CN201754584U - Fiber optic communication conversion device - Google Patents

Abstract

The utility model relates to a fiber optic communication conversion device which comprises a casing, an optical fiber wire for providing an optical communication signal, an photoelectric conversion module mounted in the casing, a first optical fiber winding structure and a second optical fiber winding structure. The first optical finer winding structure is formed on the photoelectric conversion module and the photoelectric conversion module is mounted in the casing to have optical fiber collecting function. The second optical fiber winding structure is formed on the inner side of the casing. The optical fiber wire is wound on any one of the first and second optical fiber winding structures. The fiber optic communication conversion device has simple structure, saves space and material source, is convenient for mounting and meets different mounting requirements.

Description

The optical fiber communication conversion equipment

Technical field

The utility model relates to the optical fiber communication conversion equipment, relates in particular to the optical fiber communication conversion equipment that need carry out optical fiber reason line.

Background technology

Optical fiber communication is owing to have the characteristic of long distance and high-speed transfer, the existing in recent years situation that replaces traditional copper wire communication gradually.In addition, much more more and more communications applications are also arranged,, can integrate with optical fiber communication equipment such as the number of degrees inquiry of internet, cable TV, the networking telephone even ammeter/water meter etc., so the application of optical fiber communication is constantly enlarged, with general daily even life staying idle at home is closely bound up.

Based on this reason, many buildings promptly have and consider the target that Fiber to the home (Fiber To TheHome) and build at the cloth that each household carries out fibre circuit in advance in newly-built.Yet, under most situation, when fiber optic cloth is built, and can't consider in advance or determine each user whether desire use the demand of optical fiber communication equipment and use.On the other hand; because prices are rather stiff and easily broken for optical fiber cable; limited again itself material behavior; and can't cut out voluntarily at the cable wiring manufacture scene; need after finishing optical fiber distributing, to reserve the optical fiber of one section suitable length; and, collect and protect long optical fiber cable with the independent and extra reason line box (cable manager) that is provided with.

Fig. 1 is the use schematic diagram of known fiber optic reason line box.Optical fiber reason line box 1 has housing 11, optical fiber winding structure 12 and through hole 13.Through hole 13 is formed on the housing 11, so that optical fiber cable 5 can be introduced into optical fiber reason line box 1 inside via through hole 13.

When carrying out the optical fiber wiring, at first optical fiber is managed line box 1 and be installed on the appropriate location of (scheming not shown) on the wall, via through holes 13 is introduced optical fiber reason line box 1 inside with optical fiber cable 5 more afterwards, and is wound in optical fiber winding structure 12.Thus, the excessive portion of optical fiber cable 5 after distribution is finished can be organized and be placed in the optical fiber reason line box 1 and be protected.

In case the user desires to install in addition optical fiber communication equipment or conversion equipment (scheming not shown), promptly need optical fiber cable 5 is pulled out one section or whole in optical fiber reason line box 1, connect again afterwards or be wrapped in again in the optical fiber communication equipment or conversion equipment of above-mentioned desire installation; At this moment, optical fiber reason line box 1 need be installed near the new clothes equipment in the lump, need not or must be abandoned.

Below further disclose some prior aries relevant with the utility model, wherein:

China's utility model patent notification number has disclosed the fine device of a kind of dish for No. 2932415, it can be fixed on the circuit board, and coil at this electronic component installation site is set on the fine device,, help improving the degree of miniaturization of product to save the arrangement space on the circuit board.Yet this patent and not mentioned mounting circuit boards and coil the housing of fine device are so also can't solve above-mentioned optical fiber reason line problem with it.

The novel patent announcement of TaiWan, China has then disclosed a kind of reason drum number No. 248115, and its one side at disk body is provided with a guide ring, is provided with a projecting ring section at another side, makes the two sides of this disk body can collect the telecommunication letter transmission line of being reeled.Yet, because the one that is designed in the use such as this reason drum and circuit board and housing etc. is installed, do not have modular design, so it also can't satisfy the optical fiber reason line demand of installing and not installing photoelectric conversion module simultaneously.

The novel patent announcement of TaiWan, China has disclosed a kind of FTTH module number No. 286376, comprise body and be pivoted to the optical fibre reel of this body, by making optical fibre reel be rotarily opened, operate as optical network unit module and medium converter module etc. with easy disassembly.Yet it needs additionally to use a wire spool element independently, and the pin-jointed structure of wire spool element still need spend the more time in assembling, and is more fragile in the use, and also can face as many restrictions such as component size in design, makes its applicable scope narrower.

The novel patent announcement of TaiWan, China has then disclosed a kind of communication apparatus transducer of tool line concentration function number No. 299444, this transducer is that optical fiber is concealed in the backboard that can be fixed on the wall by the arrangement of a line concentration dish or fiber fixed seat, to reach temporary transient ccontaining purpose.And desire as long as circuit element is installed in the housing of being made up of loam cake and lower cover, and gets final product this housing snapping to this backboard when circuit element is installed, and can be rated as convenience installing.Yet,, aspect the flow process of managing line at the optical fiber of different installation situations, still have the space of further research improvement because its optical fiber favorite places is positioned among the backboard.

By above narration as can be known, the mode of known installation optical fiber is not to cause optical fiber to damage in operating process easily, and it is too loaded down with trivial details that formality is installed exactly, or structure is too complicated, and cause the waste of space or resource.In addition, the optical fiber in the known technology all can only be collected in fixing position, the selection elasticity of shortcoming during in the face of different installation requirements.These disappearances are all demanded improvements urgently.

The utility model content

The technical problem that the utility model mainly solves is, at the prior art above shortcomings, provides a kind of different installation requirements, easy for installation simple and save the optical fiber communication conversion equipment of space and material resources that satisfy.

The technical scheme that its technical problem that solves the utility model adopts provides a kind of optical fiber communication conversion equipment, and it comprises: housing; In order to the optical fiber cable of communicate optical signal to be provided; Be installed on the photoelectric conversion module in this housing; Be formed on this photoelectric conversion module and when being installed on this photoelectric conversion module in this housing, carry out the first optical fiber winding structure of optical fiber reason line; And be formed at this housing inboard, be used for the second optical fiber winding structure of optical fiber reason line; Wherein, this optical fiber cable is wound on arbitrary in this first optical fiber winding structure and the second optical fiber winding structure.

This photoelectric conversion module comprises at least one electronic component; In order to the circuit board of this at least one electronic component to be installed; And be installed on upper shell on this circuit board; Wherein, this first optical fiber winding structure is formed at the upper surface of this upper shell.

This housing also comprises first through hole, and this optical fiber cable enters this housing and is wrapped on this first optical fiber winding structure through this first through hole in this photoelectric conversion module is installed on this housing the time.

This first through hole is positioned at a side of this housing.

This at least one electronic component and this upper shell are installed on the same side of this circuit board, and this upper shell is provided with a plurality of louvres.

This housing also comprises a plurality of snap-in structures that can engage mutually with this circuit board.

This at least one electronic component comprises at least one photosignal conversion element, at least one network communication elements and at least one electronic communication connector, wherein, at least one photosignal conversion element is in order to convert this communicate optical signal to the electronic communication signal or the electronic communication conversion of signals is become this communicate optical signal; At least one photosignal conversion element of at least one network communication elements and this is electrically connected, to transmit and to handle this electronic communication signal; At least one electronic communication connector is electrically connected to this network communication elements, to export and to import this electronic communication signal.

The loam cake that this housing comprises base and is articulated in this base, wherein, this base is provided with second through hole; Wherein, this second optical fiber winding structure is formed at this base inboard, this optical fiber cable can through this second through hole enter this housing and be wrapped in this second optical fiber winding structure or this first optical fiber winding structure on.

This photoelectric conversion module uses external power source, and this optical fiber communication conversion equipment provides the stand-by power supply of electric energy when also being included in the external power source interruption of power supply for this photoelectric conversion module, is built in this stand-by power supply in this housing.

The utility model also provides a kind of optical fiber communication conversion equipment, and it comprises: housing; In order to the optical fiber cable of communicate optical signal to be provided; Be located at this housing inboard, can carry out the optical fiber winding structure that optical fiber is managed line this optical fiber cable; A plurality ofly be located at the photoelectric conversion module snap-in structure that this housing is inboard and can fasten with photoelectric conversion module; And photoelectric conversion module, be formed with the optical fiber winding structure that another can carry out optical fiber reason line after in this photoelectric conversion module is installed on this housing to this optical fiber cable on this photoelectric conversion module.

The utility model is by providing two kinds of different installation reason ray mode and structures in the optical fiber communication conversion equipment, the function that makes same housing can integrate reason line box and photoelectric conversion module is installed, like this, not only significantly simplify for example installation procedure of photoelectric conversion device when optical fiber connects up such as residential gateway device, make that also the flow process of wiring is more succinct, space utilization is more abundant, saves space and material resources, reduces the impaired chance of optical fiber cable.

Description of drawings

Fig. 1 is the schematic perspective view of known fiber optic reason line box.

Fig. 2 is the schematic perspective view of the utility model optical fiber communication conversion equipment preferred embodiment.

Fig. 3 is the schematic perspective view of another angle of optical fiber communication conversion equipment shown in Figure 2.

Fig. 4 is equipped with the schematic diagram of photoelectric conversion module for optical fiber communication conversion equipment shown in Figure 2.

Fig. 5 is the decomposing schematic representation of optical fiber communication conversion equipment shown in Figure 2.

Embodiment

For convenience of description, illustrate that in advance following each is graphic; Wherein, Fig. 2 and Fig. 3 are respectively the top of the utility model one preferable optical fiber communication conversion equipment 2 and the schematic perspective view of bottom; Fig. 4 is equipped with the schematic diagram of photoelectric conversion module for optical fiber communication conversion equipment shown in Figure 2; As for Fig. 5, then be the decomposing schematic representation of optical fiber communication conversion equipment shown in Figure 2.

In Fig. 2 and Fig. 3, optical fiber communication conversion equipment 2 is designed to can ccontaining installation photoelectric conversion module 21, and its outside is a housing 22.

Wherein, photoelectric conversion module 21 will be waited until subsequent detailed; As for housing 22, then comprise base 221 and loam cake 222.One side of housing 22 has first through hole 223, passes through to allow optical fiber cable.And also have second through hole 224 that the tolerable optical fiber cable passes through on the base 221.Housing 22 also is provided with wall hanging fixed structure 226 on the base 221, so that can install and fix on the wall.

Combine with pin-jointed structure 225 between base 221 and the loam cake 222, make loam cake 222 relatively base 221 pivot, with the function that realizes that housing 22 opens and closes.In addition, be respectively equipped with corresponding snap-in structure 2214 and 2223 (referring to Fig. 4) on base 221 and the loam cake 222, and 2213 and 2222 (referring to Fig. 5), when closing on base 221, provide the engaging function at loam cake 222.

Please consult Fig. 4 and Fig. 5 again, wherein, photoelectric conversion module 21 comprises upper shell 211, circuit board 212 and is installed at least one electronic component 213 on the circuit board.

Wherein, upper shell 211 and electronic component 213 all are installed in the same side of circuit board 212.212 of upper shell 211 and circuit boards are fixing by a plurality of fixed legs 215, and wherein the two ends of each fixed leg 215 are passed the fixing hole 2113 that is positioned on the upper shell 211 and the fixing hole 2121 on the circuit board 212 respectively.

The upper surface of upper shell 211 is formed with the first optical fiber winding structure 2111, so that the optical fiber line windering function to be provided.In addition, upper shell 211 keeps a suitable distance by side 2114 and circuit board 212, and is distributed with a plurality of louvres 2112 on its surface.

The most basic function of photoelectric conversion module 21, for the optical communication line/connection of electronic communication circuit and the conversion of signal are provided, therefore, electronic component 213 comprises following several elements at least: at least one converts communicate optical signal to the electronic communication signal, or the electronic communication conversion of signals is become the photosignal conversion element 2131 of communicate optical signal; At least one network communication elements 2132 is electrically connected with this at least one photosignal conversion element 2131, with transmission/processing electronic communication signal; And at least one electronic communication connector 2133, in order to connect network communication elements 2132 and electronic communication circuit (not shown).

Except that the network service signal, optical fiber communication conversion equipment 2 also can be integrated the signal line that connects other, as wired TV cable, conventional telephone line etc.That is to say, optical fiber communication conversion equipment 2 can be a residential gateway device (Residential Gateway), integrate router (Router), switch hub (Switching Hub), cable/equipment such as xDSL modulator-demodulator, and linked the network architecture of two or more different kenels, a kind of multifunctional platform that makes the equipment on the heterogeneous networks framework can interconnect, move is provided.

For example, as shown in Figure 5, exposing one outside the housing 22 by grooved opening 229 arranges in the electronic communication connector 2133, can comprise connectors such as various network and telephone socket, cable TV cable joint, and provide grid line/camera cable line to connect and/or telephone wire I/O functions such as (line in/line out), and and then internet, the networking telephone (VOIP), black phone, and the Connection Service of cable TV etc. are provided, make optical fiber communication conversion equipment 2 integrate the network service of different kenels such as internet, traditional telephone network and cable TV network.Certainly, 2132 integrated circuit or other electron components of aforementioned network communication device for carrying out above-mentioned each network service and connecting the indivedual of conversion therebetween or integrate.

In addition, a plurality of light-emitting diodes 2134 are installed also on the circuit board 212, in order to showing the operating state of various functions, the luminance of each light-emitting diode 2134 are directed to the window 2221 of loam cake 222, observe for the user with light-guide device 216.

Moreover the second optical fiber winding structure 2211 is formed at base 221 inboards, so that housing 22 itself also can have the optical fiber line windering function.As shown in Figure 5, also comprise a plurality of snap-in structures 2212 in the housing 22, for the usefulness that engage mutually with circuit board 212.Like this, need only the location push of circuit board 212 being aimed at snap-in structures 2212, can easily photoelectric conversion module 21 be installed in the housing 22.

For some functions that make optical fiber communication conversion equipment 2 can normally be moved, the essential external power supplys of photoelectric conversion module 21 (as civil power etc.).Power connection 217 shown in Figure 5 after assembling is finished, can see through power hole 227, is connected with the external power source (not shown).Yet, normally move in order for example when having a power failure, still to make functions such as the networking telephone, as shown in Figure 5, in housing 22, also provide stand-by power supply 6, with when the external power source interruption of power supply, provide photoelectric conversion module 21 electric energy.Stand-by power supply 6 can be battery, is installed in the battery case 228, changes when need being convenient to.

By the first optical fiber winding structure 2111 and the second optical fiber winding structure 2211 are provided respectively on photoelectric conversion module 21 and housing 22, optical fiber communication conversion equipment 2 can provide the optical fiber line windering function under following two kinds of Installation Modes.

First kind of pattern as shown in Figure 4, is to have carried out optical fiber reason line under photoelectric conversion module 21 has been installed in the situation of housing 22; That is penetrate optical fiber cable 3 in the housing 22 via first through hole 223 this moment, just can directly be wound on the first optical fiber winding structure 2111.Because first through hole 223 is the sides that are positioned at housing 22, and the first optical fiber winding structure 2111 is formed in upper shell 211 or other handled easily coiling part of photoelectric conversion module 21, as long as it is can manage the line operation, very convenient so the user opens loam cake 222.

Second kind of pattern is under the situation that photoelectric conversion module 21 is not installed, and directly carries out optical fiber reason line with housing 22.When using this kind pattern, as shown in Figure 5, optical fiber cable 3 is introduced in the housing 22 via second through hole 224, and used the second optical fiber winding structure, 2211 arrangement optical fiber cables 3.Like this, housing 22 itself just becomes the reason line box of optical fiber cable 3, and when as if desire photoelectric conversion module 21 being installed in the future, as long as open loam cake 222, and photoelectric conversion module 21 is snapped on the snap-in structure 2212 of housing 22 and get final product, do not need to re-use erecting tools fully, and original housing 22 as reason line box, because integrate with the function of ccontaining photoelectric conversion module 21, so also need not abandon or install additional in addition housing.When photoelectric conversion module 21 was installed, optical fiber cable 3 had been wrapped in the part of the second optical fiber winding structure 2211 and can not need have taken off, as long as its end is connected to optical fiber splice 214, or directly was connected to photosignal conversion element 2131 and got final product.

Certainly, if actual applicable cases has needs, the optical fiber cable 3 that is around on the second optical fiber winding structure 2211 still can partly or entirely take off, and is wrapped in again on the first optical fiber winding structure 2111.

When using first kind of pattern reason line, optical fiber cable 3 also can enter housing 22 from second through hole 224 except from first through hole, 223 inlet wires.See also Fig. 3, introduce optical fiber cable 3 if select than second through hole 224 of top (promptly near wall hanging fixed structure 226), because this position end (referring to Fig. 4) that incomplete driving fit is installed near photoelectric conversion module 21 and housing 22, make optical fiber cable 3 be able to after second through hole 224 is introduced housing 22, cause the first optical fiber winding structure 2111 again from the below of photoelectric conversion module 21 and manage line.

When carrying out the installation of relevant optical fiber communication conversion equipment 2 of the present utility model, the end of the optical fiber cable 3 of the length in reserve after at first optical fiber being connected up provides housing 22 to manage the installation of line and/or photoelectric conversion module.

Above-mentioned fiber optic cloth linear flow journey usually but the wiring flow process that is not limited to that Fiber to the home.And when being routed to each family or each applying unit, because the characteristic of optical fiber cable itself, the optical fiber that needs to reserve certain-length is desired the elasticity configuration of connection device position in order to subsequent installation and institute, so usually can the direct cutting at the scene of connecting up.Therefore when fiber optic cloth linear flow journey proceeds to the optical fiber reason line of optical fiber cable end and/or flow process that device is installed, whether determined during again with wiring will photoelectric conversion module be installed and be subdivided into following two kinds of Installation Modes:

Pattern one: determined during wiring photoelectric conversion module will be installed, the photoelectric conversion module of tool winding structure then is provided, be about to upper shell shown in Figure 5 211 and be fixed on the circuit board 212, to be combined into a complete photoelectric conversion module 21 with fixed leg 215.The snap-in structure 2212 that photoelectric conversion module 21 is aimed on the housing 22 pushes again, so that photoelectric conversion module 21 is sticked in the housing 22, forms bonding state as shown in Figure 4.Optical fiber cable 3 is introduced and is around on the first optical fiber winding structure 2111 from first through hole 223 or second through hole 224, be linked to again at last on the optical fiber splice 214, can finish installation.

Pattern two: do not determine whether during wiring photoelectric conversion module will be installed, then can photoelectric conversion module 21 be installed to the situation of housing 22, optical fiber cable 3 is introduced from second through hole 224, and be around on the second optical fiber winding structure 2211.After the coiling flow process is finished, loam cake 222 and base 221 are covered, optical fiber cable 3 can be concealed in the housing 22 validly.

If decision will increase installation photoelectric conversion module 21 again in the future, then can photoelectric conversion module 21 directly be installed again in housing 22.Wherein, under most situation, do not need to take off the optical fiber cable 3 on the second optical fiber winding structure 2211, and after can directly photoelectric conversion module 21 being snapped into housing 22, the end of optical fiber cable 3 is connected to optical fiber splice 214, or directly is connected to photosignal conversion element 2131 and gets final product.

In some situation, then must be partly or entirely being around in after optical fiber cable 3 on the second optical fiber winding structure 2211 takes off, photoelectric conversion module 21 is installed among the housing 22, optical fiber cable 3 changed again be wound on the first optical fiber winding structure 2111, last again the end of optical fiber cable 3 is connected to optical fiber splice 214, or directly is connected to photosignal conversion element 2131.

Since optical fiber cable very easily because of pull or action such as crimping impaired, so before above-mentioned winding flow process is carried out, can earlier housing 22 be fixed in the position (housing 22 being fixed on the wall) of institute's desire installation as utilizing wall hanging fixed structure 226 shown in Figure 3.

In addition, for the selection of the installation site that makes housing 22 has more elasticity, no matter be that first through hole 223 or second through hole 224 all can a plurality of positions on housing 22 be reserved simultaneously and offered.As shown in Figure 4, can all offer first through hole 223 in the both sides of housing 22, when carrying out optical fiber reason linear flow journey, select one again and introduce optical fiber cable 3, or as shown in Figure 3, reserving the circular hole position that to open more than two on the base 221, when need use the second optical fiber winding structure 2211 to carry out optical fiber reason line, select one of them suitable circular hole position, open the back and form second through hole 224, so that introduce optical fiber cable 3.

The utility model is by providing two kinds of different installation reason ray mode and structures in the optical fiber communication conversion equipment, make same housing can integrate the function of reason line box and installation photoelectric conversion module, like this, not only significantly simplify for example installation procedure of photoelectric conversion device when optical fiber connects up such as residential gateway device, make that also the flow process of wiring is more succinct, space utilization is more abundant, saves space and material resources, reduces the impaired chance of optical fiber cable.

The above only is preferred embodiment of the present utility model; be not in order to limit practical range of the present utility model; therefore all other do not break away from the equivalence of being finished under the spirit that the utility model discloses and changes or modify, and all should be included in the protection range of the present utility model.

Claims (10)

1. optical fiber communication conversion equipment is characterized in that: comprising:

Housing;

In order to the optical fiber cable of communicate optical signal to be provided;

Photoelectric conversion module is installed in this housing;

When being installed on this photoelectric conversion module in this housing, carry out the first optical fiber winding structure of optical fiber reason line, be formed on this photoelectric conversion module; And

Be used for the second optical fiber winding structure of optical fiber reason line, be formed at this housing inboard;

Wherein, this optical fiber cable is wound on arbitrary in this first optical fiber winding structure and the second optical fiber winding structure.

2. optical fiber communication conversion equipment as claimed in claim 1 is characterized in that: this photoelectric conversion module comprises:

At least one electronic component;

In order to the circuit board of this at least one electronic component to be installed; And

Be installed on the upper shell on this circuit board; Wherein, this first optical fiber winding structure is formed at the upper surface of this upper shell.

3. optical fiber communication conversion equipment as claimed in claim 2, it is characterized in that: this housing also comprises first through hole, and this optical fiber cable enters this housing and is wrapped on this first optical fiber winding structure through this first through hole in this photoelectric conversion module is installed on this housing the time.

4. optical fiber communication conversion equipment as claimed in claim 3 is characterized in that: this first through hole is positioned at a side of this housing.

5. optical fiber communication conversion equipment as claimed in claim 2 is characterized in that: this at least one electronic component and this upper shell are installed on the same side of this circuit board, and this upper shell is provided with a plurality of louvres.

6. optical fiber communication conversion equipment as claimed in claim 2 is characterized in that: this housing also comprises a plurality of snap-in structures that can engage mutually with this circuit board.

7. optical fiber communication conversion equipment as claimed in claim 2 is characterized in that: this at least one electronic component comprises:

In order to this communicate optical signal converted to the electronic communication signal or the electronic communication conversion of signals to be become at least one photosignal conversion element of this communicate optical signal;

At least one network communication elements is electrically connected with this at least one photosignal conversion element, to transmit and to handle this electronic communication signal; And

At least one electronic communication connector is electrically connected to this network communication elements, to export and to import this electronic communication signal.

8. optical fiber communication conversion equipment as claimed in claim 1 is characterized in that: this housing comprises:

Base is provided with second through hole; Wherein, this second optical fiber winding structure is formed at this base inboard, this optical fiber cable can through this second through hole enter this housing and be wrapped in this second optical fiber winding structure or this first optical fiber winding structure on; And

Loam cake is articulated in this base.

9. optical fiber communication conversion equipment as claimed in claim 1, it is characterized in that: this photoelectric conversion module uses external power source, and the stand-by power supply of electric energy is provided for this photoelectric conversion module when this optical-fibre communications conversion equipment also is included in the external power source interruption of power supply, is built in this stand-by power supply in this housing.

10. optical fiber communication conversion equipment is characterized in that: comprising:

Housing;

In order to the optical fiber cable of communicate optical signal to be provided;

Can carry out the optical fiber winding structure of optical fiber reason line to this optical fiber cable, be located at this housing inboard;

A plurality of photoelectric conversion module snap-in structures that can fasten with photoelectric conversion module are located at this housing inboard; And

Photoelectric conversion module is formed with the optical fiber winding structure that another can carry out optical fiber reason line after in this photoelectric conversion module is installed on this housing to this optical fiber cable thereon.

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