CN207042893U - Optical fiber wipes folder - Google Patents
Optical fiber wipes folder Download PDFInfo
- Publication number
- CN207042893U CN207042893U CN201720767814.7U CN201720767814U CN207042893U CN 207042893 U CN207042893 U CN 207042893U CN 201720767814 U CN201720767814 U CN 201720767814U CN 207042893 U CN207042893 U CN 207042893U
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- Prior art keywords
- optical fiber
- dynamic chuck
- wipes
- flexure strip
- folder
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Abstract
Wipe and press from both sides the utility model discloses a kind of optical fiber, including fixed bottom plate, clamp head, dynamic chuck and the cleaning mechanism wiped for optical fiber, wherein, clamp head is fixed on fixed bottom plate, one end of dynamic chuck is rotatably connected with one end of clamp head, and the other end of the other end and clamp head of dynamic chuck relatively clamps cleaning mechanism jointly.Also include being used to adjust micro-adjusting mechanism and torque force adjusting mechanism that optical fiber wipes dynamics on dynamic chuck, micro-adjusting mechanism directly adjusts the clamping force of cleaning mechanism, torque force adjusting mechanism adjusts clamping force of the cleaning mechanism to optical fiber by adjusting the clamping force of dynamic chuck and clamp head, so as to wipe the optical fiber of different model.The utility model simulation human hand wipes the dynamics of optical fiber, ensures to wipe quality, avoids manual operation wiping force from spending macrolesion optical fiber or the too small first-pass yield for wiping sordid problem, effectively increasing fiber fuse of dynamics.
Description
【Technical field】
It the utility model is related to field fiber, and in particular to optical fiber cleaning applications, more particularly to a kind of optical fiber wipe folder.
【Background technology】
Optical fiber needs wiped clean before melting, and optical fiber surface will totally not influence the first-pass yield of fiber fuse.Mesh
Before, the cleaning of optical fiber is all manually to be wiped with non-dust cloth, because operating personnel wipe optical fiber and firmly varied, it is impossible to hold
Wiping dynamics:If wiping force is big, optical fiber will be scratched in wiping process, causes fused fiber splice first-pass yield low;And wiping force
Small, optical fiber just wipes not totally, similarly causes fused fiber splice first-pass yield low.Optical fiber wipes, and is directly connected to fused fiber splice
First-pass yield, want stable or improve fused fiber splice first-pass yield and must strictly control the power of optical fiber wiping and wipe clean
Degree.
【Utility model content】
The utility model is grasped not accurate enough technology for the dynamics of existing manual wipping optical fiber for prior art and asked
Topic, there is provided a kind of optical fiber wipes folder, and technical scheme is as follows:
The utility model embodiment provides a kind of optical fiber and wipes folder, including:
Fixed bottom plate;
The clamp head being fixed on the fixed bottom plate;
Dynamic chuck, one end and the first end of the clamp of the dynamic chuck are rotatably connected, the other end of the dynamic chuck
Other end activity with the clamp head clamps the cleaning mechanism for cleaning the optical fiber.
Preferably, the cleaning structure includes the first flexure strip, the second flexure strip and the wiping for wrapping up the optical fiber
Cloth, first flexure strip are located at the side of the nearly cleaning structure of clamp head rest, and the second flexure strip is located at the dynamic chuck and leaned on
The side of nearly cleaning structure, and the first flexure strip and the unilateral contact of the second elasticity clamp the cleaning wiping cloth to provide frictional force.
Preferably, the cleaning structure also includes the first connection-peg and the second connection-peg, and first connection-peg is located at institute
The upper surface on the top of the nearly cleaning structure of clamp head rest is stated, second connection-peg is located at the dynamic chuck close to cleaning structure
The upper surface on top, first connection-peg and the second connection-peg are respectively interposed the both ends of the cleaning wiping cloth with the fixation wiping
Cloth.
Preferably, first flexure strip and the second flexure strip are sponge, the hardness range of the sponge for 36 °-
40°。
Preferably, the clamp head is right-angle Z-shaped, is provided with through hole on in-between coupling part, on the through-hole side wall
Provided with the first fixing hole, one end of the dynamic chuck wears the through hole and the dynamic chuck be embedded in it is right in the side wall of the through hole
The position of first fixing hole is answered to be provided with the second fixing hole, the dynamic chuck is provided with towards the position of the via top side wall
Groove, the optical fiber, which wipes folder, also to be included being rotatably connected the clamp head and dynamic folder through the first fixing hole and the second fixing hole
The roller pin of head.
Preferably, the optical fiber, which wipes folder, also includes torsion spring, and the torsion spring is socketed in the roller pin and positioned at described
In through hole, the torsion spring both ends prolong side and abut the via top side wall and the bottom portion of groove side wall respectively.
Preferably, worn on the dynamic chuck and be provided with the pretightning force for adjusting the torsion spring on the one end side of the through hole
Torque force adjusting mechanism, the bottom portion of groove side wall is skewed and open up through hole, and the torque force adjusting mechanism is through described
Prolong side in one end that through hole supports the torsion spring.
Preferably, the dynamic chuck is step design, and step is respectively positioned on the same side of the clamp head and described dynamic
Chuck is located in same horizontal line close to one end of one end of cleaning structure and the nearly cleaning structure of clamp head rest.
Preferably, micro-adjusting mechanism is provided with ladder among the dynamic chuck, to adjust first flexure strip and second
The clamping dynamics of flexure strip, the middle ladder are located at the dynamic chuck close to the side of the cleaning structure.
Preferably, ladder is equipped with screwed hole among the dynamic chuck, and the micro-adjusting mechanism includes regulating bolt and the tune
Section bolt supports through the screwed hole with the clamp head.
The beneficial effect of torque force adjusting mechanism torque force adjusting mechanism the utility model embodiment is,
Light provided by the utility model, which wipes folder, includes fixed bottom plate, dynamic chuck, clamp head and cleaning mechanism, described solid
Determine bottom plate to be used to the fixed clamp head be installed, the dynamic chuck is connected by roller pin with the clamp head latch, moves chuck
Movable it can be rotated in the clamp head, and the top of the dynamic chuck and the clamping of the top of the clamp head are described clear
Clean mechanism, so as to grip optical fiber, the cleaning mechanism wipes for light.It is described fixed for adjusting also to include on the dynamic chuck
The clamping force of chuck and dynamic chuck, to adjust the wiping dynamics of optical fiber and to keep stable.
The utility model is pre-designed the dynamics wiped needed for optical fiber, there is provided light according to the concrete model and size of optical fiber
Fibre wipes folder, and one end of dynamic chuck and one end activity of clamp head clamp the cleaning mechanism for cleaning the optical fiber, due to clear
Clean mechanism is clamped by activity, can when needing to wipe grip optical fiber, optical fiber is removed into cleaning mechanism, cleaning mechanism after wiped clean
The dynamics of movable grip optical fiber is pre-designed, the dynamics that optical fiber can be kept to wipe, and is ensured to wipe quality, is avoided manual operation from wiping
The dynamics of wiping crosses macrolesion optical fiber or the too small sordid problem of wiping of dynamics, and optical fiber, which wipes, can more totally effectively increase optical fiber
The first-pass yield of melting.
【Brief description of the drawings】
One or more embodiments are illustrative by the picture in corresponding accompanying drawing, these exemplary theorys
The bright restriction not formed to embodiment, the element for having same reference numbers label in accompanying drawing are expressed as similar element, removed
Non- have a special statement, and composition does not limit the figure in accompanying drawing.
Fig. 1 is the schematic diagram of the part-structure blast for the optical fiber wiping folder that the utility model applies example offer.
Fig. 2 is the structural representation that the optical fiber that the utility model embodiment provides wipes folder.
Fig. 3 is the stereogram that the optical fiber that the utility model embodiment provides wipes folder.
Fig. 4 is the structural representation of the clamp head for the optical fiber wiping folder that the utility model applies example offer.
Fig. 5 is the top view of the clamp head for the optical fiber wiping folder that the utility model applies example offer.
Fig. 6 is the structural representation for the dynamic chuck that the optical fiber that the utility model embodiment provides wipes folder.
Fig. 7 is the top view of the dynamic chuck for the optical fiber wiping folder that the utility model applies example offer.
【Embodiment】
In order that the purpose of this utility model, technical scheme and advantage are more clearly understood, below in conjunction with accompanying drawing and implementation
Example, the utility model is further elaborated.It should be appreciated that specific embodiment described herein is only explaining this
Utility model, it is not used to limit the utility model.
Unless otherwise defined, technology all used in this specification and scientific terminology are with belonging to skill of the present utility model
The implication that the technical staff in art field is generally understood that is identical.In art used in the description of the present utility model in this specification
Language is intended merely to describe the purpose of specific embodiment, is not intended to limit the utility model.Art used in this specification
Language "and/or" includes the arbitrary and all combination of one or more related Listed Items.
As long as in addition, technical characteristic involved in each embodiment of the utility model disclosed below each other it
Between do not form conflict can be mutually combined.
As Figure 1-3, the optical fiber that the utility model embodiment provides, which wipes folder, includes that fixed bottom plate 1, clamp are first 3, move
Chuck 2 and cleaning mechanism 13.The clamp first 3 is fixed on the fixed bottom plate 1, one end of the dynamic chuck 2 with it is described fixed
One end of chuck 3 rotatably connects, and the other end of the dynamic chuck 2 relatively presss from both sides jointly with the other end of the clamp first 3
Hold the cleaning mechanism 13.
In use, alcohol appropriate in drop on the cleaning mechanism 13, presses the dynamic chuck 2, by the dynamic chuck 2
Separated with clamp first 3, the cleaning mechanism 13 wraps up optical fiber, and unclamping the dynamic chuck 2 makes its reset, by the cleaning mechanism 13
The optical fiber of parcel is clamped between the dynamic chuck 2 and clamp first 3, is then taken out from the cleaning mechanism 13 by optical fiber straight
Separate out and, repeat 2-3 times, complete the cleaning of optical fiber.
The utility model is pre-designed the dynamics wiped needed for optical fiber, there is provided light according to the concrete model and size of optical fiber
Fibre wipes folder, and one end of dynamic chuck 2 and one end activity of clamp first 3 clamp the cleaning mechanism 13 for cleaning the optical fiber, by
Clamped in cleaning mechanism 13 by activity, can when needing to wipe grip optical fiber, optical fiber is removed into cleaning mechanism 13 after wiped clean,
The dynamics of 13 movable grip optical fiber of cleaning mechanism is pre-designed, the dynamics that optical fiber can be kept to wipe, and is ensured to wipe quality, is avoided
Manual operation wiping force spends macrolesion optical fiber or the too small sordid problem of wiping of dynamics, and optical fiber wipes more totally can be effective
Improve the first-pass yield of fiber fuse.
Further, as shown in figure 1, the cleaning structure 13 includes the first flexure strip 131, the second flexure strip 132 and used
In the cleaning wiping cloth (not shown) for wrapping up the optical fiber, the flexure strip 132 of the first flexure strip 131 and second is bonded in opposite directions, is coordinated
Clamp the optical fiber of the cleaning wiping cloth parcel.Specifically, first flexure strip 131 is located at the clamp first 3 close to cleaning structure
13 side, the second flexure strip 132 are located at the dynamic chuck 2 close to the side of cleaning structure 13, the first flexure strip 131 and second
The contact of the face of flexure strip 132 clamps the cleaning wiping cloth, when pulling out, the cleaning wiping cloth energy by optical fiber straight to provide frictional force
It is enough to be stably clamped between the flexure strip 132 of the first flexure strip 131 and second, it will not be pulled out with optical fiber.
Further, the flexure strip 132 of the first flexure strip 131 and second is sponge, and hard in resilience in use
The sponge of degree, its hardness range are 36 ° -40 °.If the hardness of the flexure strip 132 of the first flexure strip 131 and second is excessive,
Can not only be deformed not enough because of the flexure strip 132 of the first flexure strip 131 and second so that optical fiber wipe it is not thorough, also can be because
Really up to the mark for the first flexure strip 131 and the second flexure strip 132, the two clamping can cause to damage to optical fiber, so as to influence fiber fuse
First-pass yield.In addition, middle recovery sponge can extend the life-span of sponge, extend the flexure strip of the first flexure strip 131 and second
Usage time.
Further, to cause the cleaning wiping cloth more firm, first flexure strip 131 will not be driven out by optical fiber
With the second flexure strip 132, the pollution that cleaning wiping cloth is unnecessary is caused, the cleaning structure 13 also includes the first connection-peg 21 and second
Connection-peg 31, first connection-peg 21 are fixed on first jack of the dynamic chuck 2 close to the top upper surface of cleaning structure 13
On 201, second connection-peg 31 is located at the clamp first 3 on the second jack 301 of the top upper surface of cleaning structure 13,
The connection-peg 31 of first connection-peg 21 and second is respectively interposed the both ends of the cleaning wiping cloth with the fixation cleaning wiping cloth.Certainly,
The both sides of the edge position of cleaning wiping cloth can set corresponding set hole site to be interted by the first connection-peg 21 and the second connection-peg 31.
Specifically, when interting into first connection-peg 21 and the second connection-peg 31, the cleaning wiping cloth can not stretch the cleaning wiping cloth
Between the connection-peg 31 of the first connection-peg 21 and second, part bending should be left in first flexure strip 131 and the
Between two flexure strips 132 so that the cleaning wiping cloth can wrap optical fiber with by the flexure strip of the first flexure strip 131 and second
132 clampings.
More specifically, the cleaning wiping cloth should drip when being punctured into first connection-peg 21 and the second connection-peg 31
Appropriate alcohol reduces the friction that optical fiber pulls out, while carry out cleaning treatment to optical fiber in the cleaning wiping cloth.Optical fiber pulls out
Afterwards, it is necessary to be cleaned to the flexure strip 132 of the first flexure strip 131 and second, the cleaning wiping cloth is then punctured into again
Optical fiber is wiped again on one connection-peg 21 and the second connection-peg 31, in this way, repeating 2-3 times, optical fiber cleaning treatment finishes, Ran Houqu
Under cleaning wiping cloth first flexure strip 131 and the second flexure strip 132 and the cleaning wiping cloth cleaned, ensure what is reused
Cleannes.
Preferably, the cleaning wiping cloth uses non-dust cloth, non-dust cloth soft surface, is easy to wipe sensing surface, has good
Water imbibition and cleaning efficiency.Certainly, the utility model be also not limited to using non-dust cloth carry out optical fiber wiping, as cleaning cloth,
Diablement fort etc. can wipe to optical fiber, and still, the flexibility of cleaning cloth and diablement fort etc. is not as good as non-dust cloth, diablement fort
Cleaning efficiency be also not so good as non-dust cloth, to sum up, the cleaning wiping cloth is more excellent scheme of the present utility model using non-dust cloth.
Further, as shown in Figure 4,5, the clamp head is right-angle Z-shaped structure, and in-between coupling part bottom is provided with
Through hole 302, the side wall of through hole 302 are provided with the first fixing hole 303, one end of the dynamic chuck 2 wear the through hole 302 and
The dynamic chuck 2, which is embedded in, to be corresponded to the position of first fixing hole 303 and is provided with the second fixing hole in the side wall of the through hole 302
203.As shown in figure 1, the roller pin 5 is rotatably connected the clamp head through the first fixing hole 303 and the second fixing hole 203
3 and dynamic chuck 2 so that the dynamic chuck 2 can rotate.The dynamic chuck 2 is pressed, separates first flexure strip 131 and the
Two flexure strips 132 so that optical fiber can be placed into the cleaning mechanism 13 and be cleaned.
In another embodiment, as shown in fig. 6, the dynamic chuck 2 is step design, step is respectively positioned on the clamp head
3 the same side and the dynamic chuck 2 are close to one end of cleaning structure 13 and the clamp first 3 close to one end of cleaning structure 13
In same horizontal line.
Specifically, the dynamic chuck 2 is designed as three-level ladder, wherein, bottom surface ladder passes through the through hole in the clamp first 3
302, the first fixing hole 303 and the second fixing hole 203 are communicated and fixed by the roller pin 5, so as to will the dynamic chuck 2 and
The clamp first 3 is fixed.The intergrade ladder of dynamic chuck 2 is located at the lower section of second flexure strip 132 contact, more specifically,
The top layer ladder of the dynamic chuck 2 the first flexure strip 131 with second elasticity it is unilateral contact when, the top with the clamp first 3
In same horizontal line so that the flexure strip 132 of the first flexure strip 131 and second is in same horizontal line, also causes described
First connection-peg 21 and the second grafting 31 are at same horizontal line, ensure that optical fiber can be clamped in first flexure strip
131 and second between flexure strip 132 and the chucking power that is subject to is stable, so as to ensure that optical fiber wipes quality.
In another embodiment, the extruding dynamics between the flexure strip 132 of the first flexure strip 131 and second is adjustable
, and then the wiping dynamics of optical fiber is adjusted, for the optical fiber of different model and size, optical fiber is wiped with different wiping dynamics.
Specifically, as shown in figs. 4-7, the bottom of dynamic chuck 2 is provided with towards the position of the top sidewall of through hole 302
Groove 204, a torsion spring 4 is also arranged in the roller pin 5, and the both ends of torsion spring 4 prolong side and abut the top of through hole 302 respectively
Side wall and the bottom surface side wall of the groove 204, i.e., described torsion spring 4 are socketed in the roller pin 5 and in the through holes 302.
Further, it is provided with torsion on the one end side of the through hole 302 as shown in figure 4, being worn on the dynamic chuck 2
Governor motion 10, the bottom surface side wall of the dynamic chuck 2 is skewed, and the angle of inclination of the bottom surface side wall of dynamic chuck 2 makes close to torsion
The bottom surface side wall of power governor motion 10 is higher.It is big that the bottom surface side wall of dynamic chuck 2 is provided with an adaptation torque force adjusting mechanism 10
Small through hole 205, the i.e. through hole 205 can be passed through the bottom surface side wall of groove 204 by torque force adjusting mechanism 10.More
Body, the side of prolonging that the torsion spring 4 is connected to the bottom surface side wall of groove 204 is contradicted in the bottom surface of the torque force adjusting mechanism 10,
With the torque force adjusting mechanism 10 step up or relaxation adjusts the pretightning force of the torsion spring 4, and then adjust described first
The chucking power of the flexure strip 132 of flexure strip 131 and second.Specifically, torque force adjusting mechanism 10 is torsion set screw, through hole
205 be tapped through hole, naturally it is also possible to the structure of other non-threaded cooperations is designed, can be spacing such as the limited block of adjustable position
The gear of relative motion etc. realize torsion adjustment effect, the utility model is without limitation.
Further, micro-adjusting mechanism 14 is provided with the intergrade ladder of the dynamic chuck 2, by adjusting the dynamic chuck
2 and clamp first 3 distance so that adjust the clamping dynamics of the flexure strip 132 of the first flexure strip 131 and second.Specifically, such as
Shown in Fig. 1, the micro-adjusting mechanism 14 is adjusted for screw, including regulating bolt, the middle ladder of the dynamic chuck 2 are equipped with screw thread
Hole 203, regulating bolt pass through the screwed hole 203, contradict and the micro-adjusting mechanism 14 is twisted in the bottom of the clamp first 2 to adjust
The clamping dynamics bottom of the flexure strip 132 of the first flexure strip 131 and second is saved, tightens regulating bolt upwards, by the dynamic folder
First 2 somewhat strut away from the clamp first 3, the relaxation flexure strip 132 of the first flexure strip 131 and second, in order to avoid the dynamics of wiping
It is excessive and damage optical fiber;It is downward then on the contrary, regulating bolt allows the dynamic chuck 2 to be slightly closer to the clamp first 3, further clamp
The flexure strip 132 of first flexure strip 131 and second, ensure optical fiber wiped clean.
In certain embodiments, micro-adjusting mechanism 14 and the collective effect of torque force adjusting mechanism 10, are adjusted respectively as needed, with
The default clamping dynamics between the first flexure strip and the second flexure strip needed for realizing.
Preferably, the utility model can coordinate pressometer adjust micro-adjusting mechanism 14 and torque force adjusting mechanism 10 with
Adjust the clamping force between the dynamic chuck 2 and clamp first 3 so that the dynamics that optical fiber wipes is maintained between 3-4N, ensures folder
Holding force is stable and wipes quality.
Summary, the specific optical fiber of the present embodiment wipe step and are:
1st, micro-adjusting mechanism 14 and torque force adjusting mechanism 10 are adjusted using preceding combination pressure meter to adjust chucking power so that
Optical fiber wipes dynamics control in 3~4N, by observing optical fiber, optical fiber surface not damaged;
2nd, cleaning mechanism 13, clamp first 3 and dynamic chuck 2 described in alcohol washes, particularly the first flexure strip 131 and second
Flexure strip 132 pollutes optical fiber, it is necessary to clean up when avoiding subsequently using;
3rd, in use, pressing the dynamic chuck 2 with hand, separate chuck 2 and clamp first 3, so as to separate described first
The flexure strip 132 of flexure strip 131 and second;
4th, the both ends of the cleaning wiping cloth are put on the connection-peg 31 of the first connection-peg 21 and second, pay attention to the wiping
Cloth can not be stretched between the connection-peg 31 of the first connection-peg 21 and second, should part Chui Liuchuiliu so as to when described first
The flexure strip 132 of flexure strip 131 and second can be wrapped up when being bonded fibre clip the first flexure strip 131 and the second flexure strip 132 it
Between, suitable alcohols are in the cleaning wiping cloth in drop;
The 5th, optical fiber to be wiped is put in the cleaning wiping cloth hung down and stay bending between the flexure strip of the first flexure strip 131 and second
On, unclamp the dynamic chuck 2, by the cleaning wiping cloth encase fibre clip the flexure strip 132 of the first flexure strip 131 and second it
Between;
6th, extract out optical fiber is straight from the cleaning mechanism 13;
7th, the cleaning wiping cloth is removed, the flexure strip of the first flexure strip 131 and second is cleaned, again in the first connection-peg 21
With put on the both ends of plugging the cleaning wiping cloth respectively on the second connection-peg 31, for suitable alcohols in cleaning wiping cloth, circulation is above-mentioned in drop
Step 5,6 wipe optical fiber 2~3 times;
8th, put the cleaning wiping cloth away, chuck 2, first 3, first flexure strip 131 of clamp and the second bullet are moved described in alcohol washes
Property piece 132, so that next use will not make optical fiber dirty.
The present embodiment adjusts first flexure strip 131 and by micro-adjusting mechanism 14 or the torque force adjusting mechanism 10
Clamping force between two flexure strips 132 so that the utility model can clean to the optical fiber of different model, ensure that optical fiber
Uniformity, controllability, the controllability of wiping dynamics, avoid optical fiber wiping force from spending macrolesion optical fiber, improve fused fiber splice
First-pass yield.Torque force adjusting mechanism 10 can also be adjusted simultaneously, periodically point inspection regulation, makes between the dynamic chuck 2 and clamp first 3
Chucking power is stable, ensures that optical fiber provided by the utility model wipes wiping quality of the folder to optical fiber.
Preferred embodiment of the present utility model is the foregoing is only, it is all at this not to limit the utility model
All any modification, equivalent and improvement made within the spirit and principle of utility model etc., should be included in the utility model
Protection domain within.
Claims (10)
1. a kind of optical fiber wipes folder, it is characterised in that including:
Fixed bottom plate;
The clamp head being fixed on the fixed bottom plate;
Dynamic chuck, one end and the first end of the clamp of the dynamic chuck are rotatably connected, the other end of the dynamic chuck and institute
The other end activity for stating clamp head clamps cleaning mechanism for cleaning the optical fiber.
2. optical fiber as claimed in claim 1 wipes folder, it is characterised in that the cleaning structure includes the first flexure strip, second
Flexure strip and the cleaning wiping cloth for wrapping up the optical fiber, first flexure strip are located at the side of the nearly cleaning structure of clamp head rest
Face, the second flexure strip are located at the dynamic chuck close to the side of cleaning structure, and the first flexure strip and the second unilateral contact of elasticity
The cleaning wiping cloth is clamped to provide frictional force.
3. optical fiber as claimed in claim 2 wipes folder, it is characterised in that the cleaning structure also includes the first connection-peg and the
Two connection-pegs, first connection-peg are located at the upper surface on the top of the nearly cleaning structure of clamp head rest, second grafting
Head is respectively interposed positioned at the dynamic chuck close to the upper surface on the top of cleaning structure, first connection-peg and the second connection-peg
The both ends of the cleaning wiping cloth are with the fixation cleaning wiping cloth.
4. optical fiber as claimed in claim 2 wipes folder, it is characterised in that first flexure strip and the second flexure strip are sea
Silk floss, the hardness range of the sponge is 36 ° -40 °.
5. optical fiber as claimed in claim 1 wipes folder, it is characterised in that the clamp head is right-angle Z-shaped, in-between connecting portion
Through hole is provided with point, the through-hole side wall is provided with the first fixing hole, and one end of the dynamic chuck wears the through hole and institute
State chuck and be embedded in and the position of first fixing hole is corresponded in the side wall of the through hole be provided with the second fixing hole, the dynamic chuck
Groove is provided with towards the position of the via top side wall, the optical fiber, which wipes folder, also to be included consolidating through the first fixing hole and second
Determine hole to be rotatably connected the roller pin of the clamp head and dynamic chuck.
6. optical fiber as claimed in claim 5 wipes folder, it is characterised in that the optical fiber, which wipes folder, also includes torsion spring, the torsion
Spring is socketed in the roller pin and in the through hole, the torsion spring both ends prolong side and abut the via top side wall respectively
With the bottom portion of groove side wall.
7. optical fiber as claimed in claim 6 wipes folder, it is characterised in that a side of the through hole is worn on the dynamic chuck
It is provided with the torque force adjusting mechanism for the pretightning force for adjusting the torsion spring on face, the bottom portion of groove side wall is skewed and open up and wear
Side is prolonged in open-work, one end that the torque force adjusting mechanism supports the torsion spring through the through hole.
8. optical fiber as claimed in claim 1 wipes folder, it is characterised in that the dynamic chuck is step design, the equal position of step
In the same side of the clamp head and the dynamic chuck is close to one end of cleaning structure and the nearly cleaning structure of clamp head rest
One end be located in same horizontal line.
9. optical fiber as claimed in claim 2 wipes folder, it is characterised in that is provided with freqency fine adjustment machine on ladder among the dynamic chuck
Structure, to adjust the clamping dynamics of first flexure strip and the second flexure strip, it is close that the middle ladder is located at the dynamic chuck
The side of the cleaning structure.
10. optical fiber as claimed in claim 9 wipes folder, it is characterised in that ladder is equipped with screwed hole among the dynamic chuck,
The micro-adjusting mechanism includes regulating bolt and the regulating bolt supports through the screwed hole with the clamp head.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201720767814.7U CN207042893U (en) | 2017-06-28 | 2017-06-28 | Optical fiber wipes folder |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN201720767814.7U CN207042893U (en) | 2017-06-28 | 2017-06-28 | Optical fiber wipes folder |
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CN207042893U true CN207042893U (en) | 2018-02-27 |
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Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN111386482A (en) * | 2018-11-06 | 2020-07-07 | 四川灼识科技股份有限公司 | Optical fiber wire stripper, assembly thereof and method of use |
CN112525817A (en) * | 2020-12-09 | 2021-03-19 | 南京华信藤仓光通信有限公司 | Optical fiber wiping mechanism for detecting coating quality of optical fiber and online detection device |
CN113857153A (en) * | 2021-11-21 | 2021-12-31 | 湖南玖芯光电科技有限公司 | Optical fiber end face cleaning method and device |
-
2017
- 2017-06-28 CN CN201720767814.7U patent/CN207042893U/en active Active
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN111386482A (en) * | 2018-11-06 | 2020-07-07 | 四川灼识科技股份有限公司 | Optical fiber wire stripper, assembly thereof and method of use |
CN112525817A (en) * | 2020-12-09 | 2021-03-19 | 南京华信藤仓光通信有限公司 | Optical fiber wiping mechanism for detecting coating quality of optical fiber and online detection device |
CN113857153A (en) * | 2021-11-21 | 2021-12-31 | 湖南玖芯光电科技有限公司 | Optical fiber end face cleaning method and device |
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