CN107121728A - Universal optical fiber thermoconnecting tray - Google Patents

Abstract

The present invention relates to a kind of universal optical fiber thermoconnecting tray; including welding basal disc and cover plate; welding basal disc includes the bottom plate of one and the wallboard of bottom plate surrounding; bottom plate is provided with the fused fiber splice protection zone formed between external partition, internal partition and external partition and internal partition on the inside of front wallboard and rear wall plate, and each side dividing plate is with forming slack storage portions between corresponding framed side wallboard and each external partition and corresponding front wallboard and rear wall plate；Pencil optical cable welding chip and optical fiber ribbon cable welding chip are removable at corresponding fused fiber splice protection zone, and pencil optical cable welding chip both sides or/and the both sides of optical fiber ribbon cable welding chip are located on bottom plate has living spring briquetting.The present invention can meet the welding protection and storage of pencil and optical fiber ribbon cable simultaneously, can make the protection of fusion point to every single optical fibre Dou You movable clamp grooves area, rational in infrastructure; in limited space; the quantity of optical cable welding protection circuit can be lifted, attended operation is convenient, and route can be kept clear.

Description

Universal optical fiber thermoconnecting tray

Technical field

The present invention relates to a kind of universal optical fiber thermoconnecting tray, belong to outdoor optical cable layout techniques field.

Background technology

The very fast development of Present Global Information technology, people are growing day by day to the demand of bandwidth, along with 4G and high-speed light The deployment of fibre web network, Optical Communication Market has also welcome the market opportunity of a new round.In many of demand, technology, market and policy Promote again under, China has become global optical fiber cable staple market.The whole world exceedes all production and marketing of half optical fiber cable in China, in State has become manufacturing center, the marketing center of global optical fiber cable industry, following also to turn into research and development centre and consulting and clothes Business center.

With internet, the development of cloud computing, optical communication technique plays more and more important during industrial information Platform action, country proposes that broadband China, speed-raising drop such as takes at the macroscopic view behave in succession, but the optical cable of early stage is not adapted to The Transmission system of 100G, 400G even more Large Copacity.And the policy Dao Bi operators such as drop expense, broadband China that raise speed step up to carry out The update work of bone optical fiber net.In addition to aging optical cable is replaced, the continuous growth of flow will also promote the construction of backbone network, It is following also that demand is newly-built and replace more trunk cables.

To outdoor optical cable wiring product, such as cable splice closure and outdoor optical cable distributing box are to be widely used in Optical Access Network The optical communication terminal equipment in fused fiber splice, distribution, scheduling, test between optical cable, is signal biography between optical signal transceiver equipment Defeated, scheduling is with the hinge changed, the function such as scheduling, switching with optical signal.And now it is used for cable splice closure and outdoor optical cable The optical fiber thermoconnecting tray of cross-connecting box is mainly made up of welding basal disc and cover plate, and has one or two welding core in welding basal disc Piece, welding chip is usually to respectively constitute six core welding chips or twelve-core welding chip using six cores, twelve-core as unit, each molten Connect and multiple welding dividing plates are fixed on chip, be the neck for placing optical fiber between welding dividing plate two-by-two, during fusing operation, welding two-by-two The usual clamp single optical fibre of neck between dividing plate.For welding chips more than 12 cores or 12 cores, one kind is by welding optic fibre Superposition is placed in neck, and such stacked system attended operation later to welding chip brings very big inconvenience.It is another to be Increase the area of welding chip to increase the quantity of welding dividing plate, although attended operation can be simplified, but area occupied is big, due to light The limited amount of cable welding protection circuit, it is impossible to further lift unit equipment capacity, it is impossible to which the welding for meeting multi-core fiber is protected Shield and storage.

The content of the invention

The welding protection and storage of pencil and optical fiber ribbon cable, and energy can be met simultaneously it is an object of the invention to provide a kind of Make the protection of fusion point to every single optical fibre Dou You movable clamp grooves area, it is rational in infrastructure, in limited space, optical cable can be lifted and melted The quantity of protection circuit is connect, attended operation is convenient, route clearly universal optical fiber thermoconnecting tray can be kept.

The present invention is that the technical scheme for reaching above-mentioned purpose is：A kind of universal optical fiber thermoconnecting tray, including welding basal disc and Cover plate, described welding basal disc includes the wallboard of the bottom plate and bottom plate surrounding of one, and cover plate is hinged on the rear wall plate of welding basal disc On, the framed side wallboard of welding basal disc left and right sides and the top of front wallboard and rear wall plate are provided with outer fibre blocking plate, and both sides wallboard is front and rear Side is provided with breach, it is characterised in that：The bottom plate is provided with the top of side dividing plate, side dividing plate in the inner side of framed side wallboard and is provided with side wall Plate side is provided with interior fibre blocking plate, and bottom plate is provided with external partition, internal partition and external partition and internal partition on the inside of front wallboard and rear wall plate Between the fused fiber splice protection zone that is formed, each side dividing plate and corresponding framed side wallboard and each external partition and corresponding front wallboard and rear wall plate Between form slack storage portions；Pencil optical cable welding chip and optical fiber ribbon cable welding chip are removable installed in corresponding optical fiber Being located at the both sides of pencil optical cable welding chip both sides or/and optical fiber ribbon cable welding chip at welding protection zone, on bottom plate has use In the living spring briquetting that position limitation protection is carried out to welding optic fibre；

Described pencil optical cable welding chip includes the first U-shaped base and is arranged on multiple on the first U-shaped base be vertically arranged First subregion dividing plate, the elastic clamping block of the first U-shaped base bottom two first is connected to the one of fused fiber splice protection zone of bottom plate In bayonet socket；Each curved spread configuration of first subregion dividing plate, each first subregion dividing plate is along short transverse in both sides provided with least First cut-off notch of two insertion sides, and the first subregion dividing plate is divided at least three first movable clamp grooves along short transverse Area, and the first subregion dividing plate is provided with the both sides in each the first movable clamp groove area is used for spacing to welding optic fibre the first limit Position groove；

Described optical fiber ribbon cable welding chip includes the second U-shaped base and multiple being vertically arranged of being arranged on the second U-shaped base The second subregion dividing plate, two second elastic clamping blocks of the second U-shaped base bottom are connected to another fused fiber splice protection zone of bottom plate On bayonet socket, each curved spread configuration of second subregion dividing plate, the second subregion dividing plate is provided with least one along short transverse in both sides Second cut-off notch of individual insertion side, and the second subregion dividing plate is divided at least two second movable clamp grooves along short transverse Area, and the second subregion dividing plate is provided with the both sides in each the second movable clamp groove area is used for spacing to welding optic fibre the second limit Position groove.

Wherein：Corresponding two on rear side of rotating shaft set of the rear wall plate top both sides of the welding basal disc provided with one, cover plate Rotating shaft is arranged in the rotating shaft set of welding basal disc and can be along rotating shaft set center rotating, and welding basal disc is in the middle part of front wallboard provided with elasticity Card interface, cover plate front portion is provided with downward fixation clamping button, fixing card when cover plate is overlapped with welding basal disc upper surface on cover plate Connect buckle enter welding basal disc flexible clamping it is intraoral.

The bottom plate of the welding basal disc is provided with least one optical line by fixing hole in each indentation, there, and bottom plate is in optical fiber welding The periphery for connecing protection zone is provided with convex ring edge.

The cover plate bottom surface is located at both sides and is provided with the fin for being used for pushing down living spring briquetting.

It is connected in the middle part of first subregion dividing plate of the pencil optical cable welding chip with the first U-shaped base end face, the first subregion There is bottom plate rabbet between dividing plate bottom surface both sides and the first U-shaped base end face, and each first subregion dividing plate two ends have the first arc Shape flange, is less than the convex tendon of the first curved flanges, each first movable clamp groove provided with radius of curvature in the inner side of the first curved flanges First stopper slot in area runs through the first curved flanges.

It is connected in the middle part of second subregion dividing plate of the optical fiber ribbon cable welding chip with the second U-shaped base end face, the second subregion There is bottom plate rabbet, each second subregion dividing plate two ends have the second arc between dividing plate two bottom sides and the second U-shaped base end face Flange, is less than the convex tendon of the second curved flanges, each second movable clamp groove area provided with radius of curvature in the inner side of the second curved flanges The second stopper slot run through the second curved flanges.

The second stopper slot on the first stopper slot and optical fiber ribbon cable welding chip on the pencil optical cable welding chip is V Shape stopper slot or arc-shaped limit groove.

Second elastic clamping block of the first elastic clamping block and the second U-shaped base on the first U-shaped base has for bottom Arc guide surface, the barb fixture block that top is plane.

The framed side wallboard top of the welding basal disc left and right sides be provided with overhanging slot floor, slot floor be provided be used for every From block.

The welding basal disc of the universal optical fiber thermoconnecting tray of the present invention, is separated into by side dividing plate and external partition and surrounding wallboard Slack storage portions, and the fused fiber splice protection zone that can be formed between external partition, internal partition and external partition and internal partition, by beam Shape optical cable welding chip and optical fiber ribbon cable welding chip are removable at corresponding fused fiber splice protection zone, and welding chip is changed For separate type, can flexible configuration to be applicable the welding of banding or pencil optical cable.Pencil optical cable welding chip of the present invention uses the first U Shape base and multiple the first subregion dividing plates being vertically arranged on the first U-shaped base are arranged on, by each first subregion dividing plate to welding light While fibre is separated, each curved spread configuration of first subregion dividing plate is simultaneously provided with least two along short transverse in both sides The cut-off notch of insertion side, therefore a first subregion dividing plate can be divided into the first movable clamp groove area of more than three, and The both sides in each the first movable clamp groove area, which are provided with, is used for first stopper slot spacing to welding optic fibre, makes pencil fused fiber splice After can be caught in respective stopper slot successively, same optical fiber ribbon cable welding chip also using the second U-shaped base and is arranged on the Multiple the second subregion dividing plates being vertically arranged on two U-shaped bases, the second subregion dividing plate of curved spread configuration exists along short transverse Second cut-off notch of the both sides provided with least one insertion side, is also divided at least two by the second subregion dividing plate along short transverse Individual second movable clamp groove area, the both sides in each the second movable clamp groove area are spacing provided with second spacing to welding optic fibre is used for Groove, will can be caught in respective second stopper slot, no matter in short transverse and level side successively after ribbon fiber welding The independent spaces of Xiang Junyou and do not interfere with mutually, can realize that solid is protected and stored to welding optic fibre, after the optical fiber that is caught in The fixation of original optical fiber is not interfered with, attended operation is convenient, cabling route is clear, can be accelerated according to user's actual need, Facilitate dilatation, the present invention is pushed down by living spring briquetting to the part after fused fiber splice outside welding chip, optical fiber is existed Not play and winding in disk.

The optical fiber thermoconnecting tray of the present invention can be improved, not only under existing size to each subregion dividing plate of welding chip It is rational in infrastructure, the quantity of optical cable welding protection circuit in limited space, can be lifted, unit equipment capacity is improved, can be effective The barrier propterty of optical cable welding is improved, optical cable welding termination and line quality is ensured, equipment safety is ensured, so as to improve whole light Cable transmission line quality, reduces transfer line fault rate, helps constantly to accumulate infrastructure resources, persistently strengthen basic network Ability, is that mobile communication operation provides safeguard to all business operation transformation, and further lifting ensures that the high speed of optic communication business increases It is long.

Brief description of the drawings

Embodiments of the invention are described in further detail below in conjunction with the accompanying drawings.

Fig. 1 is the schematic perspective view of universal optical fiber thermoconnecting tray of the invention.

Fig. 2 is the positive structure diagram of universal optical fiber thermoconnecting tray of the invention.

Fig. 3 is Fig. 2 A to structural representation.

Fig. 4 is structural representation when universal optical fiber thermoconnecting tray of the invention is opened.

Fig. 5 is the structural representation of welding basal disc of the present invention.

Fig. 6 is the structural representation of pencil optical cable welding chip of the present invention.

The overlooking the structure diagram of pencil optical cable welding chip of the present invention on Fig. 7.

Fig. 8 is Fig. 7 side structure schematic view.

Fig. 9 is the structural representation of inventive tape optical cable welding chip.

Figure 10 is the overlooking the structure diagram of inventive tape optical cable welding chip.

Figure 11 is Figure 10 side structure schematic view.

Figure 12 is that universal optical fiber thermoconnecting tray of the invention walks fine schematic diagram.

Wherein：1-welding basal disc, 1-1-rotating shaft set, 1-2-rear wall plate, 1-3-bottom plate, 1-4-framed side wallboard, 1-5- Breach, 1-6-front wallboard, 1-7-elastic card interface, 1-8-outer fibre blocking plate, 1-9-interior fibre blocking plate, 1-10-side dividing plate, 1- 11-optical line is by fixing hole, 1-12-external partition, 1-13-internal partition, 1-14-bayonet socket, 1-15-convex ring edge, 2-cover plate, 2-1-rotating shaft, 2-2-fixation clamping button, 2-3-fin, 3-pencil optical cable welding chip, the U-shaped bases of 3-1-first, 3- 2-the first subregion dividing plate, the cut-off notches of 3-3-first, the elastic clamping blocks of 3-4-first, the movable clamp grooves of 3-5-first area, 3-6- First stopper slot, the curved flanges of 3-7-first, 4-optical fiber ribbon cable welding chip, the U-shaped bases of 4-1-second, 4-2-the second point Separate plate, the cut-off notches of 4-3-second, the elastic clamping blocks of 4-4-second；The movable clamp grooves of 4-5-second area, 4-6-the second is spacing Groove, 5-living spring briquetting, 6-introduce optical fiber.

Embodiment

As shown in Fig. 1~5, universal optical fiber thermoconnecting tray of the invention, including welding basal disc 1 and cover plate 2, welding basal disc 1 The wallboard of bottom plate 1-3 and bottom plate 1-3 surroundings including one, cover plate 2 are hinged on the rear wall plate 1-2 of welding basal disc 1, pass through lid Plate 2 is protected to welding optic fibre in welding basal disc 1.As shown in Fig. 1~5, the rear wall plate 1-2 tops of welding basal disc 1 of the present invention Rotating shaft set 1-1 of the both sides provided with one, the corresponding two rotating shaft 2-1 of the rear side of cover plate 2 are arranged on the rotating shaft set 1-1 of welding basal disc 1 Interior and can also be provided with rotating shaft set on cover plate 2 along rotating shaft set 1-1 center rotatings, welding basal disc 1 is provided with rotating shaft, and realizes It is hinged.The present invention is for convenience of the cover plate 2 after fastening can be reliably connected with welding basal disc 1, and operation is very easy, welding basal disc 1 Elastic card interface 1-7 is provided with the middle part of front wallboard 1-6, as shown in Figure 5, elastic card interface 1-7 is using groove and is located at groove Tool vertical slot, top outer are provided with convex arc in the middle part of interior pillar, the pillar, and cover plate 2 is anterior to be provided with downward fixation clamping button 2-2, Fixation clamping button 2-2 has arc-shaped slot, fixation clamping button 2- when cover plate 2 is overlapped with the upper surface of welding basal disc 1 on cover plate 2 2 are caught in the elastic card interface 1-7 of welding basal disc 1, are arranged on by fixed clamping button 2-2 in elastic card interface 1-7 groove And the pillar of its arc-shaped slot pinching deformation, both having facilitated can be connected to cover plate 2 on welding basal disc 1, and can also be easy to open lid Plate 2, attended operation is convenient.

As shown in Fig. 1~5, the framed side wallboard 1-4 and front wallboard 1-6 and rear wall plate 1-2 of the left and right sides of welding basal disc 1 of the present invention Top be provided with outer fibre blocking plate 1-8, both sides wallboard 1-4 front and rear side be provided with breach 1-5, pass through the breach at the wallboard 1-4 of both sides 1-5 can pass through introducing optical fiber 6, and the bottom plate 1-3 of welding basal disc 1 is provided with least one optical line by fixing at each breach 1-5 Hole 1-11, as shown in Fig. 4,5, provided with two optical lines by fixing hole 1-11 at each breach 1-5, by binding etc. to introducing Optical fiber 6 is fixed.The present invention can also be respectively equipped with overhanging insert on the framed side wallboard 1-4 of the left and right sides of welding basal disc 1 top Groove floor, slot floor is provided with the block for isolating, the convenient installation by universal optical fiber thermoconnecting tray.

As shown in Fig. 1~5, bottom plate 1-3 of the present invention is provided with side dividing plate 1-10, side dividing plate 1-10 in framed side wallboard 1-4 inner side Top is provided with framed side wallboard 1-4 sides and set provided with interior fibre blocking plate 1-9, bottom plate 1-3 on the inside of front wallboard 1-6 and rear wall plate 1-2 There are the fused fiber splice protection zone formed between external partition 1-12, internal partition 1-13 and external partition 1-12 and internal partition 1-13, the light Fine welding protection zone is sink structures, as shown in Fig. 4,5, and bottom plate 1-3 of the present invention is provided with convex on the periphery of fused fiber splice protection zone Ring side 1-15, it is spacing to facilitate installation to the base of welding chip, provided with two bayonet socket 1-14, each side dividing plate on bottom plate 1-3 Slack is formed between 1-10 and corresponding framed side wallboard 1-4 and each external partition 1-12 and corresponding front wallboard 1-6 and rear wall plate 1-2 Storage portions, by welding basal disc, 1 point is two functional areas, and slack is coiled in side dividing plate 1-10 and external partition 1-12 and surrounding It is between wallboard and spacing and store by outer fibre blocking plate 1-8 and interior fibre blocking plate 1-9.

As shown in Fig. 4,5,12, pencil optical cable welding chip 3 and optical fiber ribbon cable welding chip 4 of the present invention it is removable be arranged on pair At the fused fiber splice protection zone answered, welding chip is changed to separate type by the present invention, therefore energy flexible configuration is with applicable banding or beam The welding of shape optical cable, is located at the both sides of pencil optical cable welding chip 3 or/and the both sides of optical fiber ribbon cable welding chip 4 on bottom plate 1-3 With the living spring briquetting 5 for carrying out position limitation protection to welding optic fibre, the living spring briquetting 5 uses cavernous structure, Sectional dimension can such as be used for 10mm × 10mm, the cavernous body that length is 30mm, the portion after fused fiber splice outside welding chip Divide and pushed down by living spring briquetting 5, making optical fiber, play is not wound in disk, and the bottom surface of cover plate 2 is located at both sides and is provided with for pressing Live in the fin 2-3 of living spring briquetting 5, makes living spring briquetting 5 not move.

As shown in Fig. 5~8, pencil optical cable welding chip 3 of the present invention includes the first U-shaped base 3-1 and is arranged on the first U-shaped Multiple the first subregion dividing plate 3-2 being vertically arranged on base 3-1, the elastic clamping block 3-4 of the first U-shaped base 3-1 bottoms two first are connected to In the bayonet socket 1-14 of the one of fused fiber splice protection zones of bottom plate 1-3, base is using U-shaped structure with preferable mechanicalness Can, and be difficult to influence the welding optic fibre in welding chip, the first elastic clamping block 3-4 on the first U-shaped base 3-1 is that bottom has It is the barb fixture block of plane to have arc guide surface, top, and pencil optical cable welding chip 3 is pressed into the light of welding basal disc 1 from top to bottom Realize connection in fine welding protection zone.As shown in Fig. 5~8, the present invention curved spread configurations of each first subregion dividing plate 3-2, each One subregion dividing plate 3-2 along short transverse in first cut-off notch 3-3 of the both sides provided with least two insertion sides, and by first Subregion dividing plate 3-2 is divided at least three first movable clamp groove area 3-5 along short transverse, not phase in the middle of first cut-off notch 3-3 Logical, the first cut-off notch 3-3 on the first subregion dividing plate 3-2, which can be set, 3~8, to form multiple first movable clamp groove areas 3-5, or even more first cut-off notch 3-3, to form more first movable clamp groove area 3-5, the first subregion dividing plate 3-2 exists Each the first movable clamp groove area 3-5 both sides, which are provided with, is used for the first stopper slot 3-6 spacing to welding optic fibre, pencil optical cable The first stopper slot 3-6 on welding chip 3 be after V-arrangement stopper slot or arc-shaped limit groove, pencil optical cable welding successively from lower to upper In the first stopper slot 3-6 for being caught in the first movable clamp groove area 3-5, it is respectively provided with independent space per single optical fibre and is independent of each other, make The welding optic fibre being caught in afterwards does not interfere with the fixation of original welding optic fibre, realizes that a subregion dividing plate energy ordered pair multi-core fiber has Sequence welding is protected and stored.

As shown in Fig. 5~8, with the first U-shaped bottom in the middle part of the first subregion dividing plate 3-2 of pencil optical cable welding chip 3 of the present invention The connection of seat 3-1 bottom surfaces, and with bottom plate rabbet between the first subregion dividing plate 3-2 bottom surfaces both sides and the first U-shaped base 3-1 bottom surfaces, Each first subregion dividing plate 3-2 two ends have the first curved flanges 3-7, and curvature is provided with each first curved flanges 3-7 inner side Radius is less than the first curved flanges 3-7 convex tendon, and each first movable clamp groove area 3-5 the first stopper slot 3-6 runs through the first arc Flange 3-7, the contact area of welding optic fibre can be increased in limited space, while also increasing the first subregion dividing plate 3-2 intensity.

As shown in Fig. 5,9~11, inventive tape optical cable welding chip 4 includes the second U-shaped base 4-1 and is arranged on second Multiple the second subregion dividing plate 4-2, two second elastic clamping block 4-4 of the second U-shaped base 4-1 bottoms being vertically arranged on U-shaped base 4-1 On the bayonet socket 1-14 for being connected to another fused fiber splice protection zones of bottom plate 1-3, the second elastic clamping block 4-4 on the second U-shaped base 4-1 For the barb fixture block that bottom has arc guide surface, top is plane, optical fiber ribbon cable welding chip 4 is pressed into welding base from top to bottom Realize connection in another fused fiber splice protection zone of disk 1.As shown in Fig. 5,9~11, each second subregion dividing plate 4-2 of the present invention is in arc Shape spread configuration, the second subregion dividing plate 4-2 is provided with the second partition grooves of at least one insertion side along short transverse in both sides Mouth 4-3, and the second subregion dividing plate 4-2 is divided at least two second movable clamp groove area 4-5, of the invention second along short transverse Also can be provided with the multiple second cut-off notch 4-3, to form more second movable clamp groove area 4-5, second point on subregion dividing plate 4-2 Separating plate 4-2 and being provided with each the second movable clamp groove area 4-5 both sides is used for second stopper slot spacing to welding optic fibre The second stopper slot 4-6 on 4-6, optical fiber ribbon cable welding chip 4 is V-arrangement stopper slot or arc-shaped limit groove, can melt optical fiber ribbon cable It can be caught in from lower to upper successively in the second movable clamp groove area 4-5 the second stopper slot 4-6 after connecing, because each core fibre has individually Space and be independent of each other, the welding optic fibre being caught in after making does not interfere with the fixation of original welding optic fibre, realizes a subregion dividing plate Can the orderly welding protection of ordered pair multi-core fiber and storage.

As shown in Fig. 5,9~11, with the second U-shaped in the middle part of the second subregion dividing plate 4-2 of inventive tape optical cable welding chip 4 Base 4-1 bottom surfaces are connected, and have base channel between the second subregion dividing plate 4-2 two bottom sides and the second U-shaped base 4-1 bottom surfaces Mouthful, each second subregion dividing plate 4-2 two ends have the second curved flanges 4-7, and curvature is provided with each second curved flanges 4-7 inner side Radius is less than the second curved flanges 4-7 convex tendon, and each second movable clamp groove area 4-5 the second stopper slot 4-6 runs through the second arc Flange 4-7, the contact area of welding optic fibre can be increased in limited space, while also increasing the second subregion dividing plate 4-2 intensity.

As shown in Figure 12, enter present invention introduces optical fiber 6 at breach 1-5 and introduce after welding basal disc 1 along the storage of surrounding wallboard It is stored in welding basal disc 1, optical fiber enters banding welding chip 4 or got one's things ready in welding chip 3 afterwards, after every core fibre fusible core respectively In the stopper slot for being caught in corresponding movable clamp groove area, then the optical fiber outside welding chip pushed down with living spring briquetting 5, afterwards Complete to operate after the 2-in-1 upper and clamping of welding basal disc 1 of cover plate.

Claims (9)

1. a kind of universal optical fiber thermoconnecting tray, including welding basal disc (1) and cover plate (2), described welding basal disc (1) include one Bottom plate (1-3) and bottom plate (1-3) surrounding wallboard, cover plate (2) is hinged on the rear wall plate of welding basal disc (1) (1-2), welding The framed side wallboard (1-4) of basal disc (1) left and right sides and the top of front wallboard (1-6) and rear wall plate (1-2) are provided with outer fibre blocking plate (1- 8), both sides wallboard (1-4) is provided with breach (1-5) in front and rear side, it is characterised in that：The bottom plate (1-3) is in framed side wallboard (1-4) Inner side, which is provided with the top of side dividing plate (1-10), side dividing plate (1-10), is provided with framed side wallboard (1-4) side provided with interior fibre blocking plate (1- 9), bottom plate (1-3) on the inside of front wallboard (1-6) and rear wall plate (1-2) provided with external partition (1-12), internal partition (1-13) and it is outer every The fused fiber splice protection zone formed between plate (1-12) and internal partition (1-13), each side dividing plate (1-10) and corresponding framed side wallboard Slack storage portions are formed between (1-4) and each external partition (1-12) and corresponding front wallboard (1-6) and rear wall plate (1-2)；Beam Shape optical cable welding chip (3) and optical fiber ribbon cable welding chip (4) are removable at corresponding fused fiber splice protection zone, bottom plate Being located at the both sides of pencil optical cable welding chip (3) both sides or/and optical fiber ribbon cable welding chip (4) on (1-3) has for molten Connect the living spring briquetting (5) that optical fiber carries out position limitation protection；

Described pencil optical cable welding chip (3) includes the first U-shaped base (3-1) and is arranged on many on the first U-shaped base (3-1) Individual the first subregion dividing plate (3-2) being vertically arranged, two first elastic clamping blocks (3-4) of first U-shaped base (3-1) bottom are connected to bottom plate In the bayonet socket (1-14) of (1-3) one of fused fiber splice protection zone；The curved spread configuration of each first subregion dividing plate (3-2), Each first subregion dividing plate (3-2) is provided with the first cut-off notch (3-3) of at least two insertion sides along short transverse in both sides, And the first subregion dividing plate (3-2) is divided at least three first movable clamp groove areas (3-5), and the first subregion dividing plate along short transverse (3-2) is provided with the both sides in each the first movable clamp groove area (3-5) is used for the first stopper slot (3- spacing to welding optic fibre 6)；

Described optical fiber ribbon cable welding chip (4) includes the second U-shaped base (4-1) and is arranged on the second U-shaped base (4-1) Multiple the second subregion dividing plates (4-2) being vertically arranged, the elastic clamping block (4-4) of second U-shaped base (4-1) bottom two second is connected to bottom plate On the bayonet socket (1-14) of (1-3) another fused fiber splice protection zone, the curved spread configuration of each second subregion dividing plate (4-2), second Subregion dividing plate (4-2) along short transverse in second cut-off notch (4-3) of the both sides provided with least one insertion side, and by the Two subregion dividing plates (4-2) are divided at least two second movable clamp groove areas (4-5), and the second subregion dividing plate (4-2) along short transverse Being provided with the both sides in each the second movable clamp groove area (4-5) is used for second stopper slot (4-6) spacing to welding optic fibre.

2. universal optical fiber thermoconnecting tray according to claim 1, it is characterised in that：The rear wall plate of the welding basal disc (1) Corresponding two rotating shafts (2-1) are arranged on welding base on rear side of rotating shaft set (1-1) of (1-2) the top both sides provided with one, cover plate (2) The rotating shaft set (1-1) of disk (1) is interior and can be set along rotating shaft set (1-1) center rotating, welding basal disc (1) in the middle part of front wallboard (1-6) Flexible card interface (1-7), cover plate (2) front portion is provided with downward fixation clamping button (2-2), cover plate (2) and welding basal disc (1) Fixation clamping button (2-2) when surface is overlapped on cover plate (2) is caught in the elastic card interface (1-7) of welding basal disc (1).

3. universal optical fiber thermoconnecting tray according to claim 1, it is characterised in that：Bottom plate (the 1- of the welding basal disc (1) 3) at least one optical line is provided with by fixing hole (1-11) at each breach (1-5) place, and bottom plate (1-3) is in fused fiber splice protection zone Periphery be provided with convex ring edge (1-15).

4. universal optical fiber thermoconnecting tray according to claim 1 or 2, it is characterised in that：Cover plate (2) bottom surface is located at two Side is provided with the fin (2-3) for being used for pushing down living spring briquetting (5).

5. universal optical fiber thermoconnecting tray according to claim 1, it is characterised in that：The pencil optical cable welding chip (3) The first subregion dividing plate (3-2) in the middle part of be connected with first U-shaped base (3-1) bottom surface, the first subregion dividing plate (3-2) bottom surface both sides and There is bottom plate rabbet between first U-shaped base (3-1) bottom surface, and each first subregion dividing plate (3-2) two ends have the first arc convex Edge (3-7), the convex tendon of the first curved flanges (3-7), each the are less than in the inner side of the first curved flanges (3-7) provided with radius of curvature First stopper slot (3-6) in one movable clamp groove area (3-5) runs through the first curved flanges (3-7).

6. universal optical fiber thermoconnecting tray according to claim 1, it is characterised in that：The optical fiber ribbon cable welding chip (4) The second subregion dividing plate (4-2) in the middle part of be connected with second U-shaped base (4-1) bottom surface, the second subregion dividing plate (4-2) two bottom sides and There is bottom plate rabbet, each second subregion dividing plate (4-2) two ends have the second curved flanges between second U-shaped base (4-1) bottom surface (4-7), is less than the convex tendon of the second curved flanges (4-7), each second provided with radius of curvature in the inner side of the second curved flanges (4-7) Second stopper slot (4-6) in movable clamp groove area (4-5) runs through the second curved flanges (4-7).

7. universal optical fiber thermoconnecting tray according to claim 1, it is characterised in that：The pencil optical cable welding chip (3) On the first stopper slot (3-6) and optical fiber ribbon cable welding chip (4) on the second stopper slot (4-6) be V-arrangement stopper slot or arc Stopper slot.

8. universal optical fiber thermoconnecting tray according to claim 1, it is characterised in that：On the first U-shaped base (3-1) The second elastic clamping block (4-4) of first elastic clamping block (3-4) and the second U-shaped base (4-1) is that bottom has arc guide surface, top For the barb fixture block of plane.

9. universal optical fiber thermoconnecting tray according to claim 1, it is characterised in that：Welding basal disc (1) left and right sides Framed side wallboard (1-4) top is provided with overhanging slot floor, and slot floor is provided with the block for isolating.