CN105676355A - Sliding cutting device suitable for novel fusion splicer - Google Patents

Abstract

The present invention discloses a sliding cutting device suitable for a novel fusion splicer, belonging to the field of the fiber splicing technology. The sliding cutting device matches a fiber positioning assembly with no need for a special fiber cutter to prepare fiber end faces. A motion slide is directly pushed in place to complete the fiber cutting and to allow the fiber end faces to accord with the splicing requirement for getting ready for preparation of discharge splicing. A fiber cutting program is completed on a host, the operation is simpler, and the history is end that a splicer must configure a cutter, so that the operation flow is reduced, the splicing time is shortened, the requirement of operation space is reduced, the work efficiency is improved, and a real one-man operation is realized.

Description

A kind of slip cutter sweep suitable in novel optical fiber heat sealing machine

Technical field

The present invention relates to optical fiber fusion welding technology field, be specifically related to a kind of slip cutter sweep suitable in novel optical fiber heat sealing machine.

Background technology

Optical fiber splicer is that a kind of high temperature by releasing electric arc formation is by two fiber-fuse, use collimation principle to advance gently simultaneously, to realize the communication engineering equipment of the coupling of optical fiber mode fields, it is widely used in communication engineering construction, maintenance, the communication equipment manufacturing. The seventies in last century, First optical fiber splicer was born in Siemens, what adopted at that time is acetylene torch welding, develop into dependence microscope gradually to observe fibre junction end face (cleaved rear end face) and in the position of three dimensions (X, Y, Z axis) and manually adjust and make its accurate alignment, after reaching requirement, continue to advance (Z-direction) segment distance position that makes to continue reach molten condition and be connected at together in the high-temperature space that electrode discharge type becomes. The later stage eighties in last century is to now, through continuous technological evolvement, map pattern analysis technology after CCD imaging and imaging thereof instead of artificial microexamination, motor and high accuracy Push Technology thereof also instead of manual adjustment alignment, along with single-chip microcomputer performance improve constantly and the performance of continuous evolution optical fiber splicer of correlation technique, speed are largely to be improved. The sufficient market competition result also in the price of equipment from the nineties in last century 30-40 ten thousand RMB every price drop to the price of current 2-6 ten thousand RMB.

The optical fiber splicer of nearly 7-8 kind brand, its operation principle and use procedure in the market is substantially the same, namely

(1) fiber end face is prepared. Before welding, prepare tangent plane by optical fiber cutter be perpendicular to the end face of axis, in handshaking procedure, only in this way could complete alignment with end face for interface.

(2) fibre junction is placed. Optical fiber after cutting is placed in the V-groove of heat sealing machine, press fixture, after press the key that continues, system obtains the 3-D view of optical fiber by camera lens and CCD, and analyze accordingly and instruct the mechanical system of heat sealing machine to regulate fiber position and move towards, the gap between fiber end face properly after stop mobile, set primary clearance, heat sealing machine is measured, and shows cutting angle.After primary clearance has set, starting to perform fibre core or covering alignment, then heat sealing machine reduces gap (last gap sets), and left side optical fiber is fused in the optical fiber of the right by the electric arc that electrion produces, numerical value is also shown over the display by last microprocessor computed losses, has continued.

Before existing optical fiber splicer welding optic fibre be all with special optical fiber cutter fiber end face is cut smooth after be placed on heat sealing machine again to utilize, by two camera lenses (X Y-axis), optical sensor device CCD, catoptric system, the focusing servo of camera lens, fiber position adjustment that the assembly such as the little stroke motion component of great of Z axis forms, the initial position of optical fiber carried out high-precision position regulation by Barebone, before welding discharged, finally obtain one group of initial position meet the optical fiber that electric discharge requires. Though Barebone can be set primary clearance by fiber position adjustment accurately, but itself structure is complicated, volume is big, cost is high. Also cannot with cutting positioning type optical fiber fusion splicer cooperating.

Summary of the invention

For above-mentioned prior art, the technical problem to be solved in the present invention is: must use special optic fibre cutter prior cutting optical fibre during existing optical fiber splicer welding optic fibre, again the optical fiber of well cutting being placed on optical fiber splicer and carry out welding, therefore processing cost is high, welding step is complicated, efficiency is low.

In order to solve above-mentioned technical problem, the present invention adopts the following technical scheme that

A kind of slip cutter sweep suitable in novel optical fiber heat sealing machine, it is characterised in that optical fiber cutting blade, fused fiber splice sparking electrode and range controlling mechanism are set on moving slide block; Interlinked mechanism includes locating slot, spring and state and controls slide block, and described state controls slide block and is arranged on moving slide block; Described range controlling mechanism determines optical fiber cutting blade position, and hammer strikes off the optical fiber scratched under the drive of interlinked mechanism.

Further, described range controlling mechanism is for determining the pilot pin of sparking electrode and optical fiber cutting blade run location and run location sensor.

Further, described moving slide block is additionally provided with the bulge-structure making moving slide block stable motion

Further, hammer is fixed on work top by described locating slot, and described spring is arranged on hammer, and described state controls slide block and is arranged on moving slide block side.

Further, described moving slide block can be installed a piece of or two panels optical fiber cutting blade.

Compared with prior art, beneficial effects of the present invention shows:

Coordinate with fiber orientation assembly, do not need to use special optic fibre cutter to prepare end face, push directly on and after carriage puts in place, just can complete cutting optical fibre, to quasi-fiber, the task of adjustment fibre junction position, ready for follow-up welding; Low cost decreases operation routine, improves work efficiency, it is achieved that real one man operation.

Accompanying drawing explanation

Fig. 1 is linear slide schematic diagram;

Accompanying drawing labelling in figure: 2 be fiber orientation assembly, 4 be hammer, 5 be interlinked mechanism, 6 be moving slide block, 601 be sparking electrode, 602 be pilot pin and position sensor, 603 be optical fiber cutting blade, 604 be bulge-structure, 8 be treat the optical fiber of welding, 401 be that state controls slide block, 402 is locating slot, 403 is spring.

Detailed description of the invention

Below in conjunction with the drawings and the specific embodiments, the invention will be further described.

A kind of slip cutter sweep suitable in novel optical fiber heat sealing machine, it is characterised in that optical fiber cutting blade 603, sparking electrode 601 and range controlling mechanism are set on moving slide block 6;Interlinked mechanism 5 includes locating slot, spring and state and controls slide block, and described state controls slide block and is arranged on moving slide block; Described range controlling mechanism determines optical fiber cutting blade position, and hammer strikes off the optical fiber scratched under the drive of interlinked mechanism.

As it is shown in figure 1, be additionally provided with the bulge-structure 604 making moving slide block in the sliding intracavity stable motion of frame in moving slide block side. Moving slide block is processed as metalwork; Pilot pin 602 for determining sparking electrode and position is arranged on the center of the end face of moving slide block, and this pilot pin is made by high-abrasive material. When optical fiber cutting blade is a piece of, optical fiber cutting blade is arranged on moving slide block upper surface centre bit position; When optical fiber cutting blade is two panels, being left and right symmetrically arranged centered by sparking electrode in moving slide block, after moving slide block motion cutting optical fibre, the distance between fiber end face is the spacing between two optical fiber cutting blades, on the basis of this distance, Z axis feed-in mechanism urges optical fiber can carry out welding.

Hammer is fixed on machinery assembly appropriate location by locating slot 402, makes hammer 4 to move in vertical direction, strike off the optical fiber after scuffing under the spring 403 of down force and the combined effect of state control slide block 401. This state controls slide block 401 and is arranged on the movement slip block side in linear slide.

Claims (2)

1. the slip cutter sweep being applicable to novel optical fiber heat sealing machine, it is characterised in that optical fiber cutting blade, fused fiber splice sparking electrode and range controlling mechanism are set on moving slide block; Interlinked mechanism includes locating slot, spring and state and controls slide block, and described state controls slide block and is arranged on moving slide block; Described range controlling mechanism determines optical fiber cutting blade position, and hammer strikes off the optical fiber scratched under the drive of interlinked mechanism; Described range controlling mechanism is for determining the pilot pin of sparking electrode and optical fiber cutting blade run location and run location sensor; Described hammer is fixed on work top by described locating slot, and described spring is arranged on hammer, and described state controls slide block and is arranged on moving slide block side; Described moving slide block can be installed a piece of or two panels optical fiber cutting blade.

2. the slip cutter sweep suitable in novel optical fiber heat sealing machine according to claim 1, it is characterised in that described moving slide block is additionally provided with the bulge-structure making moving slide block stable motion.