CN201044003Y - Optical fiber panel structure - Google Patents

Abstract

A fiber panel structure comprises a cover board, at least one receiving hole, a plurality of line winding units, at least two openings, at least one fixed base, at least one fiber connector, at least one combining mechanism and at least one sluice gate. The cover board comprises a first panel surface and a second panel surface. The sluice gate is combined in the combining mechanism and comprises at least one of the following parts of a sliding door module and a file plate. The two openings are arranged out of the relative two sides of the preset board and the positions of the two openings are opposite; the two openings are arranged on the same side of the cover board. The fixed bases are arranged at the position on the second panel surface where is behind the two openings and a fiber connector is fixed in one of the two fixed bases. The second panel surface is equipped with the a plurality of line winding units which can wind the fiber cables between the line winding units and fixed in the limited range of the line winding units.

Description

The fibre faceplate structure

Technical field

The utility model relates to a fibre faceplate structure, be particularly related to a kind of panel that is applicable to flush type wall socket, with the fiber-optical socket of being reserved on the panel, provide the easier Connectorized fiber optic cabling of unit in charge of construction to be disposed in general family or the office with reservation, further can reduce the distribution assembly cost.

Background technology

Arriving along with the network technology epoch, the demand speed of the universal online of home network significantly promotes too, and the network data transmission that existing network obviously can't be loaded and be increased day by day, so government bodies promote fiber shaft energetically and set up, come epoch in response to information explosion with the characteristic of the high speed data delivery of Optical Fiber Transmission, the copper electric wire of traditional telephone system is replaced by fiber optic cables gradually.

And optical fiber (Optical fibre) is fibre-optic writing a Chinese character in simplified form, be a kind of utilize light in the fiber that glass or plastics are made total reflection principle and the light conduction instrument reached.Fine fiber package makes that it can be crooked and be unlikely to fracture in plastic sheath.Usually, the emitter of an end of optical fiber use light emitting diode (lightemitting diode, LED) or beam of laser light pulse is sent to optical fiber, the receiving trap of the other end of optical fiber uses photosensitive components to detect pulse.In daily life, because light is more much lower in the loss of electric wire conduction than electricity in fibre-optic conduction loss, optical fiber is used as the information transmission of long distance, and along with the price of optical fiber day by day reduces, optical fiber also is used to the purposes of medical treatment and amusement.

The structure of optical fiber is circular and thin glass fibre as hair, mainly is divided into two parts, and nexine claims core (Core) to make with glass usually, and skin then is called fine shell (Clad).Because optical fiber is belong to Medium Wave Guide a kind of, so as long as the condition permission also can be used special plastic material or fluent material.Because the diameter of the core of optical fiber has only several microns (micrometre) to tens of microns, and the diameter of fine shell is also only between 100 to 200 microns, and itself is quite faint.Therefore, in general the application, can plate one deck plastics again in skin, and add one deck nylon again, in order to avoid be subjected to the erosion of extraneous chemical substance.If several are tieed up as above-mentioned general optical fiber, just can form so-called fiber optic cables, promptly abbreviate optical cable as.

The advantage of Optical Fiber Transmission has comprised: 1. low loss and wide bandwidth; 2. size is little and bending radius is little; 3. non-conductive, non-radiating, do not respond to; 4. in light weight or the like.The super large transmission quantity that low loss and wide bandwidth are provided, even once can hold the transmission of conversing simultaneously of 24,000 call gates in optical fiber.The light-guiding system that Belle experiment developed, more can be in conjunction with the service of sound, simulated data, numerical data, picture telephone and various video signals, therefore, this has produced sizable revolution to transmission of Information, this transmission mode will be the main flow that following cable TV station propagates video signal, more gos deep into each family in the mode of Optical Fiber Transmission.

Therefore, all can reserve and bury underground Connectorized fiber optic cabling future in the new buildings, and be distributed in each floor and each the interval institute usage space, and often described fiber optic network just is embedded within the same passage construction cost required when burying underground with saving with telephone line and general indoor power supply circuit or power switch, so how to be applicable to various different embedding manners and the set block terminal of different purposes, and then with its covering and beautified, can have simultaneously the function of reserving fiber port again concurrently, be the characteristic of maximum of the present utility model.

Summary of the invention

First purpose of the present utility model, be to provide a kind of fibre faceplate structure, it is to utilize the panel with fiber-optical socket, can directly replace the cover plate of block terminal on original family expenses wall, its Connectorized fiber optic cabling of burying underground in the wall can be connected with the joints of optical fibre that panel of the present utility model is provided when distribution is constructed easily.

Another purpose of the present utility model, be to provide a kind of fibre faceplate structure, it is to utilize reason line unit set on the described panel can provide long fiber optic cables to fix and wind the line on described panel, reach and to avoid fiber optic cables to cause construction inconvenience, and then influence operating efficiency because of the coiling institute that arches upward.

Another purpose of the present utility model, be to provide a kind of fibre faceplate structure, it is to utilize the pairing combining mechanism of described two corresponding perforates, can insert a sliding door module and a paper plate respectively, and can cooperate the pairing described perforate of described joints of optical fibre binding site, described sliding door module and described paper plate can be exchanged the exchange assembling at any taking-up in described two combining mechanisms.

A purpose more of the present utility model is to provide a kind of fibre faceplate structure, and it is to utilize a seben that the untapped part of described containing hole of described fibre faceplate structure is sealed.

In order to achieve the above object, be to provide a kind of fibre faceplate structure, include: a cover plate, it is to have a default thickness of slab, and one first plate face and one second plate face are arranged; At least one containing hole, it is to be arranged on the described first plate face, and runs through the described second plate face; The relative dual-side of described default thickness of slab is located at least two perforates respectively, and the position of described two perforates be corresponding mutually and all the position in the same side of cover plate; And at least two holders, it is to be positioned on the described second plate face and to correspond to two tappings respectively, described holder is to fix joints of optical fibre; One combining mechanism, it is to place on the described second plate face and be positioned at described perforate rear and described holder central position relatively; And at least one gate, be to be arranged within the described combining mechanism, described gate comprise at least following one of them: sliding door module and a paper plate.

The utility model also provides a kind of fibre faceplate structure, and it includes: a cover plate, and it is to have a default thickness of slab, and one first plate face and one second plate face are arranged; At least one containing hole, it is to be arranged on the described first plate face, and runs through the described second plate face; At least one perforate is arranged at the described default thickness of slab place of a side of cover plate; At least one holder, it is to be positioned on the described second plate face and to correspond to described tapping, described holder is to fix joints of optical fibre; And a plurality of reason lines unit, it is to be arranged on the described second plate face, can be for a Connectorized fiber optic cabling being fixed and being wound the line thereon; Wherein, described reason line unit is that two corresponding arcs protrude piece, described Connectorized fiber optic cabling is fastened in relative two arcs and protrudes in the clearance space on arc top of piece, and described Connectorized fiber optic cabling can be wound the line on the described reason line unit of the other end along the cambered surface two terminal bendings that its two arc protrudes piece by the cambered surface curvature that two arcs protrude piece.

The utility model also provides a kind of fibre faceplate structure, and it includes: a cover plate, and it is to have a default thickness of slab, and one first plate face and one second plate face are arranged; At least one containing hole, it is to be arranged on the described first plate face, and runs through the described second plate face; At least one perforate is arranged at the described default thickness of slab place of a side of cover plate; At least one holder, it is to be positioned on the described second plate face and to correspond to described tapping, described holder is to fix joints of optical fibre; And at least one seben, it is to be incorporated in the described containing hole, and is relatively set with a buckle in described seben dual-side; Wherein, on the described second plate face and be positioned at described containing hole dual-side and be provided with a plurality of location structures with respect to described seben two buckles, described buckle is incorporated in the described location structure, and the untapped part of described containing hole is sealed.

The advantage that the utlity model has: described containing hole is a plurality of modular sockets can be seen through described containing hole to be revealed in outside the panel of described fiber-optical socket, provides the user to control power switch or sees through socket connection of different nature and obtain data by communication cable.

Described two perforates are the relative dual-side places that are arranged at described default thickness of slab, and the position of described two perforates is mutual correspondences, and are positioned at the same side of described cover plate.Being provided with described holder on the described second plate face and with respect to the position at described two perforate rears, is the described joints of optical fibre can be selected one to be fixed in described two holders; More on the described second plate face and roughly be positioned at described two position with pores rears relatively and be respectively arranged with described combining mechanism, it is to make described gate or described sliding door module be fixed within the described combining mechanism.

Be provided with a plurality of reason lines unit in the described second plate face, described fiber optic cables can be twined along described reason line unit, and be fixed on the described reason line unit, the long and coiling institute that arches upward causes construction inconvenience because of the end of a thread can to avoid fiber optic cables, and then influences operating efficiency.Utilize described seben to be incorporated within the described containing hole, make the untapped part of described containing hole be sealed, and described seben is incorporated into, and the proper described first plate face with described cover plate is the level of state in the described containing hole.The described first plate face in described cover plate is provided with a plurality of conjugate foramens, and is incorporated on the Power entry module of the specification that conforms to through a plurality of screws.

Description of drawings

Figure 1A, Figure 1B and Fig. 1 C are the three-view diagram of fibre faceplate structure first preferred embodiment of the present utility model;

Fig. 2 is the lateral side view of fibre faceplate structure first preferred embodiment of the present utility model;

Fig. 3 is the assembling synoptic diagram of fibre faceplate structure first preferred embodiment of the present utility model;

Fig. 4 A is the second preferred embodiment figure of fibre faceplate structure of the present utility model;

Fig. 4 B is the 3rd preferred embodiment figure of fibre faceplate structure of the present utility model;

Fig. 5 A is the schematic perspective view of fibre faceplate structure of the present utility model;

Fig. 5 B is the schematic perspective view at another visual angle of fibre faceplate structure of the present utility model;

Fig. 6 A, Fig. 6 B are fibre faceplate structure of the present utility model and the synoptic diagram that combines of Power entry module;

Fig. 7 is the optical fiber reason line synoptic diagram of fibre faceplate structure of the present utility model;

Fig. 8 A is the perspective exploded view of the seben and the cover plate of fibre faceplate structure of the present utility model;

Fig. 8 B is the seben of fibre faceplate structure of the present utility model and the synoptic diagram that combines of cover plate;

Fig. 9 is the partial enlarged drawing that an embodiment of the sliding door module of the utility model fibre faceplate structure combines with the perforate of cover plate and locates.

Description of reference numerals: 1～fibre faceplate structure; 11～cover plate; 110～default thickness of slab; 111～the first plate faces; 112～the second plate faces; 113～conjugate foramen; 12～containing hole; 13～reason line unit; 14～perforate; 15～holder; 16～joints of optical fibre; 161～output terminal; 162～link; 17～combining mechanism; 171～fin; 18～gate; 181～sliding door module; 182～paper plate; 183～sliding door plate; 184～spring; 185～hollow housing; 1851～trip; 2～screw; 3～Power entry module; 31～block terminal; 311～perforation; 32～jack frame; 321～screw; 322～fixed frame; 323～combined hole; 33～socket; 4～Connectorized fiber optic cabling; 5～connection line of optic fibre; 6～joints of optical fibre; 7～seben; 71～buckle; 72～projecting surface; 8～location structure.

Embodiment

The fibre faceplate structure that is proposed in order more clearly to describe the utility model below will cooperate icon to describe in detail.

See also Figure 1A to Fig. 1 C, shown in Figure 2, figure A to Fig. 1 C, Fig. 2 are the three-view diagram and the lateral side view of fibre faceplate structure first preferred embodiment of the present utility model.Wherein, fibre faceplate structure 1 mainly by: a cover plate 11, at least one containing hole 12, a plurality of reason lines unit 13, at least two perforates 14, at least one holder 15, at least one joints of optical fibre 16, at least one combining mechanism 17 and 18 at least one gate are formed jointly.It is to have a default thickness of slab 110 for a described cover plate 11, and more includes one first plate face 111, one second plate face 112 and a plurality of conjugate foramen 113.Described gate 18 is to be incorporated within the described combining mechanism 17, its comprise at least following one of them: sliding door module 181 or a paper plate 182.

Described fibre faceplate structure 1 is can see through a plurality of screws 2 by a plurality of conjugate foramens set on the described cover plate 11 113 to be incorporated on the Power entry module 3 (being shown in Fig. 3 in addition) of the specification that conforms to.

See also shown in Figure 3ly, Fig. 3 is the assembling synoptic diagram of fibre faceplate structure first preferred embodiment of the present utility model.Wherein, described Power entry module 3 is that it includes: a block terminal 31, at least one jack frame 32 and at least one socket 33 outside being embedded within the wall and the opening part of described Power entry module 3 being exposed to.Described block terminal 31 inner edges are reserved a plurality of perforation 311, when described block terminal 31 is embedded in wall, can come together in the described block terminal 31 through described perforation 311 being embedded in the pipeline of being reserved in the wall (power lead, telephone wire, optical fiber and other cables), and the end of a thread of reserving pipeline out of the ordinary is in described block terminal 31, in order to doing electrical connection with the described socket 33 of different purposes.Described block terminal 31 is preset with a plurality of screws 312, can mutually combine by a plurality of screws 2 with default a plurality of screws 321 on the described jack frame 32, and described block terminal 31 can be in conjunction with at least one jack frame 32 thereon.

One fixed frame 322 is arranged on the described jack frame 32, described fixed frame 322 roughly can fix three sockets 33, the socket 33 that can fix the different purposes of assembling in same fixed frame 322 uses so that different purposes to be provided, so described socket 33 more can be: telephone socket, network socket, TV (concentric cable) socket, wall switch, 3 hole AC sockets and 2 hole AC sockets one of them.

More be provided with a combined hole 323, can provide a plurality of conjugate foramens 113 on the described fibre faceplate structure 1 to be incorporated on the described jack frame 32 by a plurality of screws 2 in screw 321 tops of described jack frame 32.Because described socket 33 and described jack frame 32 are to be all the modular product of standard with described block terminal 31, and fixing specification and size agreement are also arranged, be to belong to the widely used technical manual of industry, but not focus technology feature of the present utility model, so give unnecessary details no longer one by one at this.

The described containing hole 12 of described fibre faceplate structure 1 is to be arranged on the described first plate face 111 and through the described second plate face 112.In the utility model shown in Figure 3 first preferred embodiment, described fibre faceplate structure 1 is to include three groups of containing holes 12, it is incorporated on the described block terminal 31 with three groups of jack frame 32, make the out of the ordinary described containing hole 12 set on the described fibre faceplate structure 1 can be corresponding with the described fixed frame 322 on the described jack frame 32 out of the ordinary on the described block terminal 31, and then make the described socket 33 that is fixed on the described fixed frame 322 be placed within the described containing hole 12, and roughly remain on the same surface level with the first plate face 111 of described cover plate 11, connect described plug 33 and do electrical connection to provide extraneous.

See also shown in Fig. 4 A, Fig. 4 A is the second preferred embodiment figure of fibre faceplate structure of the present utility model.Because it is similar with first preferred embodiment shown in Figure 3 substantially for the utility model fibre faceplate structure second preferred embodiment of Fig. 4 A, so identical assembly and will repeating no more below the structure.

The fibre faceplate structure of second preferred embodiment of the present utility model and the difference of aforementioned first preferred embodiment be, the described first plate face 111 is one group of described containing hole 12 only to be arranged and through the described second plate face 112.

See also shown in Fig. 4 B, Fig. 4 B is the 3rd preferred embodiment figure of fibre faceplate structure of the present utility model.Because it is similar with first preferred embodiment shown in Figure 3 substantially for the utility model fibre faceplate structure the 3rd preferred embodiment of Fig. 4 B, so identical assembly and will repeating no more below the structure.

The fibre faceplate structure of the 3rd preferred embodiment of the present utility model and the difference of aforementioned first preferred embodiment be, the described first plate face 111 is two groups of described containing holes 12 to be arranged and through the described second plate face 112.

See also Fig. 5 A, Fig. 5 B also with reference to shown in Figure 2, Fig. 5 A, Fig. 5 B are the schematic perspective view of fibre faceplate structure of the present utility model and the schematic perspective view at another visual angle.Wherein, described fibre faceplate structure 1 its described two perforates 14 are to be arranged at described default thickness of slab 110 places respectively, and the position of described two perforates 14 is mutual correspondences, and are positioned at the same side of described cover plate 11.By this kind unique design, make that fibre faceplate structure 1 of the present utility model can be by horizontally rotating cover plate 11 clockwises (or inverse clock) at 180 degree angles, and the position of two perforates 14 is rotated to another side (for example the left side from Fig. 5 A goes to the right) from a side of cover plate 11, and still can select a joints of optical fibre 6 to be arranged near the perforate 14 of cover plate 11 downsides (that is front side of Fig. 5 A) or upside simultaneously.That is to say that the structural design of unique homonymy of the present utility model and corresponding two perforates 14 can make the joints of optical fibre 6 can be installed in arbitrary corner location in 11 4 corners of cover plate.

On the described second plate face 112 of described cover plate 11, and be provided with described holder 15 (as shown in Figure 2) respectively with respect to place, the rear position of described two perforates 14, the described joints of optical fibre 16 are can be incorporated into described two holders 15 on one of them.The described joints of optical fibre 16 are to include: an output terminal 161 and a link 162.Described output terminal 161 is corresponding with described perforate 14, can do being electrically connected through described perforate 14 with an extraneous connection line of optic fibre 5, another link 162 of the described joints of optical fibre 16 is then done through joints of optical fibre 6 with described block terminal 31 interior Connectorized fiber optic cablings 4 of being reserved and is electrically connected.Because these the described described joints of optical fibre 16 and the described joints of optical fibre 6 are to belong to the assembly that can buy on the market, also be extensive use of but not focus technology feature of the present utility model in industry, so repeat no more its detailed formation.

On the described second plate face 112 and be positioned at described two perforates 14 relatively and be respectively arranged with described combining mechanism 17 with described two holders, 15 central position, in order to provide described gate 18 to be made up, and the output terminal 161 of the described joints of optical fibre 16 under described perforate 14 can utilize described gate 18 that described perforate 14 is sealed when not using, or with described not in conjunction with the described holder 15 pairing described perforates 14 of the joints of optical fibre 16, use described gate 18 to be fixed in the set described combining mechanism in its rear 17 with described perforate 14 sealings, destroy the internal wiring quality to prevent that dust or foreign matter from invading, when treating that its desire connects described output terminal 161, again that described gate 18 is traversing and open described perforate 14 in described combining mechanism 17, the output terminal 161 of the described joints of optical fibre 16 in the described perforate 14 is discharged and provide extraneous described connection line of optic fibre 5 to peg graft.

15 corresponding described perforates 14 of described holder in the described joints of optical fibre 16 combinations more can use described sliding door module 181 to be combined in the described combining mechanism 17; Can not be combined in the corresponding described combining mechanism 17 by described paper plate 182 in opposite side, with its pairing described perforate 14 sealings in conjunction with 15 corresponding described perforates 14 of described holder of the described joints of optical fibre 16.Described sliding door module 181 and described paper plate 182 can cooperate the described joints of optical fibre 16 pairing described perforates 14 positions, are taken out and exchange mutually and be combined in the different combining mechanism 17.

Described sliding door module 181 in above-mentioned described combining mechanism 17, elasticity gate principle set on the described sliding door module 181 can be used, when the described output terminal 161 of the described joints of optical fibre 16 is pulled out with the extraneous described connection line of optic fibre 5 that is connected, described perforate 14 can be sealed automatically.Because described sliding door module 181 is to belong to the assembly that can buy on the market, is existing general elasticity gate, also be extensive use of but not focus technology feature of the present utility model in industry, so repeat no more its detailed formation.

See also shown in Fig. 6 A, Fig. 6 B, Fig. 6 A, Fig. 6 B are fibre faceplate structure of the present utility model and the synoptic diagram that combines of Power entry module.Wherein, in the utility model fibre faceplate structure 1, because described two perforates 14 are the same sides that are positioned at described cover plate 11, and the relative dual-side in described default thickness of slab 110 is corresponding mutually, reserve the end of a thread position in described block terminal 31 in so can see through 311 of described perforation in difference construction back, combined with described jack frame 32 on the described block terminal 31 the most nearby apart from the end of a thread of described Connectorized fiber optic cabling 4 with the described joints of optical fibre 16 pairing described perforates 14 positions with the described Connectorized fiber optic cablings 4 in the described Power entry module 3.

That is to say, the Connectorized fiber optic cabling 4 that is embedded in the wall of reserving when construction, the described perforation 311 that sees through the different directions position imports the end of a thread of described Connectorized fiber optic cabling 4 in the described block terminal 31, described cover plate 11 (as shown in Figure 6A) then can turn to 180 degree (shown in Fig. 6 B), combine with the described jack frame 32 on the described Power entry module 3, do reverse assembling with the placeholder place that the end of a thread that cooperates described Connectorized fiber optic cabling 4 is directed in the described block terminal 31.

Generally to go up in using; the described output terminal 161 of the described joints of optical fibre 16 all is arranged at locating towards the below of described cover plate 11; the gate 18 of the described sliding door module 181 of arranging in pairs or groups as described output terminal 161; not only attractive in appearance and function that have protection concurrently more helps providing extraneous described connection line of optic fibre 5 to be pegged graft using; can use described plate washer 182 to be incorporated in the affiliated described combining mechanism 17 in default 14 of the untapped perforates in thickness of slab 110 places of described output terminal 161 corresponding another sides; described untapped perforate 14 is sealed; invade to prevent foreign matter; reach holder 15 positions that the utility model fibre faceplate structure 1 only need change the institute's combination on the described second plate face 112 of the described joints of optical fibre 16; and cooperate and to turn to 180 degree to be installed on the described Power entry module 3, promptly be directed in Connectorized fiber optic cabling 4 the end of a thread positions of being buried underground in the described block terminal 31 and combine with described Power entry module 3 applicable to different directions.

See also Fig. 7 also with reference to shown in figure 6A, Fig. 6 B, Fig. 7 is the optical fiber reason line synoptic diagram of fibre faceplate structure of the present utility model.At first, please refer to shown in Fig. 6 A, Fig. 6 B, the described Connectorized fiber optic cabling of being reserved in the described block terminal 31 of described Power entry module 34, in described block terminal 31, cause the extruding bending easily, cause the end of a thread of described Connectorized fiber optic cabling 4 long and, and then influence operating efficiency because of the coiling institute that arches upward causes construction inconvenience; See also shown in Figure 7, position on the described second plate face 112 of the utility model fibre faceplate structure 1 is provided with a plurality of reason lines unit 13, can make described Connectorized fiber optic cablings 4 in the described block terminal 31 fixing and wind the line on described second panel 112 by a plurality of reason lines unit 13.

Described reason line unit 13 is that two corresponding arcs protrude piece, and be in order to described Connectorized fiber optic cabling 4 is fastened in its space, interval every the space between the arc top that relative two arcs protrude piece is reserved, and described Connectorized fiber optic cabling 4 can be wound the line on the described reason line unit 13 of the other end along the cambered surface two terminal bendings that its two arc protrudes piece by the cambered surface curvature that two arcs protrude piece, make described Connectorized fiber optic cabling 4 respectively along twining between the described reason line unit 13, again with described holder 15 on the described joints of optical fibre 16 utilize the described joints of optical fibre 6 to do to be electrically connected, to guarantee the on line quality of described Connectorized fiber optic cabling 4.In the embodiment shown in Fig. 8 A, near four corners of each containing hole 12 on the second plate face 112, be provided with a reason line unit 13 respectively.In other words, the corner between two adjacent containing holes 12 just has and is provided with two inclinations, adjacent and be the reason line unit 13 that an angle of 90 degrees is provided with mutually.By this kind design, no matter make Connectorized fiber optic cabling 4 be from that direction begin around or to all can reach the coiling function easily around to that direction by reason line of the present utility model unit 13.

See also shown in Fig. 8 A, Fig. 8 A is the perspective exploded view of the seben and the cover plate of fibre faceplate structure of the present utility model.Wherein, described fibre faceplate structure 1 more includes a seben 7; Described seben 7 more includes: a buckle 71 and a projecting surface 72.On the described second plate face 112 and be positioned at described containing hole 12 dual-sides and be provided with a plurality of location structures 8 with respect to 7 liang of buckles 71 of described seben, be incorporated in the described location structure 8 with the described buckle 71 that described seben 7 is provided, and then described containing hole 12 untapped parts are sealed, and in the time of in described seben 7 is incorporated into described containing hole 12, the described projecting surface 72 proper described first plate faces 111 with described cover plate 11 of described seben 7 are the level of state.

See also shown in Fig. 8 B, Fig. 8 B is the seben of fibre faceplate structure of the present utility model and the synoptic diagram that combines of cover plate.In present embodiment, described containing hole 12 can be inserted three groups of sebens 7 in it respectively, and utilize described buckle 71 to be incorporated into respectively in the set described location structure 8 of described containing hole 12 dual-sides, the described projecting surface 72 and the described first plate face 111 of described cover plate 11 are the level of state, also can the openwork part of described socket 33 will be provided with in the described containing hole 12, utilize described seben 7 its hollow out place can be filled up, can have concurrently attractive in appearance and prevent that foreign matter from invading and cause short circuit.

See also Fig. 9, be combine with the perforate 14 of cover plate 11 partial enlarged drawing at place of an embodiment of the sliding door module 181 of the utility model fibre faceplate structure.In present embodiment, described sliding door module 181 is not simple monolithic door-plate, and is a modular tambour door structure, and it includes: sliding door plate 183, a spring 184 and a hollow housing 185.Described housing 185 is made of two lid phase clampings, and at the housing 185 inner hollow spaces that form.Described sliding door plate 183 and spring 184 all are the hollow spaces and slidably that is placed in the housing 185.One end of described spring 184 is that inside surface spring 184 other ends of replacing housing 185 1 ends then are ends of replacing the plate 183 of pulling.So, move and will make spring 184 distortion when opening and produce a restoring force when sliding door plate 183 is subjected to external force; And when the external force that is applied to sliding door plate 183 disappeared, sliding door plate 183 will automatically reply the position of closing originally because of the restoring force of spring 184.In the present embodiment, more be respectively equipped with one group of fin 171 structure, and also be respectively equipped with and aforementioned fin 171 corresponding trip 1851 structures in nearly two ends of the housing 185 of sliding door module 181 in nearly two ends of the combining mechanism 17 of cover plate 11.Make the housing 185 of sliding door module 181 can be by going in the corresponding fin 171 sliding door module 181 is positioned in the combining mechanism 17 with trip 1851 is chimeric, not only the location is more certain firmly, and more significantly improves the structural strength of cover plate 11 at described combining mechanism 17 places because of the design of fin 171.

In sum, fibre faceplate structure 1 of the present utility model, wherein, the described second plate face 112 of described cover plate 11 is provided with described combining mechanism 17, described gate 18 is to be incorporated within the described combining mechanism 17, and it is the relative dual-side place that is arranged at described default thickness of slab 110 for described perforate 14, and the position of described two perforates 14 is mutual correspondences, and is positioned at described cover plate 11 the same sides.Distinctly being provided with described holder 15 on the described second plate face 112 and with respect to place, described two perforates 14 rear positions, is the described joints of optical fibre 16 can be selected one to be fixed in the described holder 15.

The described second plate face 112 is provided with a plurality of reason lines unit 13, can be with 13 windings of described Connectorized fiber optic cabling 4 along described reason line unit, and be fixed on the described reason line unit 13, it is long and cause construction inconvenience to influence operating efficiency because of the coiling institute that arches upward to avoid Connectorized fiber optic cabling 4 to be reserved in the end of a thread in the described block terminal 31.

Described seben 7 more includes: a buckle 71 and a projecting surface 72.On the described second plate face 112 and be positioned at described containing hole 12 dual-sides and be provided with a plurality of location structures 8 with respect to 7 liang of buckles 71 of described seben, be incorporated in the described location structure 8 with the described buckle 71 that described seben 7 is provided, and then described containing hole 12 untapped parts are sealed.

But above-described embodiment shall not be applied to restriction range of application of the present utility model, and protection domain of the present utility model should be based on claim content institute's definition techniques spirit of the present utility model and the impartial scope that is included that changes thereof.Promptly the equalization of being done according to the utility model claim generally changes and modifies, and will not lose main idea of the present utility model place, does not also break away from spirit and scope of the present utility model, and the former capital should be considered as further enforcement situation of the present utility model.

Claims (10)

1. a fibre faceplate structure is characterized in that, includes:

One cover plate, it is to have one pre-thickness of slab, and one first plate face and one second plate face are arranged;

At least one containing hole, it is to be arranged on the described first plate face, and runs through the described second plate face;

The relative dual-side of described default thickness of slab is located at least two perforates respectively, and the position of described two perforates be corresponding mutually and all the position in the same side of cover plate; And

At least two holders, it is to be positioned on the described second plate face and to correspond to two tappings respectively, described holder is to fix joints of optical fibre;

One combining mechanism, it is to place on the described second plate face and be positioned at described perforate rear and described holder central position relatively; And

At least one gate is to be arranged within the described combining mechanism, described gate comprise at least following one of them: sliding door module and a paper plate.

2. fibre faceplate structure as claimed in claim 1 is characterized in that, more includes a plurality of reason lines unit, and it is to be arranged on the described second plate face, and a Connectorized fiber optic cabling is fixed and wound the line thereon; Described reason line unit is that two corresponding arcs protrude piece, described Connectorized fiber optic cabling is fastened in relative two arcs and protrudes in the clearance space on arc top of piece, and described Connectorized fiber optic cabling can be wound the line on the described reason line unit of the other end along the cambered surface two terminal bendings that its two arc protrudes piece by the cambered surface curvature that two arcs protrude piece; Being fixed in described Connectorized fiber optic cabling on the described second plate face by described reason line unit does with the joints of optical fibre on the described holder and is connected, and with the other end of the described joints of optical fibre, see through the described gate that is arranged on the described combining mechanism the pairing described perforate of its described joints of optical fibre is opened, do binding with the external world.

3. fibre faceplate structure as claimed in claim 1 is characterized in that described cover plate is provided with a plurality of conjugate foramens, and is incorporated on the Power entry module through a plurality of screws; And described Power entry module more includes: a block terminal, at least one jack frame and at least one socket; Described cover plate is to be incorporated on the described jack frame.

4. fibre faceplate structure as claimed in claim 1 is characterized in that, more includes a seben, and it is to be incorporated in the described containing hole, and is relatively set with at least one buckle in described seben dual-side; On the described second plate face and be positioned at described containing hole dual-side and be provided with a plurality of location structures with respect to described buckle, described buckle is incorporated in the described location structure, and the untapped part of described containing hole is sealed.

5. fibre faceplate structure as claimed in claim 1 is characterized in that, described sliding door module includes: sliding door plate, a spring and a hollow housing; Described sliding door plate and spring all are the hollow spaces that is placed in the housing; Wherein, two ends in the combining mechanism of cover plate more are respectively equipped with one group of rib structures, and two ends of housing in the sliding door module also are respectively equipped with and the corresponding coupler construction of aforementioned fin, make the housing of sliding door module can be by going in the corresponding fin sliding door module is positioned in the combining mechanism with trip is chimeric.

6. a fibre faceplate structure is characterized in that, includes:

One cover plate, it is to have a default thickness of slab, and one first plate face and one second plate face are arranged;

At least one containing hole, it is to be arranged on the described first plate face, and runs through the described second plate face;

At least one perforate is arranged at the described default thickness of slab place of a side of cover plate;

At least one holder, it is to be positioned on the described second plate face and to correspond to described tapping, described holder is to fix joints of optical fibre; And

A plurality of reason lines unit, it is to be arranged on the described second plate face, can be for a Connectorized fiber optic cabling being fixed and being wound the line thereon;

Wherein, described reason line unit is that two corresponding arcs protrude piece, described Connectorized fiber optic cabling is fastened in relative two arcs and protrudes in the clearance space on arc top of piece, and described Connectorized fiber optic cabling can be wound the line on the described reason line unit of the other end along the cambered surface two terminal bendings that its two arc protrudes piece by the cambered surface curvature that two arcs protrude piece.

7. fibre faceplate structure as claimed in claim 6 is characterized in that, more includes:

One combining mechanism, it is to place on the described second plate face and be positioned at described perforate rear and described holder central position relatively; And

One gate is to be arranged within the described combining mechanism, its include at least following one of them: sliding door module and a paper plate;

Wherein, the quantity of described perforate and holder is at least two, and described two perforates are to be arranged at the relative dual-side of described default thickness of slab and corresponding mutually respectively;

Wherein, two ends in the combining mechanism of cover plate more are respectively equipped with one group of rib structures, and two ends of housing in the sliding door module also are respectively equipped with and the corresponding coupler construction of aforementioned fin, make the housing of sliding door module can be by going in the corresponding fin sliding door module is positioned in the combining mechanism with trip is chimeric.

8. fibre faceplate structure as claimed in claim 6 is characterized in that, more includes a seben, and it is to be incorporated in the described containing hole, and is relatively set with a buckle in described seben dual-side; On the described second plate face and be positioned at described containing hole dual-side and be provided with a plurality of location structures with respect to described seben two buckles, described buckle is incorporated in the described location structure, and the untapped part of described containing hole is sealed.

9. a fibre faceplate structure is characterized in that, includes:

One cover plate, it is to have a default thickness of slab, and one first plate face and one second plate face are arranged;

At least one containing hole, it is to be arranged on the described first plate face, and runs through the described second plate face;

At least one perforate is arranged at the described default thickness of slab place of a side of cover plate;

At least one holder, it is to be positioned on the described second plate face and to correspond to described tapping, described holder is to fix joints of optical fibre; And

At least one seben, it is to be incorporated in the described containing hole, and is relatively set with a buckle in described seben dual-side;

Wherein, on the described second plate face and be positioned at described containing hole dual-side and be provided with a plurality of location structures with respect to described seben two buckles, described buckle is incorporated in the described location structure, and the untapped part of described containing hole is sealed.

10. fibre faceplate structure as claimed in claim 9 is characterized in that, more includes:

One combining mechanism, it is to place on the described second plate face and be positioned at described perforate rear and described holder central position relatively; And

One gate is to be arranged within the described combining mechanism, its include at least following one of them: sliding door module and a paper plate;

Wherein, the quantity of described perforate and holder is at least two, and described two perforates are to be arranged at the relative dual-side of described default thickness of slab and corresponding mutually respectively;

Wherein, two ends in the combining mechanism of cover plate more are respectively equipped with one group of rib structures, and two ends of housing in the sliding door module also are respectively equipped with and the corresponding coupler construction of aforementioned fin, make the housing of sliding door module can be by going in the corresponding fin sliding door module is positioned in the combining mechanism with trip is chimeric.

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