CN208766334U - A kind of coalignment of fibre-optical splice and flange adaptor - Google Patents

Abstract

The utility model provides the coalignment of a kind of fibre-optical splice and flange adaptor.Coalignment is for determining whether fibre-optical splice matches with flange adaptor.The first coalignment includes the first electronic tag and the second electronic tag, and first electronic tag with the identification information in second electronic tag for matching；First electronic tag is fixed on fibre-optical splice by pin thread, and the second electronic tag is fixed on flange adaptor by female thread.Another kind provided by the utility model applies also for the coalignment under the scene equipped with multiple flange adaptors side by side, with above-mentioned coalignment the difference is that, female thread is replaced by busbar in this device, there are multiple label setting tables on busbar, label setting table is connected by fixing seat, and the multiple of fixing seat side are caught in bar, are caught in bar and are caught in adjacent two flange adaptor, busbar can either be made mutually to fix with flange adaptor, and flange adaptor and label setting table can be made to correspond.

Description

A kind of coalignment of fibre-optical splice and flange adaptor

Technical field

The utility model belongs to domain of communication equipment, and the matching more particularly to a kind of fibre-optical splice and flange adaptor fills It sets.

Background technique

In wireline communication network in the managing and maintaining of various routes, mainly by sticking one on every communication line A paper labels carry out identification management.This paper labels are easy the erosion by water, dust storm etc., and the time, slightly long point will go out It is existing it is smudgy, be difficult to the problem of recognizing.

Whether especially needed determining optical fiber matches with ring flange, needs manually to identify respectively and compile on optical fiber label and ring flange Number whether correspond to, this process is miscellaneous and easy error.

Utility model content

The purpose of this utility model is that in view of the drawbacks of the prior art or problem, a kind of assembling structure is provided, is based on The fast matching method and Rapid matching system of RFID technique.

The technical solution of the utility model is as follows:

A kind of coalignment of fibre-optical splice and flange adaptor, for determine fibre-optical splice and flange adaptor whether Match.Including, the first electronic tag and the second electronic tag, first electronic tag be used for in second electronic tag Identification information match.

Pin thread, including for placing the first electronic tag the first label setting table, with the first label setting table is fixed connects The first clamping part connect, first clamping part are made of elastic material, have for receive the fibre-optical splice and with it is described The side wall of the first fixed holding channel of fibre-optical splice phase interference, first clamping part is equipped with the first slit, and described first is narrow Slot is for enabling first clamping part to be caught in from the optical fiber cable part of the fibre-optical splice, so that first accommodating is logical Road can be fixed to the fibre-optical splice in the case where not needing suspension.

Female thread, including the second clamping part and the second label setting table being arranged on second clamping part, described Two label setting tables are for placing the second electronic tag；Second clamping part is made of elastic material, has for receiving The flange adaptor and second holding channel fixed with the flange adaptor phase interference, the side wall of second clamping part Equipped with the second slit, second slit is for enabling optical fiber cable part of second clamping part from the fibre-optical splice It is caught in, so that second holding channel can be fixed to the flange adaptor in the case where not needing suspension.

Preferably, first clamping part includes the first side wall, is separately positioned on the second side at the first side wall both ends Wall and third side wall and the first side wall are oppositely arranged and have the 4th side wall of the first slit, the second sidewall and institute Third side wall is stated respectively with the first side wall in 87 degree~89 degree angles.

Preferably, the second sidewall and the third side wall are in respectively 88.5 degree of angles with the first side wall.

Preferably, the second sidewall arc-shaped shape setting of fibre-optical splice corresponding with the middle part of the third side wall, And the wall thickness of the second sidewall and the third side wall is 1.1mm~1.3mm, the second sidewall and the third side wall Lateral wall is respectively equipped with reinforcing rib, and the reinforcing rib is extended by the first side wall end towards second sidewall end.

Preferably, the inner sidewall of first clamping part has multiple radial ribs and multiple axial ribs, the radial direction Rib and the axial ribs with the fibre-optical splice for abutting against.

Preferably, the radial ribs are staggered on the axial direction of first holding channel with the axial ribs It opens.

Preferably, one end close to the radial ribs of first holding channel is equipped with inner chamfer, the inner chamfer For C0.6.

Preferably, being caught in for second clamping part holds opposite two sidewalls to all have inclined surface, and the inclined surface is by one Side to the other side is in 28~32 degree of angular upper inclinations.

The utility model also provides the coalignment of another fibre-optical splice and flange adaptor, multiple for being equipped with side by side Under the scene of flange adaptor, determine whether fibre-optical splice matches with flange adaptor.Including, multiple first electronic tags and Multiple second electronic tags, each first electronic tag are used for and the identification information in corresponding second electronic tag Match.

Multiple pin threads, including the first label setting table, solid with the first label setting table for placing the first electronic tag Surely the first clamping part connected, first clamping part are made of elastic material, have for receive the fibre-optical splice and with The first fixed holding channel of the fibre-optical splice phase interference, the side wall of first clamping part are equipped with the first slit, and described the One slit is for enabling first clamping part to be caught in from the optical fiber cable part of the fibre-optical splice, so that described first holds The fibre-optical splice can be fixed in the case where not needing suspension by setting channel；

Busbar, including for it is multiple place the second electronic tag third label setting tables, third label to be arranged Platform, which is fixedly connected with fixing seat in line, is fixed at the multiple of the fixing seat side is caught in bar, described to be caught in bar use In being caught between adjacent two flange adaptor, so that the busbar is mutually fixed with flange adaptor.

Preferably, first clamping part includes the first side wall, is separately positioned on the second side at the first side wall both ends Wall and third side wall and the first side wall are oppositely arranged and have the 4th side wall of the first slit, the second sidewall and institute Third side wall is stated respectively with the first side wall in 87 degree~89 degree angles；The middle part of the second sidewall and the third side wall The corresponding arc-shaped shape setting of the fibre-optical splice, and the wall thickness of the second sidewall and the third side wall be 1.1mm~ The lateral wall of 1.3mm, the second sidewall and the third side wall is respectively equipped with reinforcing rib, and the reinforcing rib is by the first side Wall end extends towards second sidewall end.

Technical solution provided by the utility model has the following beneficial effects:

A kind of coalignment provided by the utility model passes through the setting information on fibre-optical splice and flange adaptor respectively Matched electronic tag keeps its people more convenient when detection fiber connector is with flange adaptor, as long as and electronic tag It itself is not destroyed, some external spots do not influence, therefore will not occur obscuring not because of the erosion by water, dust storm etc. Clearly, it is difficult to the problem of recognizing.

First electronic tag and fibre-optical splice are fixed together by this coalignment by the clamping part of pin thread, the public affairs The clamping part of button is made of elastic material, and has a slit, by the slit, pin thread can in the case where not suspension, It is caught on fibre-optical splice from the optical fiber cable part of the fibre-optical splice, to complete to fix.The card that this coalignment passes through female thread First electronic tag and flange adaptor are fixed together by buckle, and the clamping part of the female thread is made of elastic material, and And there is a slit, by the slit, female thread can be in the case where not suspension, from the optical fiber cable part card of the fibre-optical splice Enter, fibre-optical splice is slipped over by the through-hole in clamping part, buckles and fix with flange adaptor.

Another kind provided by the utility model applies also for the matching dress under the scene equipped with multiple flange adaptors side by side It sets, exists with above-mentioned coalignment difference, female thread is replaced by busbar in this device, there is the setting of multiple labels on busbar Platform, label setting table are connected by fixing seat, and the multiple of fixing seat side are caught in bar, are caught in bar and are caught in adjacent two flanges adaptation Device can either make busbar mutually fix with flange adaptor, and flange adaptor and label setting table can be made to correspond.

Detailed description of the invention

Fig. 1 is the attachment structure schematic diagram of fibre-optical splice and flange adaptor；

Fig. 2 is the first viewing angle constructions schematic diagram of pin thread provided by the embodiment of the utility model；

Fig. 3 is the second viewing angle constructions schematic diagram of pin thread provided by the embodiment of the utility model；

Fig. 4 is the first viewing angle constructions schematic diagram of female thread provided by the embodiment of the utility model；

Fig. 5 is the first viewing angle constructions schematic diagram of female thread provided by the embodiment of the utility model；

Fig. 6 is the using state structure diagram for the coalignment that the utility model first embodiment provides；

Fig. 7 is the using state structure diagram for the coalignment that the utility model first embodiment provides；

Fig. 8 is the partial enlargement diagram at the position A1 of Fig. 7；

Fig. 9 is the first viewing angle constructions schematic diagram of busbar provided by the embodiment of the utility model；

Figure 10 is the using state structure diagram for the coalignment that the utility model second embodiment provides；

Figure 11 is the using state structure diagram for the coalignment that the utility model second embodiment provides.

Appended drawing reference:

Fibre-optical splice X1, flange adaptor X2, pallet X3；

First electronic tag 1, the second electronic tag 2,

Pin thread 3, the first label setting table 31, the first clamping part 32, the first slit 33, the first side wall 41, second sidewall 42, Third side wall 43, the 4th side wall 44, curved portion 45, reinforce rib 46, radial ribs 47, axial ribs 48,

Female thread 5, the second clamping part 51, the second label setting table 52, the second slit 53, inclined surface 54；

Busbar 6, fixing seat 62, is caught in bar 63, flange 64 at third label setting table 61.

Specific embodiment

In order to make the purpose of the utility model, technical solutions and advantages more clearly understood, below in conjunction with attached drawing and implementation Example, the present invention will be further described in detail.It should be appreciated that specific embodiment described herein is only used to explain The utility model is not used to limit the utility model.

The description of specific distinct unless the context otherwise, element and component in the utility model, quantity both can be single Form exist, form that can also be multiple exists, and the utility model is defined not to this.Step in the utility model Although being arranged with label, be not used to limit the precedence of step, unless expressly stated the order of step or Based on the execution of person's step needs other steps, otherwise the relative rank of step is adjustable.It is appreciated that this Term "and/or" as used herein one of is related to and covers associated listed item or one or more of any and institute Possible combination.

Embodiment 1:

Please refer to Fig. 1 to Fig. 8, a kind of coalignment of fibre-optical splice X1 and flange adaptor X2, for determining that optical fiber connects Whether head X1 matches with flange adaptor X2.

Including the first electronic tag 1, the second electronic tag 2, pin thread 3 and female thread 5.

First electronic tag 1 with the identification information in second electronic tag 2 for matching.Using electronics mark Label carry out the pairing of two items, and it has been the prior art, such as two RFID electronic label that the identification information of both, which matches, Phase information matches.Therefore, electronic tag of information matches itself is not the inventive point of the utility model, the invention of the utility model Point is to determine whether fibre-optical splice X1 matches with flange adaptor X2 using the information matches function of electronic tag.

Electronic tag itself has certain electronic original part, generally planar.Fibre-optical splice X1 and flange adaptor X2 Outer surface be arc shape, therefore, fibre-optical splice X1 and flange adaptor X2 itself can not directly use electronic tag.

Pin thread 3, including the first label setting table 31 and the first label setting table 31 for placing the first electronic tag 1 The first clamping part 32 being fixedly connected, first clamping part 32 are made of elastic material, which can be with rubber, plastics Or flexible metal etc., the elastic material uses plastics in the present embodiment, can specifically use ABS PC material Material, the material have certain elasticity, facilitate buckle, and will not scratch fibre-optical splice X1, it is not easy to be corroded.

First clamping part 32 have for receive the fibre-optical splice X1 and with the fibre-optical splice X1 phase interference it is fixed First holding channel.First holding channel is it can be appreciated that the first clamping part 32 has the through-hole of a perforation or more.

The side wall of first clamping part 32 is equipped with the first slit 33, and first slit 33 is used for so that first card Buckle 32 can be caught in from the optical fiber cable part of the fibre-optical splice X1, so that first holding channel can not need The fibre-optical splice X1 is fixed in the case where suspension.

In the present embodiment, the diameter of optical fiber cable of the width of the first slit 33 less than fibre-optical splice X1, and the first card The lateral wall of buckle 32 is equipped with the lead-in chamfered towards 33 inner inclination of the first slit.Since the first clamping part 32 is by elastic material Material is constituted, therefore, in buckle, by the alignment optical fiber cable indentation of the first slit 33, under the action of lead-in chamfered, the first slit 33 Two sides can flexibly open under external force, and optical fiber cable is snapped into the first holding channel in the first clamping part 32 immediately It is interior, the first clamping part 32 reinstatement when external force disappears after being caught in.Since clamping part itself uses ABS PC material, With certain elasticity, concurrently it is not easy to deform, therefore, lead-in chamfered, which exists, can be convenient being caught in for optical fiber cable, and Since clamping part itself is not easy deformation, and the width of the first slit 33 is less than the diameter of the optical fiber cable of fine connector, therefore, when it When first holding channel is slid on fibre-optical splice X1, buckled with the position that fibre-optical splice X1 is relatively large in diameter, it is not easy to it falls off, Increase service life and anti-blown sand ability.

Specifically, the width of the first slit 33 can be 2.6mm.

Female thread 5, including the second clamping part 51 and the second label setting table 52 being arranged on second clamping part 51, The second label setting table 52 is for placing the second electronic tag 2.

Second clamping part 51 is made of elastic material, which can be with rubber, plastics or flexible Metal etc., the elastic material uses plastics in the present embodiment, can specifically use ABS PC material, which has Certain elasticity facilitates buckle, and will not scratch fibre-optical splice X1, it is not easy to be corroded.

With for receiving the flange adaptor X2 and second accommodating fixed with the flange adaptor X2 phase interference Channel, second holding channel is it can be appreciated that the second clamping part 51 has the through-hole of a perforation or more.The through-hole it is straight The lateral wall of diameter and flange adaptor X2 matches, therefore is greater than the outer diameter of fibre-optical splice X1.

The side wall of second clamping part 51 is equipped with the second slit 53, and second slit 53 is used for so that second card Buckle 51 can be caught in from the optical fiber cable part of the fibre-optical splice X1, so that second holding channel can not need The flange adaptor X2 is fixed in the case where suspension.

In actual use, first female thread 5 is caught in from the optical fiber cable part of the fibre-optical splice X1, by clamping part Through-hole slips over fibre-optical splice X1, buckles and fixes with flange adaptor X2.It is again that pin thread 3 is electric by first by the clamping part of female thread 5 Subtab 1 and flange adaptor X2 are fixed together.

Since the dust storm that female thread 5 is received is smaller, and pin thread 3, above female thread 5, therefore, pin thread 3 can prevent female thread 5 upward Mobile and be detached from therefore in the present embodiment, the width of the second slit 53 is greater than the diameter of optical fiber cable.It is more convenient to use, it can be with It is directly caught in, and is not concerned about and falls off, loosen risk.

In other embodiments, the width of the second slit 53 might be less that or equal to optical fiber cable diameter.

Specifically, please refer to Fig. 2 and Fig. 3, first clamping part 32 includes the first side wall 41, is separately positioned on described the The second sidewall 42 and third side wall 43 at 41 both ends of one side wall are oppositely arranged with the first side wall 41 and have the first slit 33 The 4th side wall 44.Wherein, the second sidewall 42 and the third side wall 43 respectively with the first side wall 41 in 87 degree~ 89 degree of angles.By the angle, it can play and be gradually reduced on the direction of 41 to the 4th side wall 44 of the first side wall, second sidewall 42 With the spacing dimension of third side wall 43, especially at the 4th side wall 44, and then generate by common clamping force to heavier clamping The buckle fixed force of the incremental relationship of power, thus fixed card buckle.

Wherein preferably, the second sidewall 42 and the third side wall 43 are in respectively 88.5 degree with the first side wall 41 Angle.

Referring to FIG. 3, the second sidewall 42 fibre-optical splice X1 corresponding with the middle part of the third side wall 43 is in arc Shape is arranged, i.e. curved portion 45 in Fig. 3.The curved portion 45 can be convenient for being caught in fibre-optical splice X1 across optical fiber cable, specifically , referring to FIG. 1, the junction of fibre-optical splice X1 and optical fiber cable be it is round table-like, two sides curved portion 45 formed circular hole can be right The quasi-fiber connector X1 round-like structure, therefore, the curved portion 45 can be convenient for being caught in fibre-optical splice X1 across optical fiber cable.

In the present embodiment, the circular hole that two sides curved portion 45 is formed is 8.5 circular hole of diameter, is adapted with fibre-optical splice X1.

And the range of the wall thickness of the second sidewall 42 and the third side wall 43 is between 1.1mm~1.3mm, this reality It applies in example as wall thickness 1.2mm.The lateral wall of the second sidewall 42 and the third side wall 43, which is respectively equipped with, reinforces rib 46, institute It states reinforcing rib 46 and is extended by 41 end of the first side wall towards 42 end of second sidewall.Therefore, the first clamping part 32 has enough stress Fibre-optical splice X1 is clamped with intensity, will not be loosened, it is not easy to be destroyed.

Wherein it is preferred to which the inner sidewall of first clamping part 32 has multiple radial ribs 47 and multiple axial ribs 48, the radial ribs 47 and the axial ribs 48 with the fibre-optical splice X1 for abutting against.It can further prevent Fibre-optical splice X1 is mobile relative to 3 left-right and front-back of pin thread.

Further, the radial ribs 47 are with the axial ribs 48 on the axial direction of first holding channel It is staggered.On the entrance of radial ribs 47 is first passed through when can make to be caught in, afterwards by axial ribs 48, be segmented stress, facilitate access for. In the present embodiment, radial ribs 47 and axial ribs 48 are at dislocation 1.5mm.

Also, one end close to the radial ribs 47 of first holding channel is equipped with inner chamfer, the inner chamfer For C0.6.By inner chamfer, pin thread 3 is facilitated smoothly to be caught in fibre-optical splice X1.

It should be noted that the table top of the first label setting table 31 be it is planar, to facilitate and the first electronic tag 1 is fixed Connection, in the present embodiment, the first label setting table 31 is fixedly connected with the first side wall 41, and the first electronic tag 1 passes through bonding Mode is fixedly connected with the table top of the first label setting table 31.

Fig. 7 and Fig. 8 are please referred to, flange adaptor X2 is mounted on pallet X3, is often in certain with pallet X3 Angle, such as 30 degree.

Fig. 5 to Fig. 6 is please referred to, in the present embodiment, being caught in for second clamping part 51 holds opposite two sidewalls to have There is inclined surface 54, the inclined surface 54 is by the angular upper inclination in 30 degree of side to the other side.To cooperate pallet X3 to assemble.

Embodiment 2:

Fig. 9 is please referred to Figure 11.Device provided by the utility model embodiment, in addition to replacing female thread 5 with busbar 6, The technical effect and embodiment 1 of realization principle and generation is identical, and to briefly describe, the present embodiment does not refer to place, can refer to reality Apply corresponding contents in example 1.

A kind of coalignment of fibre-optical splice X1 and flange adaptor X2, for being equipped with multiple flange adaptor X2's side by side Under scene, determine whether fibre-optical splice X1 matches with flange adaptor X2.Including multiple first electronic tags 1 and multiple Two electronic tags 2, each first electronic tag 1 are used for and the identification information phase in corresponding second electronic tag 2 Matching.

Multiple pin threads 3, including the first label setting table 31 and the setting of the first label for placing the first electronic tag 1 The first clamping part 32 that platform 31 is fixedly connected, first clamping part 32 are made of elastic material, have for receiving the light Fine connector X1 and first holding channel fixed with the fibre-optical splice X1 phase interference, the side wall of first clamping part 32 are equipped with First slit 33, first slit 33 is for enabling first clamping part 32 from the optical fiber cable of the fibre-optical splice X1 Part is caught in, so that first holding channel can be fixed to the fibre-optical splice X1 in the case where not needing suspension.

Busbar 6, including for multiple third label setting tables 61 for placing the second electronic tag 2, to by third label Setting table 61, which is fixedly connected with fixing seat 62 in line, is fixed at the multiple of 62 side of fixing seat is caught in bar 63, The bar 63 that is caught in is for being caught between adjacent two flange adaptors X2, so that the busbar 6 is fixed with flange adaptor X2 phase, Meanwhile third label setting table 61 and flange adaptor X2 are corresponded.Facilitate the second electronic tag 2 and the first electronic tag 1 Do matching inquiry.

Female thread 5 is replaced by busbar 6 in this device, there are multiple label setting tables on busbar 6, label setting table passes through solid Reservation 62 connects, and the multiple of 62 side of fixing seat are caught in bar 63, are caught in bar 63 and are caught in adjacent two flange adaptors X2, can either make It obtains busbar 6 to fix with flange adaptor X2 phase, and flange adaptor X2 and label setting table can be made to correspond.

Fig. 9 and Figure 11 are please referred to, the fixing seat 62 of the busbar 6 also has flanging 64, therefore the present apparatus can also pass through The downside of flanging 64 is supported on pallet X3 and bears gravity.

Further, the downside of the flanging 64 has adhesive layer.It is convenient to be fixedly connected with pallet X3.

It is obvious to a person skilled in the art that the present invention is not limited to the details of the above exemplary embodiments, and And without departing substantially from the spirit or essential attributes of the utility model, it can realize that this is practical new in other specific forms Type.Therefore, in all respects, the present embodiments are to be considered as illustrative and not restrictive, this is practical new The range of type is indicated by the appended claims rather than the foregoing description, it is intended that containing for the equivalent requirements of the claims will be fallen in All changes in justice and range are embraced therein.It should not treat any reference in the claims as limiting Related claim.

In addition, it should be understood that although this specification is described in terms of embodiments, but not each embodiment is only wrapped Containing an independent technical solution, this description of the specification is merely for the sake of clarity, and those skilled in the art should It considers the specification as a whole, the technical solutions in the various embodiments may also be suitably combined, forms those skilled in the art The other embodiments being understood that.

Claims (10)

1. the coalignment of a kind of fibre-optical splice and flange adaptor, for determine fibre-optical splice and flange adaptor whether Match；

It is characterised in that it includes

First electronic tag and the second electronic tag, first electronic tag are used for and the mark in second electronic tag Know information to match；

Pin thread, including for placing the first electronic tag the first label setting table, be fixedly connected with the first label setting table First clamping part, first clamping part are made of elastic material, have for receive the fibre-optical splice and with the optical fiber The first fixed holding channel of connector phase interference, the side wall of first clamping part are equipped with the first slit, and first slit is used In enabling first clamping part to be caught in from the optical fiber cable part of the fibre-optical splice, so that the first holding channel energy It is enough that the fibre-optical splice is fixed in the case where not needing suspension；

Female thread, including the second clamping part and the second label setting table being arranged on second clamping part, second mark Label setting table is for placing the second electronic tag；Second clamping part is made of elastic material, has described for receiving Flange adaptor and second holding channel fixed with the flange adaptor phase interference, the side wall of second clamping part are equipped with Second slit, second slit is for enabling optical fiber cable part card of second clamping part from the fibre-optical splice Enter, so that second holding channel can be fixed to the flange adaptor in the case where not needing suspension.

2. coalignment according to claim 1, which is characterized in that first clamping part includes the first side wall, respectively The second sidewall at the first side wall both ends is set and third side wall, is oppositely arranged with the first side wall and has first narrow 4th side wall of slot, the second sidewall and the third side wall are in respectively 87 degree~89 degree angles with the first side wall.

3. coalignment according to claim 2, which is characterized in that the second sidewall and the third side wall respectively with The first side wall is in 88.5 degree of angles.

4. coalignment according to claim 2, which is characterized in that the middle part of the second sidewall and the third side wall The corresponding arc-shaped shape setting of the fibre-optical splice, and the wall thickness of the second sidewall and the third side wall be 1.1mm~ The lateral wall of 1.3mm, the second sidewall and the third side wall is respectively equipped with reinforcing rib, and the reinforcing rib is by the first side Wall end extends towards second sidewall end.

5. coalignment according to claim 4, which is characterized in that the inner sidewall of first clamping part has multiple diameters To rib and multiple axial ribs, the radial ribs and the axial ribs with the fibre-optical splice for abutting against.

6. coalignment according to claim 5, which is characterized in that the radial ribs are with the axial ribs described It is staggered on the axial direction of first holding channel.

7. coalignment according to claim 5, which is characterized in that the close radial rib of first holding channel One end of item is equipped with inner chamfer, and the inner chamfer is C0.6.

8. coalignment according to claim 5, which is characterized in that opposite two sides are held in being caught in for second clamping part Wall all has inclined surface, and the inclined surface is by side to the other side in 28~32 degree of angular upper inclinations.

9. the coalignment of a kind of fibre-optical splice and flange adaptor, for being equipped under the scene of multiple flange adaptors side by side, Determine whether fibre-optical splice matches with flange adaptor；

It is characterised in that it includes

Multiple first electronic tags and multiple second electronic tags, each first electronic tag be used for described in corresponding one Identification information in second electronic tag matches；

Multiple pin threads, including for placing the first electronic tag the first label setting table, with the first label setting table is fixed connects The first clamping part connect, first clamping part are made of elastic material, have for receive the fibre-optical splice and with it is described The side wall of the first fixed holding channel of fibre-optical splice phase interference, first clamping part is equipped with the first slit, and described first is narrow Slot is for enabling first clamping part to be caught in from the optical fiber cable part of the fibre-optical splice, so that first accommodating is logical Road can be fixed to the fibre-optical splice in the case where not needing suspension；

Busbar, including for it is multiple place the second electronic tag third label setting tables, third label setting table to be consolidated Fixed connection fixing seat in line is fixed at the multiple of the fixing seat side and is caught in bar, and the bar that is caught in is for blocking Enter between adjacent two flange adaptor, so that the busbar is mutually fixed with flange adaptor.

10. the coalignment of fibre-optical splice according to claim 9 and flange adaptor, which is characterized in that described first Clamping part includes the first side wall, is separately positioned on the second sidewall and third side wall and described first at the first side wall both ends Side wall is oppositely arranged and the 4th side wall with the first slit, and the second sidewall and the third side wall are respectively with described first Side wall is in 87 degree~89 degree angles；The second sidewall arc-shaped shape of fibre-optical splice corresponding with the middle part of the third side wall Setting, and the wall thickness of the second sidewall and the third side wall is 1.1mm~1.3mm, the second sidewall and the third The lateral wall of side wall is respectively equipped with reinforcing rib, and the reinforcing rib is extended by the first side wall end towards second sidewall end.