CN209117910U - A kind of fusion splicing devices of single mode optical fiber - Google Patents

Abstract

The utility model discloses a kind of fusion splicing devices of single mode optical fiber, including carrying case and spiral driven rod, optical fiber import is offered inside the carrying case.In the utility model, using spiral driven rod, spiral driven rod is distributed in optical fiber import two sides up and down, and the distance between spiral driven rod is equal to single mode fiber diameters, spiral driven rod is driven by micro servo motor to be rotated, when single mode optical fiber enters from carrying case one end, single mode optical fiber passes through the transmission of spiral driven rod, it is pierced by automatically into carrying case inside and from the clamping push case other end, complete the process for wearing optical fiber automatically, eliminate the trouble for manually wearing optical fiber, it improves work efficiency, after welding simultaneously is good, micro servo motor reversely rotates, spiral driven rod is driven to reversely rotate, welding can be got well later single mode optical fiber and send out this equipment, eliminate the trouble of the manual discharging of operator, it is more convenient quick.

Description

A kind of fusion splicing devices of single mode optical fiber

Technical field

The utility model relates to optical fiber fusion welding technology field more particularly to a kind of fusion splicing devices of single mode optical fiber.

Background technique

Single mode optical fiber: centre pane core is very thin, can only pass the optical fiber of one mode, and therefore, intermode dispersion very little is applicable in In telecommunication, but there is also material dispersion and waveguide dispersion, such single mode optical fiber to the spectrum width and stability of light source have compared with High requirement.

It is varied for the heat sealing machine of optical fiber at this stage, but require manually to penetrate optical fiber in heat sealing machine, and single mode For optical fiber since diameter is smaller, intensity is not high, penetrates more troublesome in heat sealing machine, while the welding end face of single mode optical fiber and uneven Whole, during welding, the docking face contact of two single mode optical fibers is uneven, causes welding ineffective, asks for above-mentioned Topic, spy propose a kind of fusion splicing devices of single mode optical fiber to solve the above problems.

Utility model content

Purpose of the utility model is to solve disadvantages existing in the prior art, and a kind of single mode optical fiber proposed Fusion splicing devices.

To achieve the goals above, the utility model adopts the technical scheme that a kind of fusion splicing devices of single mode optical fiber, Including carrying case and spiral driven rod, optical fiber import, and optical fiber import top surface and underrun are offered inside the carrying case Rotating bar is rotatably connected to spiral driven rod, and spiral driven rod one end is welded with transmission gear, and transmission gear side is nibbled Conjunction has moving gear, and described moving gear one end and micro servo motor weld.

It is as above-mentioned technical proposal to further describe:

The carrying case is connected with clamping push case by the first cylinder, and clamps push another end surfaces of case and pass through fixation Block welding has third cylinder, and third cylinder bottom surface is welded with cutter, and it is another that the cutter opposite is located at clamping push case Side surface is welded with laser meter counter, and the clamping push chamber interior wall is welded with holding ring by the second cylinder, and in holding ring Surface mount has non-slip mat, and the clamping push case two sides wall surface corresponds to optical fiber entrance location and offers circular hole, and circular hole is straight Diameter is greater than fibre diameter, and the clamping push case is slidably connected by being oriented to straight-bar.

It is as above-mentioned technical proposal to further describe:

There are two the clamping push case settings, and two clamping push case center positions are provided with electric shock baton.

It is as above-mentioned technical proposal to further describe:

There are two carrying case settings, and side carrying case top surface is inlaid with controller, the controller output end with Micro servo motor input terminal, the first cylinder input terminal, the second cylinder input terminal, third cylinder input terminal and electric shock baton input terminal It is electrically connected, the laser meter counter output end and controller input terminal are electrically connected.

It is as above-mentioned technical proposal to further describe:

The holding ring is semi cylindrical type structure, and holding ring internal diameter is equal to single mode fiber diameters.

In conclusion by adopting the above-described technical solution, the beneficial effects of the utility model are:

1, in the utility model, spiral driven rod is used, spiral driven rod is distributed in optical fiber import two sides, and spiral shell up and down It revolves the distance between driven rod and is equal to single mode fiber diameters, spiral driven rod is driven by micro servo motor to be rotated, and single mode is worked as When optical fiber enters from carrying case one end, single mode optical fiber is by the transmission of spiral driven rod, automatically into carrying case inside and from folder It holds the push case other end to be pierced by, completes the process for wearing optical fiber automatically, eliminate the trouble for manually wearing optical fiber, improve work effect Rate, while after welding is good, micro servo motor reversely rotates, and drives spiral driven rod to reversely rotate, after can getting well welding Single mode optical fiber send out this equipment, eliminate the trouble of the manual discharging of operator, it is more convenient quick.

2, in the utility model, laser meter counter and cutter are used, when single mode optical fiber is pierced by one centimetre of case of clamping push Afterwards, third cylinder extends, and pushes cutter quickly to cut away the single mode optical fiber head for leaking out one centimetre, the interface of single mode optical fiber is through cutting It is more smooth after knife processing, the docking area of welding is increased, single mode optical fiber welding quality is improved.

Detailed description of the invention

Fig. 1 be the utility model proposes a kind of single mode optical fiber fusion splicing devices structural schematic diagram；

Fig. 2 is the connection schematic diagram of the utility model spiral driven rod and micro servo motor；

Fig. 3 is the side view of the utility model carrying case；

Fig. 4 is the structural schematic diagram of the utility model holding ring；

Fig. 5 is the connection schematic diagram of the utility model cutter and third cylinder.

Marginal data:

1- carrying case, 2- spiral driven rod, 3- moving gear, 4- micro servo motor, the first cylinder of 5-, 6- clamping push Case, 7- non-slip mat, the second cylinder of 8-, 9- holding ring, 10- fixed block, 11- third cylinder, 12- cutter, 13- electric shock baton, 14- swash Light meter counter, 15- transmission gear, the import of 16- optical fiber, 17- rotating bar, 18- are oriented to straight-bar, 19- controller.

Specific embodiment

The following will be combined with the drawings in the embodiments of the present invention, carries out the technical scheme in the embodiment of the utility model Clearly and completely describe, it is clear that the described embodiments are only a part of the embodiments of the utility model, rather than whole Embodiment.

Referring to Fig.1-5, a kind of fusion splicing devices of single mode optical fiber, including carrying case 1 and spiral driven rod 2, inside carrying case 1 Optical fiber import 16 is offered, and 16 top surface of optical fiber import and underrun rotating bar 17 are rotatably connected to spiral driven rod 2, spiral 2 one end of driven rod is welded with transmission gear 15, and 15 side of transmission gear is engaged with moving gear 3, and 3 one end of moving gear is watched with miniature Take the welding of motor 4.

Carrying case 1 is connected with clamping push case 6 by the first cylinder 5, and clamps the push another end surfaces of case 6 and pass through fixation Block 10 is welded with third cylinder 11, and 11 bottom surface of third cylinder is welded with cutter 12, and 12 opposite of cutter is located at clamping push Another side surface of case 6 is welded with laser meter counter 14, and clamping push 6 inner wall of case is welded with holding ring 9 by the second cylinder 8, and 9 inner surface of holding ring is pasted with non-slip mat 7, and clamping push 6 two sides wall surface of case corresponds to 16 position of optical fiber import and offers circular hole, And Circularhole diameter is greater than fibre diameter, clamping push case 6 is slidably connected by being oriented to straight-bar 18, and clamping push case 6 is provided with two It is a, and two clamping push 6 center positions of case are provided with electric shock baton 13, there are two the settings of carrying case 1, and side carrying case 1 Top surface is inlaid with controller 19,19 output end of controller and 4 input terminal of micro servo motor, 5 input terminal of the first cylinder, the second gas 8 input terminal of cylinder, 11 input terminal of third cylinder and 13 input terminal of electric shock baton are electrically connected, 14 output end of laser meter counter and controller 19 input terminals are electrically connected, and holding ring 9 is semi cylindrical type structure, and 9 internal diameter of holding ring is equal to single mode fiber diameters, miniature servo 4 model JS-775 of motor, the first cylinder 5 model SC50-25-S, 8 model MA20X300 of the second cylinder, third cylinder 11 Model MA20X50,14 model MSE-TS800 of laser meter counter, 19 model FX1S-14MR/MT of controller.

Holding ring 9 clamps single mode optical fiber, and single mode optical fiber is made not generate shaking in welding, and the first cylinder 5 pushes clamping to push away It send case 6 to be moved, by the clamping of grip block 9, so that single mode optical fiber is pressed docking in melting, complete fusion process.

Working principle: power in use, the present apparatus is moved to suitable position for the present apparatus, single mode optical fiber is penetrated In optical fiber import 16, spiral driven rod 2 is distributed in about 16 two sides of optical fiber import, and the distance between spiral driven rod 2 is equal to Single mode fiber diameters, spiral driven rod 2 drive rotation by micro servo motor 4, when single mode optical fiber enters from 1 one end of carrying case When, single mode optical fiber passes through the transmission of spiral driven rod 2, wears automatically into 1 inside of carrying case and from clamping push 6 other end of case Out, after the process of optical fiber is worn in completion automatically, is eliminated the trouble for manually wearing optical fiber, is improved work efficiency, while welding is good, Micro servo motor 4 reversely rotates, and drives spiral driven rod 2 to reversely rotate, later single mode optical fiber can be got well in welding and send out This equipment eliminates the trouble of the manual discharging of operator, more convenient quick, when single mode optical fiber is pierced by clamping push case 6 one After centimetre, laser meter counter 14 incudes elongated distance and sends a signal to controller 19, and controller 19 controls micro servo motor 4 It closes, and controls the elongation of third cylinder 11, push cutter 12 quickly to cut away the single mode optical fiber head for leaking out one centimetre, single mode optical fiber Interface through cutter 12 processing after it is more smooth, increase the docking area of welding, improve single mode optical fiber welding quality, when After the completion of cutting, controller 19 controls third cylinder 11 and shrinks, and after the completion of the contraction of third cylinder 11, controller 19 controls miniature Servo motor 4 restarts, and single mode optical fiber persistently extends, and when elongation is to two centimetres, laser meter counter 14 detects elongated distance, Controller 19 is sent a signal to, controller 19 controls micro servo motor 4 and stops working, while controlling the elongation of the second cylinder 8 will Single mode optical fiber clamps, and electric shock baton 13 is made to be powered, and draws high-voltage arc and melts single mode optical fiber face of weld, at this point, the first cylinder 5 pushes away Dynamic clamping push case 6 is moved along guiding straight-bar 18, so that single mode optical fiber is pressed docking in melting, is completed fusion process.

The preferable specific embodiment of the above, only the utility model, but the protection scope of the utility model is not It is confined to this, anyone skilled in the art is within the technical scope disclosed by the utility model, practical according to this Novel technical solution and its utility model design are subject to equivalent substitution or change, should all cover the protection model in the utility model Within enclosing.

Claims (6)

1. a kind of fusion splicing devices of single mode optical fiber, including carrying case (1) and spiral driven rod (2), which is characterized in that the transmission It is offered optical fiber import (16) inside case (1), and optical fiber import (16) top surface and underrun rotating bar (17) are rotatably connected to Spiral driven rod (2), described spiral driven rod (2) one end are welded with transmission gear (15), and transmission gear (15) side is engaged Have moving gear (3), described moving gear (3) one end and micro servo motor (4) are welded.

2. a kind of fusion splicing devices of single mode optical fiber according to claim 1, which is characterized in that the carrying case (1) passes through First cylinder (5) is connected with clamping push case (6), and clamps push case (6) another end surfaces and be welded with by fixed block (10) Third cylinder (11), and third cylinder (11) bottom surface is welded with cutter (12), and cutter (12) opposite is located at clamping and pushes away Case (6) another side surface is sent to be welded with laser meter counter (14), clamping push case (6) inner wall is welded by the second cylinder (8) It is connected to holding ring (9), and holding ring (9) inner surface is pasted with non-slip mat (7), the clamping pushes case (6) two sides wall surface pair Optical fiber import (16) position is answered to offer circular hole, and Circularhole diameter is greater than fibre diameter, clamping push case (6) passes through guiding Straight-bar (18) is slidably connected.

3. a kind of fusion splicing devices of single mode optical fiber according to claim 2, which is characterized in that the clamping pushes case (6) There are two settings, and two clamping push case (6) center positions are provided with electric shock baton (13).

4. a kind of fusion splicing devices of single mode optical fiber according to claim 1, which is characterized in that carrying case (1) setting There are two, and side carrying case (1) top surface is inlaid with controller (19), controller (19) output end and micro servo motor (4) input terminal, the first cylinder (5) input terminal, the second cylinder (8) input terminal, third cylinder (11) input terminal and electric shock baton (13) Input terminal is electrically connected.

5. a kind of fusion splicing devices of single mode optical fiber according to claim 2, which is characterized in that the laser meter counter (14) Output end and controller (19) input terminal are electrically connected.

6. a kind of fusion splicing devices of single mode optical fiber according to claim 2, which is characterized in that the holding ring (9) is half Cylinder type, and holding ring (9) internal diameter is equal to single mode fiber diameters.