CN109782391A - A kind of optical fiber splicer - Google Patents
A kind of optical fiber splicer Download PDFInfo
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- CN109782391A CN109782391A CN201910231437.9A CN201910231437A CN109782391A CN 109782391 A CN109782391 A CN 109782391A CN 201910231437 A CN201910231437 A CN 201910231437A CN 109782391 A CN109782391 A CN 109782391A
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- optical fiber
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- peeling
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Abstract
The present invention relates to communication engineering equipment fields, disclose a kind of optical fiber splicer, including main body, the main body is equipped with the alignment device for carrying out positioning docking to optical fiber end and the welding electric arc for connecting optical fiber, peeling component is additionally provided in main body, peeling component includes placed channel, peeling actuator, bark knife, placed channel is set to body surfaces, and it is equipped with the feed slot extended along placed channel pipe lengths, placed channel outer wall is fixed with feed box, the feed chamber being connected to feed slot is equipped in feed box, bark knife is set in feed chamber along placed channel radial slippage, and as sliding can be protruded into placed channel by feed slot, peeling actuator includes the drive rod being set on feed box along placed channel radial slippage, one end of drive rod is protruded into feed chamber, the other end stretches out feed box back to positioning The side wall in channel.The present invention has peeling component, and good peeling can be carried out to optical fiber, easy to use.
Description
Technical field
The invention belongs to optical fiber fusion welding technology field, in particular to a kind of optical fiber splicer.
Background technique
Heat sealing machine generally refers to the optical fiber splicer that optical communication field uses.Working principle is to utilize high-voltage arc by two light
Fine section, which is gently promoted while fusing with movement mechanism, allows two optical fiber to be fused into one, to realize the coupling of optical fiber mode fields.
Notification number is that the Chinese utility model patent of CN208367262U discloses a kind of optical fiber with fiber laser arrays function
Heat sealing machine, including optical fiber splicer and fiber detection module, optical fiber splicer are used for welding optic fibre;Fiber detection module is for examining
Survey optical fiber;Plug slot position, hurricane globe, display screen are provided on optical fiber splicer, the fiber detection module is mounted on plug
In slot position, and communicated to connect with optical fiber splicer;Optical fiber splicer includes at least two fiber guiding grooves, a pair of electrodes stick, uses
In the fiber clamp for clamping optical fiber;Electrode bar two sides are provided with LED illumination lamp, and the gap corresponding position between two electrode bars is set
It is equipped with camera;At least two optical fiber presser feets and two pieces of reflective mirrors are provided on hurricane globe;Reflective mirror is for sending out LED illumination lamp
Light reflection out, the light transmission of reflection cross fiber cross-sections and directive camera, and camera and display screen communicate to connect, camera
The reflected light is captured to carry out imaging fiber and show image on a display screen.
Above-mentioned heat sealing machine to optical fiber carry out welding when require be bare fibre, existing optical fiber include from inside to outside sandwich layer,
Covering, coat and jacket layer.It needs to remove coat, jacket layer before carrying out welding to this optical fiber, that is, usually said
Peeling.It needs to be operated by tool at this time, tool needs extra purchase and carrying, is also easy to lose, very not square
Just.
Summary of the invention
In view of the deficiencies of the prior art, the present invention intends to provide a kind of optical fiber splicer, without another
Band peeling tool carries out good peeling to optical fiber using included peeling component, more convenient to use.
Above-mentioned technical purpose of the invention has the technical scheme that a kind of optical fiber splicer, including
Main body is provided with alignment device for carrying out positioning docking to optical fiber end in the main body and for connecting optical fiber
Welding electric arc is additionally provided with peeling component in the main body, and the peeling component includes placed channel, peeling actuator, peeling
Knife, the placed channel are set to body surfaces, and offer and protrude into placed channel for bark knife from placed channel side
Feed slot, the placed channel outer wall are fixed with feed box, are equipped with the feed chamber being connected to feed slot, peeling in the feed box
Knife is set in feed chamber along placed channel radial slippage, and as sliding can be protruded into placed channel by feed slot, institute
Stating peeling actuator includes the drive rod being set on feed box along placed channel radial slippage, and feed is protruded into one end of drive rod
In chamber, the other end stretches out feed box back to the side wall of placed channel.
By using above-mentioned technical proposal, in use, first the optical fiber end of peeling will be needed to penetrate in placed channel, then
Drive rod is pressed, drive rod pushes bark knife to move into placed channel, so that bark knife penetrates in the outer layer of optical fiber, then will
Optical fiber original road pulls out, and during pull-out, bark knife scratches fibre jacket, shuts down the crust scratched after pulling out, passes through
Peeling component is set in main body, easily can be stripped the jacket layer of optical fiber before welding, another band peeling tool is not necessarily to,
Facilitate the use of heat sealing machine.
Be further arranged to: the drive rod is provided with multiple and is distributed along placed channel length direction, the drive rod
Length be sequentially reduced.
By using above-mentioned technical proposal, the optical fiber of different model specification, even if some outer diameters are identical, jacket layer, coating
Layer, covering be different with the thickness of sandwich layer, in peeling, optimum efficiency be peel off jacket layer, coat without injure covering and
Sandwich layer, it is different by the way that the length of every drive rod to be arranged to, it enables to that promotion stripping can be contradicted after being pushed into drive rod
The mobile distance of dermatotome is different, so that bark knife penetrates the depth difference of optical fiber to be adapted to the peeling demand of optical fiber;For
Same drive rod can be used in same size optical fiber, and the drive rod is pressed into maximum position every time, improves peeling effect
Rate and quality, it is more convenient to use.
It is further arranged to: being threaded with adjustment sheet on the part that the drive rod is located at outside feed box.
By using above-mentioned technical proposal, when pressing drive rod, adjustment sheet can be contradicted with feed outer box wall, hence for
The maximum length that drive rod can extend into feed box is limited, and can be driven by the rotation of adjustment sheet to where adjustment sheet
The maximum length that lever can extend into feed box is adjusted, to be adapted to the requirement of the different feeding depths of bark knife,
It is more convenient to use, efficient.
Be further arranged to: the peeling component is provided with two groups and is located at placed channel two sides, the bark knife
Including semiorbicular blade and knife handle, in the middle part of the blade and one end integrally connected of knife handle, the knife handle other end penetrate feed
Intracavitary and setting contradicts plate, contradicts plate length and extends along placed channel length direction.
By using above-mentioned technical proposal, both sides are all semi-circular blades, when the drive rod on both sides is pressed simultaneously, two
Semi-circular blade is adjacent to each other, carries out ring cutting to optical fiber, is preferably adapted to the circular contour of optical fiber;Plate is contradicted for providing driving
The active force of bar makees use, and when so that different driving bar being pressed, bark knife being capable of stress well.
Be further arranged to: the conflict plate and feed chamber are several along positioning back to being provided between the inner wall of placed channel
The reset spring of channel-length direction distribution, one end of the reset spring and contradicts plate and contradicts, the other end and feed chamber back to
The inner wall of placed channel contradicts.
By using above-mentioned technical proposal, after drive rod is pressed, contradicts plate and moved to placed channel direction, made
It obtains reset spring to be compressed, after decontroling drive rod, reset spring, which pushes, contradicts sheet reset.
Be further arranged to: the alignment device includes pedestal, the first bootstrap block and the second bootstrap block, and the pedestal is solid
Fixed and protrusion is set to body surfaces, and susceptor surface offers the positioning groove placed for optical fiber, and setting is jagged among pedestal,
The guide rod being vertically arranged is provided in notch, the first bootstrap block is set on guide rod, and the sliding of the second bootstrap block, which is set to, to be led
To on bar and be located above the first bootstrap block, second bootstrap block bottom surface offers mating groove, first bootstrap block with
Mating groove is engaged by clamping, and is offered on first bootstrap block top surface and the second bootstrap block bottom surface for the placement of optical fiber naked section
Guiding groove is docked, the section of the docking guiding groove is V-shaped, and first guidance is opened opens with the second bootstrap block two sides
Equipped with the welding mouth protruded into for welding electric arc.
By using above-mentioned technical proposal, in use, first the unpeeled part of optical fiber is placed in positioning groove, then
The optical fiber end on one side is placed in the docking guiding groove of one end of the first bootstrap block, the end of the optical fiber of another side is put
It is placed in the docking guiding groove of the other end of the first bootstrap block, it is then that the end of two optical fiber is close to each other, second is drawn
Guide block is slowly put down, and the mating groove of the second bootstrap block gradually covers on the first bootstrap block, the docking guide groove of the second bootstrap block
Slot comes into contact with the top of nuditing fiber and applies downward active force to the top of nuditing fiber, so that two exposed optical fiber
End is slipped to the position tangent with two cell walls along the inclination cell wall of the docking guiding groove of the first bootstrap block, so that
Two optical fiber ends are on the same line.
Be further arranged to: the first bootstrap block sliding is set on guide rod, first bootstrap block and guide rod
Between be provided with locating piece, the locating piece includes being threadedly connected to the first bootstrap block and positioning spiral shell that bottom end and guide rod contradict
Bolt.
By using above-mentioned technical proposal, due to the difference of the radius of the optical fiber after non-peeling optical fiber and peeling, need pair
The height and position of first bootstrap block is adjusted, so that two sections in positioning groove and docking guiding groove of optical fiber can be
On same straight line or on approximate same straight line, avoid optical fiber that skew occurs in the vertical direction, so that optical fiber tilts, so that
When docking, the optical fiber head on both sides being capable of good alignment.
Be further arranged to: the top surface of first bootstrap block offers positioning groove, the bottom surface of second bootstrap block
Protrusion is provided with locating convex block, and the locating convex block is located at the surface of positioning groove.
By using above-mentioned technical proposal, the long-term sliding meeting of the second bootstrap block is so that between the second bootstrap block and guide rod
When the factors such as generation is mutually worn, the positioning of positioning bolt is inaccurate can make the second bootstrap block move down under the effect of gravity, the
Two V-shaped docking guiding groove on one bootstrap block and the second bootstrap block can not face, and the docking guiding groove at both ends
It can be deviated, the optical fiber end stress condition on both sides is inconsistent, and opposite offset, the design of positioning groove, locating convex block occurs
So that having more positioning safeguards when the first bootstrap block and the second bootstrap block close up, the inaccurate feelings of docking are preferably avoided the occurrence of
Condition occurs.
It is further arranged to: being provided with lead-in chamfered between the cell wall and end face of the docking guiding groove.
Do not have in the end of optical fiber to be penetrated to docking guiding groove so that optical fiber end by using above-mentioned technical proposal
Optical fiber end is led into docking guiding groove using lead-in chamfered and is formed by the channel of alignment docking guiding groove formation completely
Channel in, it is more convenient in plug wire.
It is further arranged to: being equipped with filling set in the placed channel, the position that the filling covers corresponding bark knife opens up
There is the channel mobile for bark knife.
By using above-mentioned technical proposal, the actual inner diameter of placed channel can change to suitable by the use of filling set
The fiber dimensions for answering various outer diameter are prevented in peeling, due to the mismatch of placed channel actual inner diameter and fibre external diameters, are caused
When bark knife and optical fiber contact, optical fiber is moved, so that irregular variation occurs for barking depth, thus it is too deep, damage covering
The case where occur.
In conclusion the invention has the following advantages:
1, in use, first the optical fiber end of peeling will be needed to penetrate in placed channel, drive rod is then pressed, drive rod pushes stripping
Dermatotome is moved into placed channel, so that bark knife penetrates in the outer layer of optical fiber, is then pulled out optical fiber original road, is pulled out process
In, bark knife scratches fibre jacket, the crust scratched shut down after pulling out, by the way that peeling component is arranged in main body,
Easily the jacket layer of optical fiber can be stripped before welding, without another band peeling tool, facilitate the use of heat sealing machine;
2, the optical fiber of different model specification, even if some outer diameters are identical, jacket layer, coat, covering are not with the thickness of sandwich layer
With, in peeling, optimum efficiency is to peel off jacket layer, coat without injuring covering and sandwich layer, by by every drive rod
Length is arranged to different, and it is different to enable to can to contradict the distance for pushing bark knife mobile after being pushed into drive rod, thus
So that bark knife penetrates the depth difference of optical fiber to be adapted to the peeling demand of optical fiber, same size optical fiber can be used same
The drive rod is pressed into maximum position every time by drive rod, improves peeling efficiency and quality, more convenient to use;
3, in the end of optical fiber to be penetrated to docking guiding groove, without so that optical fiber end is directed at docking guiding groove completely and is formed
Channel, using lead-in chamfered by optical fiber end lead into docking guiding groove formed channel in, it is more square in plug wire
Just quick.
Detailed description of the invention
Fig. 1 is the structural schematic diagram of the optical fiber splicer in the present embodiment;
Fig. 2 is peeling component in Fig. 1 along the horizontal cross-section schematic diagram of the axis of placed channel;
Fig. 3 is enlarged drawing at A in Fig. 1;
Fig. 4 is the structural schematic diagram of guide rod in the present embodiment, the first bootstrap block and the second bootstrap block.
Appended drawing reference: 1, main body;2, alignment device;21, the first bootstrap block;22, the second bootstrap block;23, mating groove;
24, guiding groove is docked;25, lead-in chamfered;26, welding mouth;27, positioning groove;28, locating convex block;3, welding electric arc;4, it shells
Skin component;41, peeling actuator;42, adjustment sheet;5, placed channel;51, feed slot;6, bark knife;61, knife handle;62, blade;
63, plate is contradicted;64, reset spring;7, feed box;71, feed chamber;72, intercommunicating pore;73, control hole;8, pedestal;81, locating groove
Slot;82, notch;83, guide rod;84, locating piece;9, filling set.
Specific embodiment
A kind of optical fiber splicer, as depicted in figs. 1 and 2, including main body 1, main body 1 are equipped with alignment device 2, welding electric arc
3 and peeling component 4.Peeling component 4 includes placed channel 5, peeling actuator 41, bark knife 6.Placed channel 5 is hollow
Tubular structure, and it is fixed on the surface of main body 1, feed slot 51 is offered on placed channel 5, for protruding into positioning for bark knife 6
5 inside of channel is located at the outer layer of the optical fiber in placed channel 5 to piercing.
As depicted in figs. 1 and 2, the two sides of placed channel 5 are respectively and fixedly provided with feed box 7, and feed chamber is offered in feed box 7
71, feed box 7 is connected to feed chamber 71 and feed slot 51 towards intercommunicating pore 72, intercommunicating pore 72 is offered on the face of placed channel 5.Into
The surface in the remotely located channel 5 of knife box 7 opens up that there are three the control holes 73 that are axially distributed along placed channel 5.
As depicted in figs. 1 and 2, bark knife 6 includes knife handle 61 and blade 62, and the shape of blade 62 is semicircle, and vertical
It is set in feed slot 51, knife handle 61 is integrally formed at the middle part of blade 62 and passes through intercommunicating pore 72, protrudes into feed chamber 71.Knife
Handle 61 has been wholely set far from one end of blade 62 and has contradicted plate 63, and it is axially extending along placed channel 5 to contradict plate 63.
As depicted in figs. 1 and 2, peeling actuator 41 includes drive rod, and drive rod slides in control hole 73, and one end is stretched out
Feed box 7, the other end protrude into feed chamber 71, and drive rod, which slides when pressed and pushed into feed box 7, contradicts plate 63, from
And in the outer layer for pushing blade 62 to move and be pierced into optical fiber into placed channel 5.Drive rod has three, and along 5 axis of placed channel
To distribution, the length of three drive rods is sequentially reduced, so that blade 62 can be pierced into light when pressing different drive rods
Fine depth is sequentially reduced.
As depicted in figs. 1 and 2, adjustment sheet 42 is threaded on the part that drive rod is located at outside feed box 7.
As depicted in figs. 1 and 2, reset spring 64 is arranged on knife handle 61, one end of reset spring 64 and conflict plate 63 connect
It connects, inner wall of the other end with feed box 7 close to placed channel 5 is connect.When drive rod is released, reset spring 64, which pushes, to be contradicted
Plate 63 makes blade 62 and contradicts the reset of plate 63.When reset spring 64 is in initial length, the position of blade 62 is located at feed
In slot 51.
As shown in figures 1 and 3, alignment device 2 includes pedestal 8, the first bootstrap block 21 and the second bootstrap block 22, pedestal 8
It is fixed on 1 surface of main body, and the prominent surface with main body 1,8 surface of pedestal, which is opened up, to be extended along 8 length direction of pedestal and the bottom of through
The positioning groove 81 at 8 both ends along its length of seat, the middle position of 8 length direction of pedestal open up jagged 82, in notch 82
It is fixed with vertical guide rod 83, the section of guide rod 83 is rectangle.
First bootstrap block 21 is positioned on guide rod 83 by locating piece 84, and locating piece 84 includes positioning bolt, positions spiral shell
Bolt is threadedly connected on the first bootstrap block 21 and bottom end and guide rod 83 contradict, and the first bootstrap block 21 and the second bootstrap block 22 are sliding
It moves on guide rod 83 and the second bootstrap block 22 is located at the surface of the first bootstrap block 21.Second bootstrap block, 22 bottom surface offers length
Direction and the consistent mating groove 23 of 8 length direction of pedestal are spent, mating groove 23 is through the second bootstrap block 22 along 8 length side of pedestal
To both ends, to the second bootstrap block 22 fall when, 21 top of the first bootstrap block is just inserted into mating groove 23.First bootstrap block
The docking guide groove for extending and running through both ends along 8 length direction of pedestal is offered on 21 top surface and the bottom surface of the second bootstrap block 22
Slot 24, the section of docking guiding groove 24 are V-shaped.It docks and is equipped with lead-in chamfered between the cell wall and end face of guiding groove 24
25, when can conveniently wear optical fiber using lead-in chamfered 25, the end of optical fiber enters in docking guiding groove 24.
The medium position of first bootstrap block 21 and the second bootstrap block 22 offers the welding mouth 26 through two sides, welding mouth 26
For being protruded into for the end of welding electric arc 3, so that the end to two optical fiber carries out welding.
As shown in Figure 3 and Figure 4, be provided with positioning groove 27 on 21 top surface of the first bootstrap block, 22 bottom surface of the second bootstrap block to
Lower protrusion is fixed with locating convex block 28, and locating convex block 28 is located at right above positioning groove 27, fixed when the second bootstrap block 22 falls
Position convex block 28 and positioning groove 27 are just mating.
As shown in Fig. 2, being equipped with filling set 9 in placed channel 5, the position of the corresponding bark knife 6 of filling set 9 is offered for peeling
The mobile channel of knife 6.
It uses principle: peeling first being carried out to optical fiber before welding.The end with shell optical fiber is first penetrated into placed channel 5 when peeling
In, suitable drive rod is then pressed, and drive rod, so that blade 62 is pierced into fiber outer layer, is then kept into thorn by earth
Enter state, optical fiber is pulled outwardly, when pulling, fiber outer layer is disconnected, and completes skinning operations.
When the specification difference of optical fiber, drive rod can be selected by test, and the method for test is to penetrate optical fiber
Placed channel 5, end position cross blade 62 to position, then successively selection drive rod carry out peeling, observe peeling after be
It is no to disconnect, whether be pierced into covering.And it is debugged by driving trip of the pivoted eyelid 42 to same drive rod.
Welding carried out to optical fiber after the completion of peeling, when welding will first make the band shell end of a wherein optical fiber be placed in one
Time pedestal 8 on positioning groove 81 in, pass through and unclamp positioning bolt, the height of mobile first bootstrap block 21, so that the optical fiber
The end V-shaped of being inserted into the first bootstrap block 21 docking guiding groove 24 when, level is directly presented with shell end and naked section
State, then screwed in place bolt.
By in the positioning groove 81 of the pedestal 8 for being placed in another side with shell parts of another optical fiber, the second guidance is lifted
Naked section is located in the docking guiding groove 24 of the V-arrangement of the second bootstrap block 22, then puts down the second bootstrap block 22 by block 22,
When second bootstrap block 22 falls, locating convex block 28 and 21 top surface phase second wife of positioning groove 27, mating groove 23 and the first bootstrap block
It closes, the height and position of the exposed end of second optical fiber and horizontal position are depressed to come by the docking guide recess of V-arrangement, and are located at
With the identical height of the exposed end of previous optical fiber, then start welding electric arc 3, welding is carried out to two ends.
This specific embodiment is only explanation of the invention, is not limitation of the present invention, those skilled in the art
Member can according to need the modification that not creative contribution is made to the present embodiment after reading this specification, but as long as at this
All by the protection of Patent Law in the scope of the claims of invention.
Claims (10)
1. a kind of optical fiber splicer, including main body (1), it is provided on the main body (1) for carrying out positioning pair to optical fiber end
The alignment device (2) connect and the welding electric arc (3) for connecting optical fiber, it is characterised in that: also set up on the main body (1)
Have peeling component (4), the peeling component (4) includes placed channel (5), peeling actuator (41), bark knife (6), described fixed
Bit port (5) is set to main body (1) surface, and offers and protrude into placed channel from placed channel (5) side for bark knife (6)
(5) the feed slot (51) in, placed channel (5) outer wall are fixed with feed box (7), be equipped in the feed box (7) with into
The feed chamber (71) of cutter groove (51) connection, bark knife (6) are set in feed chamber (71) along placed channel (5) radial slippage, and
As sliding can be protruded by feed slot (51) in placed channel (5), the peeling actuator (41) includes along placed channel
(5) radial slippage is set to the drive rod on feed box (7), and one end of drive rod is protruded into feed chamber (71), and the other end stretches out
Side wall of the feed box (7) back to placed channel (5).
2. a kind of optical fiber splicer according to claim 1, it is characterised in that: the drive rod is provided with multiple and along fixed
The distribution of bit port (5) length direction, the length of the drive rod are sequentially reduced.
3. a kind of optical fiber splicer according to claim 2, it is characterised in that: the drive rod is located at feed box (7) outside
Part on be threaded with adjustment sheet (42).
4. a kind of optical fiber splicer according to claim 1, it is characterised in that: the peeling component (4) is provided with two groups
And placed channel (5) two sides are located at, the bark knife (6) includes semiorbicular blade (62) and knife handle (61), described
Blade (62) and knife handle (61) one end integrally connected, knife handle (61) other end penetrates in feed chamber (71) and setting contradicts plate
(63), plate (63) length is contradicted to extend along placed channel (5) length direction.
5. a kind of optical fiber splicer according to claim 4, it is characterised in that: the conflict plate (63) and feed chamber (71)
Back to be provided between the inner wall of placed channel (5) it is several along placed channel (5) length direction distribution reset springs (64), institute
It states one end of reset spring (64) and contradicts plate (63) and contradict, the inner wall of the other end and feed chamber (71) back to placed channel (5)
It contradicts.
6. a kind of optical fiber splicer according to claim 1, it is characterised in that: the alignment device (2) includes pedestal
(8), the first bootstrap block (21) and the second bootstrap block (22), the pedestal (8) is fixed and protrusion is set to main body (1) surface,
Pedestal (8) surface offers the positioning groove (81) placed for optical fiber, jagged (82) is arranged among pedestal (8), notch (82)
In be provided with the guide rod (83) being vertically arranged, the first bootstrap block (21) is set on guide rod (83), the second bootstrap block (22)
Sliding is set on guide rod (83) and is located above the first bootstrap block (21), and the second bootstrap block (22) bottom surface, which offers, matches
Close groove (23), first bootstrap block (21) and mating groove (23) are engaged by clamping, the first bootstrap block (21) top surface and
The docking guiding groove (24) placed for optical fiber naked section, the docking guiding groove are offered on second bootstrap block (22) bottom surface
(24) section is V-shaped, and first bootstrap block (21) and the second bootstrap block (22) two sides are offered for welding electric arc (3)
The welding mouth (26) protruded into.
7. a kind of optical fiber splicer according to claim 6, it is characterised in that: the first bootstrap block (21) sliding setting
In on guide rod (83), locating piece (84), the locating piece are provided between first bootstrap block (21) and guide rod (83)
It (84) include being threadedly connected to the first bootstrap block (21) and the positioning bolt of bottom end and guide rod (83) conflict.
8. a kind of optical fiber splicer according to claim 7, it is characterised in that: open the top surface of first bootstrap block (21)
Equipped with positioning groove (27), the bottom surface protrusion of second bootstrap block (22) is provided with locating convex block (28), the locating convex block
(28) it is located at the surface of positioning groove (27).
9. a kind of optical fiber splicer according to claim 6, it is characterised in that: the cell wall of docking guiding groove (24)
Lead-in chamfered (25) are provided between end face.
10. a kind of optical fiber splicer according to claim 4, it is characterised in that: be equipped with filling in the placed channel (5)
It covers (9), the position of the filling set (9) corresponding bark knife (6) offers the channel mobile for bark knife (6).
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CN110471142A (en) * | 2019-08-22 | 2019-11-19 | 一诺仪器(中国)有限公司 | A kind of core device with optical fiber propulsive mechanism |
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CN112526676A (en) * | 2020-12-04 | 2021-03-19 | 张艺帆 | Optical fiber sound wave communication method and device |
CN114200583A (en) * | 2021-10-21 | 2022-03-18 | 上海坤尚电子科技有限公司 | Improved optical fiber stripper |
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