of the present invention uses the little plasma discharge apparatus of volume that fiber end face is processed, thereby is convenient to the on-the-spot installation of user.

In addition, in the system for the treatment of fiber end face of the present utility model, use arc discharge method to carry out the automatic optical fiber end face processing, and the method for the glass surface melting by making optical fiber, eliminate the fiber end face fine crack, reduce the surfaceness of end face etc., increased the endurance life of fiber end face, increased the life-span that optical fiber connects.

According to the system for the treatment of fiber end face of the present utility model, by the combination of image acquisition units and computer unit, can regulate arbitrarily within limits distance and position and the attitude of workpiece to be processed in arc zone between each electrode.

It will be appreciated by those skilled in the art that, embodiment described above is exemplary, and those skilled in the art can make improvements, structure described in various embodiment in the situation that not the conflict aspect recurring structure or principle can carry out independent assortment, thereby on the basis that solves technical matters of the present utility model, realize more kinds of fibre junction assemblies.

After describing preferred embodiment of the present utility model in detail; those of ordinary skill in the art can clearly understand; can carry out various variations and change under the protection domain that does not break away from the claim of enclosing and spirit, and the utility model also is not subject to the embodiment of examples cited embodiment in instructions.

Claims (13)

1. the system for the treatment of fiber end face, comprise a plurality of electrode tips, and each described electrode tip comprises:

A plate electrode has a kind of polarity; And

A point electrode group has another kind of polarity, and described point electrode group is corresponding with described plate electrode,

Wherein, described point electrode group comprises a plurality of point electrodes that are arranged in parallel, and described a plurality of point electrodes and described plate electrode are configured to form an arc zone when discharge, so that the end that is arranged in the optical fiber in described arc zone is processed.

2. the system for the treatment of fiber end face as claimed in claim 1, wherein, the described a plurality of point electrodes in described point electrode group comprise:

A reference electrode is configured to its position and fixes; And

At least one travelling electrode is configured to move with respect to described reference electrode.

3. the system for the treatment of fiber end face as claimed in claim 2, wherein, described plate electrode is configured to move with respect to described reference electrode.

4. the system for the treatment of fiber end face as claimed in claim 3, wherein, described plate electrode is provided with through hole, and described nonmetallic materials can be passed described through hole and be entered described arc zone.

5. the system for the treatment of fiber end face as described in any one in claim 1-4, further comprise at least one supply unit, and each supply unit is configured to from multiple directions, a described optical fiber is transported to described arc zone.

6. the system for the treatment of fiber end face as claimed in claim 5, wherein, each described supply unit comprises clamping device, described clamping device is provided be used to the maintenance passage of the cross section that keeps described optical fiber for roughly V-arrangement.

7. the system for the treatment of fiber end face as claimed in claim 5, further comprise a plurality of the first drive units, each first drive unit is configured to be combined with described clamping device, to control the translation in described arc zone of described optical fiber, rotation or inclination.

8. the system for the treatment of fiber end face as claimed in claim 7, further comprise a plurality of the second drive units, each second drive unit is configured to drive a corresponding described plate electrode and moves with respect to described reference electrode being parallel on the direction of described point electrode.

9. the system for the treatment of fiber end face as claimed in claim 8, further comprise a plurality of the 3rd drive units, and each the 3rd drive unit is configured to drive a corresponding described travelling electrode and moves with respect to described reference electrode.

10. the system for the treatment of fiber end face as described in any one in claim 1-4, further comprise a plurality of image acquisition units, each described image acquisition units is configured to gather the image about the position of described plate electrode, point electrode and optical fiber.

11. the system for the treatment of fiber end face as claimed in claim 10, further comprise computer unit, described computer unit is configured at least one in the first drive unit according to the described image-driven that gathers, the second drive unit and the 3rd drive unit, with change in described optical fiber, plate electrode and a plurality of point electrode at least one the position or change the attitude of described optical fiber.

12. the system for the treatment of fiber end face as claimed in claim 8, wherein, described plate electrode, point electrode group, the second drive unit and the 3rd drive unit are integrated in described electrode tip.

13. the system for the treatment of fiber end face as claimed in claim 1, wherein, described point electrode is asymmetric needle electrode.

Images