CN101982797A - Optical fibre connection device - Google Patents

Abstract

An embodiment of the invention discloses an optical fibre connection device relating to the field of optical fibre connection. Technical problems of narrow application range and low detection efficiency for a connector in the prior technology are solved. The optical fibre connection device comprises at least one identification information storage module and a data processing module, and further comprises a display module and/or a warning module, the data processing module is used for controlling the display module to display address information of an optical fibre data transmission port, identification information of the optical fibre connector connected to the optical fibre data transmission port corresponding to the address information of the optical fibre data transmission port, and identification information of the optical fibre connector that is pre-set to be connected to the optical fibre data transmission port corresponding to the address information of the optical fibre data transmission port; and/or, the data processing module is used for controlling the warning module to sending warning information when the identification information of the optical fibre connector is not coincident to the identification information of the optical fibre connector that is pre-set to be connected to the optical fibre data transmission port. The invention is used for optical fibre connection.

Description

Optical fiber splicing device

Technical field

The present invention relates to optical fiber interconnection technique field, be specifically related to a kind of optical fiber splicing device.

Background technology

Along with the development of fiber optic network technology, from FTTC, Fiber To The Building develops into present optical fiber and register one's residence, (or claim: density optical patchcord) is more and more higher for jumping fiber in operator's machine room.A large amount of optical fiber connects up and has brought the difficult problem in the fiber management to operator.How to avoid the mistake butt joint between the port, how in time to find the fault of distribution port, become the problem of operator's special concern in construction and maintenance.

Optical Distribution Frame is a kind of equipment that optical fiber is carried out physical connection, Optical Distribution Frame is made up of fiber distribution module, fiber distribution module comprises a plurality of adapters, each adapter is provided with two continuous fibre optic data transmission ports, can the Transmission Fibers data between the continuous described fibre optic data transmission port;

The fibre optic data transmission port comprises tubular pedestal and is fixedly arranged on the interior fibre optic data transmission pipe of pedestal, the shared fibre optic data transmission pipe of one of them the fibre optic data transmission port on each adapter and another fibre optic data transmission port.The fibre optic data transmission port matches with the joints of optical fibre of optical fiber, the joints of optical fibre are plugged in the pedestal of one of them the fibre optic data transmission port on the adapter and form when removably connecting with pedestal, the optical fiber that links to each other with the joints of optical fibre just in time docks with the fibre optic data transmission pipe, at this moment, optical fiber just can with the mutual fiber data of fibre optic data transmission pipe.

At present, employed connection line of optic fibre on the Optical Distribution Frame mainly contains jumping fiber and tail optical fiber, and the optical fiber that two terminations all are connected with the joints of optical fibre is called as jumping fiber.Only termination optical fiber of being connected with the joints of optical fibre is called as tail optical fiber.Jumping fiber is used for different adapters is coupled together, and realizes the transmission of fiber data in different adapters; The termination that tail optical fiber is connected with the joints of optical fibre can link to each other with adapter, and another termination then can not pass through adapter but elder generation and optical fiber, optical cable welding link to each other with the fiber-optic signal receiving equipment by optical fiber, optical cable then.

Be provided with three adapters with Optical Distribution Frame below, it is example that the fiber data transmitting apparatus sends to the fiber data receiving equipment by this Optical Distribution Frame and wire jumper with fiber data, the method for attachment of more detailed elaboration wire jumper:

Suppose that three adapters on the Optical Distribution Frame are respectively first adapter, second adapter and the 3rd adapter, if one of them fibre optic data transmission port of first adapter links to each other with the fiber data transmitting apparatus by optical fiber, one of them fibre optic data transmission port of second adapter links to each other with the first fiber data receiving equipment by optical fiber, one of them fibre optic data transmission port of the 3rd adapter links to each other with the second fiber data receiving equipment by optical fiber, at this moment, the fiber data that the fiber data transmitting apparatus is sent is sent to the second fiber data receiving equipment if desired, then can use a jumping fiber, the joints of optical fibre on the jumping fiber termination wherein are plugged in first adapter wherein on another fibre optic data transmission port, the joints of optical fibre on jumping fiber another termination wherein are plugged in wherein another fibre optic data transmission port of the 3rd adapter.Like this, the fiber data that the fiber data transmitting apparatus sends at first is sent to jumping fiber by first adapter, transfers to the 3rd adapter by jumping fiber then, is sent to the fiber data receiving equipment by the 3rd adapter again.

Because the number of the adapter on the Optical Distribution Frame is normally very many, so the wrong very easily of the adapter on the jumping fiber termination is made mistakes and cause fiber data to send.Mainly adopted following two kinds of methods to avoid operating personnel with the adapter wrong on the jumping fiber termination in the prior art for this reason:

Method one: as shown in Figure 1, a built-in copper cash 51 on the joints of optical fibre 5 of the optical fiber 50 of jumping fiber and jumping fiber termination, on the fibre optic data transmission port 60 of each adapter 6 of Optical Distribution Frame, a pin is set all, pin is electrically connected with analyser, analyser links to each other with the controller of Optical Distribution Frame, the controller of Optical Distribution Frame sends instruction to analyser, and whether needs are surveyed in the instruction that analyser sends according to controller can form the closed-loop path by the pin on two fibre optic data transmission ports 60 of jumping fiber connection;

When the joints of optical fibre on the jumping fiber termination 5 are plugged on the fibre optic data transmission port 60, copper cash 51 leans with pin and is electrically connected, when if the joints of optical fibre 5 on two terminations of jumping fiber all are plugged on the correct fibre optic data transmission port 60, pin on copper cash 51 on the jumping fiber and two the fibre optic data transmission ports 60 forms the loop of a closure, when analyser detects copper cash 51 on the jumping fiber and the pin on two fibre optic data transmission ports 60 and forms closed loop, just the fibre optic data transmission port 60 that the joints of optical fibre 5 that can the alert jumping fiber are pegged graft is correct, otherwise, if analyser detects two pins on the fibre optic data transmission port 60 when not forming closed loop, then the joints of optical fibre 5 of the alert jumping fiber fibre optic data transmission port 60 of being pegged graft is wrong.

Method two: integrated rfid (radio frequency identification all on the fibre optic data transmission port of the joints of optical fibre on the jumping fiber termination and adapter, radiofrequency signal identification) module, when the grafting jumping fiber, use special instrument to read the identification data of the RFID module memory storage on each joints of optical fibre and the identification data of the storage of the RFID module memory on each fibre optic data transmission port respectively one by one, once only read an identification data, because the identification data of each RFID module memory storage all is unique, so can find the position of two fibre optic data transmission ports that need the jumping fiber connection like this.

The inventor finds that there is following problem at least in prior art in realizing process of the present invention:

In the prior art, method one needs copper cash set on the joints of optical fibre 5 on two terminations of jumping fiber 51 and pin on the fibre optic data transmission port 60 to form the closed-loop path as shown in Figure 1, could judge whether the joints of optical fibre 5 on two terminations of jumping fiber have been plugged on the correct fibre optic data transmission port 60, but the optical fiber that is connected with the joints of optical fibre 5 for termination only (for example: tail optical fiber), owing to only there are joints of optical fibre 5, the pin that can't be provided with on copper cash 51 and the fibre optic data transmission port 60 forms the closed-loop path, so can't application process one, as seen, method one scope of application is narrower;

In addition, method one only can judge whether whether the joints of optical fibre 5 on two terminations of a jumping fiber are plugged on the correct fibre optic data transmission port 60, can't connect correctly by many jumping fibers of batch detection, so detection efficiency is lower at every turn;

Method two, not only need be on the fibre optic data transmission port of the joints of optical fibre on the jumping fiber termination and adapter the integrated rfid module, and, also need operating personnel to use special instrument to read the identification data of each RFID module memory storage, owing to once only can read an identification data, owing to can't read identification data in batches, so lower to the detection efficiency of connector.

Summary of the invention

The embodiment of the invention provides a kind of optical fiber splicing device, has solved prior art and has had narrower, lower to the detection efficiency of the connector technical matters of the scope of application.

For achieving the above object, embodiments of the invention adopt following technical scheme:

This optical fiber splicing device comprises at least one identification information storage module and data processing module, also comprises display module and/or alarm module, wherein:

Described data processing module links to each other with each fibre optic data transmission port by different connecting lines;

Each described identification information storage module all is connected with joints of optical fibre that link to each other with optical fiber;

Described identification information storage module is used to store the identification information of the described joints of optical fibre that are connected with described identification information storage module;

When the described joints of optical fibre were plugged on the described fibre optic data transmission port, the described joints of optical fibre and described fibre optic data transmission port formed and removably connect;

Described data processing module, be used for when described identification information storage module is electrically connected with described data processing module, read the identification information of the described joints of optical fibre that are connected with described identification information storage module of described identification information storage module memory storage from described identification information storage module, and, determine the address information of each described fibre optic data transmission port according to the rule of correspondence of the address information of different described connecting lines and predefined described connecting line and described fibre optic data transmission port;

Described data processing module also is used to control the identification information of the predefined joints of optical fibre that should peg graft on the pairing described fibre optic data transmission port of address information of the identification information of the described joints of optical fibre of being pegged graft on the pairing described fibre optic data transmission port of address information of the address information that described display module shows described fibre optic data transmission port, described fibre optic data transmission port and described fibre optic data transmission port; And/or, described data processing module, also be used for the identification information of the predefined joints of optical fibre that should peg graft on the pairing described fibre optic data transmission port of address information of the identification information of the described joints of optical fibre that are connected with described identification information storage module of described identification information storage module memory storage and described fibre optic data transmission port when inconsistent, control described alarm module and send caution.

Compared with prior art, technique scheme provided by the present invention can produce following technique effect at least:

Because in the optical fiber splicing device that the embodiment of the invention provided, each identification information storage module all is connected with joints of optical fibre that link to each other with optical fiber, and when the joints of optical fibre were plugged on the fibre optic data transmission port, the identification information storage module formed with data processing module by connecting line and is electrically connected;

Simultaneously, because data processing module can be when the identification information storage module be electrically connected with data processing module, read the identification information of the joints of optical fibre that are connected with the identification information storage module of identification information storage module memory storage from the identification information storage module, and according to the rule of correspondence of the address information of different connecting lines and predefined connecting line and fibre optic data transmission port, determine the address information of each fibre optic data transmission port, data processing module can also be controlled the address information that display module shows the optical fiber data transmission port, the identification information of the predefined joints of optical fibre that should peg graft on the identification information of the joints of optical fibre of being pegged graft on the pairing fibre optic data transmission port of the address information of fibre optic data transmission port and the pairing fibre optic data transmission port of address information of fibre optic data transmission port; And/or, data processing module, in the time of can also the identification information of the predefined joints of optical fibre that should peg graft is inconsistent on the pairing fibre optic data transmission port of address information of the identification information of the joints of optical fibre that are connected with the identification information storage module of identification information storage module memory storage and fibre optic data transmission port, controls alarm module and send caution;

Demonstrate the address information of fibre optic data transmission port when display module, on the identification information of the joints of optical fibre of being pegged graft on the pairing fibre optic data transmission port of the address information of fibre optic data transmission port and the pairing fibre optic data transmission port of address information of fibre optic data transmission port during the identification information of the predefined joints of optical fibre that should peg graft, and/or, when alarm module sends caution, the above information of operating personnel by checking that display module is shown, can know not only whether the joints of optical fibre of being pegged graft on each fibre optic data transmission port are correct, and when each joints of optical fibre all is plugged on the fibre optic data transmission port, during the joints of optical fibre mistake that can also on the fibre optic data transmission port, be pegged graft, view which fibre optic data transmission port the predefined joints of optical fibre that should peg graft specifically are plugged on on the fibre optic data transmission port;

Be connected with joints of optical fibre owing to need only optical fiber in the embodiment of the invention, just can connect the identification information storage module that the embodiment of the invention provides, and then use whether being plugged on the correct fibre optic data transmission port of the joints of optical fibre that embodiment of the invention data processing module judges that this is connected with optical fiber, all can use embodiment of the invention optical fiber splicing device so no matter jumping fiber still is a tail optical fiber, so the embodiment of the invention optical fiber splicing device scope of application is wider;

Simultaneously, because embodiment of the invention optical fiber splicing device is the identification information that reads the joints of optical fibre by data processing module, if embodiment of the invention optical fiber splicing device is applied to connect a plurality of adapters and a plurality of joints of optical fibre, and when a plurality of joints of optical fibre are plugged on the fibre optic data transmission ports different on a plurality of adapters respectively, data processing module can read the identification information of a plurality of joints of optical fibre in batches, and then can many jumping fibers of batch detection or tail optical fiber whether connect correctly, need not operating personnel operates special instrument and once reads an identification data, as seen, embodiment of the invention optical fiber splicing device detection efficiency is higher, exists the scope of application narrower so solved prior art, the technical matters lower to the detection efficiency of connector.

Description of drawings

In order to be illustrated more clearly in the embodiment of the invention or technical scheme of the prior art, to do to introduce simply to the accompanying drawing of required use in embodiment or the description of the Prior Art below, apparently, accompanying drawing in describing below only is some embodiments of the present invention, for those of ordinary skills, under the prerequisite of not paying creative work, can also obtain other accompanying drawing according to these accompanying drawings.

Fig. 1 is plugged into copper cash in the process on the correct adapter is become closure state by open-circuit condition synoptic diagram for the joints of optical fibre on the one test wire jumper two ends of method in the prior art;

The synoptic diagram of the annexation of the optical fiber splicing device that Fig. 2 is provided for embodiments of the invention 1 and the joints of optical fibre, adapter;

The perspective exploded view of critical piece in the optical fiber splicing device that Fig. 3 is provided for embodiments of the invention 1;

Schematic perspective view after critical piece assembles in the optical fiber splicing device that Fig. 4 is provided for embodiments of the invention 1 shown in Figure 3;

The perspective exploded view of the critical piece of the joints of optical fibre and identification information storage module in the optical fiber splicing device that Fig. 5 is provided for embodiments of the invention 1;

The perspective view of adapter in the optical fiber splicing device that Fig. 6 is provided for embodiments of the invention 1;

Identify information storage module, the joints of optical fibre, the adapter packs schematic perspective view after installing in the optical fiber splicing device that Fig. 7 is provided for embodiments of the invention 1;

Fig. 8 is the cross-sectional schematic of Fig. 7 along the A-A line;

Synoptic diagram when the optical fiber splicing device that Fig. 9 is provided for embodiments of the invention 1 is installed on the Optical Distribution Frame;

Figure 10 is the enlarged diagram of B part among Fig. 9;

The inside of data processing unit constitutes synoptic diagram in the optical fiber splicing device that Figure 11 is provided for embodiments of the invention 2.

Embodiment

Below in conjunction with the accompanying drawing in the embodiment of the invention, the technical scheme in the embodiment of the invention is clearly and completely described, obviously, described embodiment only is the present invention's part embodiment, rather than whole embodiment.Based on the embodiment among the present invention, the every other embodiment that those of ordinary skills are obtained under the prerequisite of not paying creative work belongs to the scope of protection of the invention.

It is a kind of applied widely, with low cost that the embodiment of the invention provides, and the detection efficiency of connector is than higher optical fiber splicing device.

Embodiment 1:

As Fig. 2, Fig. 3 and shown in Figure 4, the optical fiber splicing device that the embodiment of the invention provided comprises at least one identification information storage module 1 and data processing module 2, also comprises display module 3 and/or alarm module 7, wherein:

Data processing module 2 links to each other with each fibre optic data transmission port 60 on the adapter 6 by different connecting line 4;

Each identification information storage module 1 all is connected with joints of optical fibre 5 that link to each other with optical fiber 50;

Identification information storage module 1 is used to store the identification information of the joints of optical fibre 5 that are connected with identification information storage module 1;

When being plugged on the fibre optic data transmission port 60 as Fig. 6 or the joints of optical fibre shown in Figure 85, the joints of optical fibre 5 form with fibre optic data transmission port 60 and removably connect, optical fiber 50 can with fibre optic data transmission port 60 mutual fiber datas, identification information storage module 1 is electrically connected with data processing module 2 formation by connecting line 4;

Data processing module 2, be used for when identification information storage module 1 is electrically connected with data processing module 2, read the identification information of the joints of optical fibre 5 that are connected with identification information storage module 1 of identification information storage module 1 stored from identification information storage module 1, and, determine the address information of each fibre optic data transmission port 60 according to the rule of correspondence of different connecting line 4 and predefined connecting line 4 with the address information of fibre optic data transmission port 60;

Data processing module 2 also is used to control the identification information of the predefined joints of optical fibre that should peg graft 5 on the pairing fibre optic data transmission port 60 of address information of the identification information of the joints of optical fibre 5 of being pegged graft on the pairing fibre optic data transmission port 60 of address information of address information that display module 3 shows optical fiber data transmission port 60, fibre optic data transmission port 60 and fibre optic data transmission port 60; And/or, data processing module 2, also be used for the identification information of the predefined joints of optical fibre that should peg graft 5 on the pairing fibre optic data transmission port 60 of address information of the identification information of the joints of optical fibre 5 that are connected with identification information storage module 1 of identification information storage module 1 stored and fibre optic data transmission port 60 when inconsistent, control alarm module 7 sends caution.

Dotted line represents that annexation is for removably connecting among Fig. 2.Because in the optical fiber splicing device that the embodiment of the invention provided, each identification information storage module 1 all is connected with joints of optical fibre 5 that link to each other with optical fiber 50, and when the joints of optical fibre 5 were plugged on the fibre optic data transmission port 60, identification information storage module 1 formed with data processing module 2 by connecting line 4 and is electrically connected;

Simultaneously, because data processing module 2 can be when identification information storage module 1 be electrically connected with data processing module 2, read the identification information of the joints of optical fibre 5 that are connected with identification information storage module 1 of identification information storage module 1 stored from identification information storage module 1, and according to the rule of correspondence of different connecting line 4 and predefined connecting line 4 with the address information of fibre optic data transmission port 60, determine the address information of each fibre optic data transmission port 60, simultaneously, data processing module 2 can also be controlled the address information that display module 3 shows optical fiber data transmission port 60, the identification information of the predefined joints of optical fibre that should peg graft 5 on the identification information of the joints of optical fibre 5 of being pegged graft on the pairing fibre optic data transmission port 60 of the address information of fibre optic data transmission port 60 and the pairing fibre optic data transmission port 60 of address information of fibre optic data transmission port 60; And/or, data processing module 2, in the time of can also the identification information of the predefined joints of optical fibre that should peg graft 5 is inconsistent on the pairing fibre optic data transmission port 60 of address information of the identification information of the joints of optical fibre 5 that are connected with identification information storage module 1 of identification information storage module 1 stored and fibre optic data transmission port 60, control alarm module 7 sends caution;

Demonstrate the address information of fibre optic data transmission port 60 when display module 3, the identification information of the predefined joints of optical fibre that should peg graft 5 on the identification information of the joints of optical fibre 5 of being pegged graft on the pairing fibre optic data transmission port 60 of the address information of fibre optic data transmission port 60 and the pairing fibre optic data transmission port 60 of address information of fibre optic data transmission port 60, and/or, when alarm module 7 sends caution, the above information of operating personnel by checking that display module 3 is shown, can know not only whether the joints of optical fibre 5 of being pegged graft on each fibre optic data transmission port 60 are correct, and when each joints of optical fibre 5 all is plugged on the fibre optic data transmission port 60, when the joints of optical fibre that can also be pegged graft 5 are wrong, view which fibre optic data transmission port 60 the predefined joints of optical fibre that should peg graft 5 specifically are plugged on on the fibre optic data transmission port 60 on fibre optic data transmission port 60;

Be connected with joints of optical fibre 5 owing to need only optical fiber 50 in the embodiment of the invention, just can connect the identification information storage module 1 that the embodiment of the invention provides, and then use embodiment of the invention data processing module 2 and judged on the correct fibre optic data transmission port 60 of whether being plugged in of these joints of optical fibre that are connected with optical fiber 50 5, all can use embodiment of the invention optical fiber splicing device so no matter jumping fiber still is a tail optical fiber, so the embodiment of the invention optical fiber splicing device scope of application is wider; Simultaneously, because embodiment of the invention optical fiber splicing device is the identification information that reads the joints of optical fibre 5 by data processing module 2, if embodiment of the invention optical fiber splicing device is applied to connect a plurality of adapters 6 and a plurality of joints of optical fibre 5, and when a plurality of joints of optical fibre 5 are plugged on the fibre optic data transmission ports 60 different on a plurality of adapters 6 respectively, data processing module 2 can read the identification information of a plurality of joints of optical fibre 5 in batches, and then can many jumping fibers of batch detection or tail optical fiber whether connect correctly, need not operating personnel operates special instrument and once reads an identification data, as seen, embodiment of the invention optical fiber splicing device detection efficiency is higher, exists the scope of application narrower so solved prior art, the technical matters lower to the detection efficiency of connector 5.

See also Fig. 6, when the identification information of the predefined joints of optical fibre that should peg graft 5 was inconsistent on the pairing fibre optic data transmission port 60 of address information of the identification information of the joints of optical fibre 5 that are connected with identification information storage module 1 of identification information storage module 1 stored and fibre optic data transmission port 60 in the present embodiment, data processing module 2 control alarm modules 7 sent caution in modes such as luminous, audio plays, displaying video and/or broadcasting pictures.

Data processing module 2 can be when any one joints of optical fibre 5 be plugged on the wrong fibre optic data transmission port 60, in the mode of luminous, audio plays, displaying video and/or broadcasting pictures operating personnel are sent caution by alarm module 7, thereby can in time avoid operating personnel to peg graft a large amount of joints of optical fibre 5 just discovery part grafting afterwards mistake, and then can improve the joint efficiency of whole optical fiber splicing device.

Certainly, alarm module 7 also can come operating personnel are sent caution by other modes outside luminous, audio plays, displaying video and/or the broadcasting pictures in the present embodiment, for example: little shaking.Alarm module 7 can also be warned the address information of fibre optic data transmission port 60 by different warning ways in the present embodiment, for example: when the joints of optical fibre 5 were plugged in different fibre optic data transmission ports 60, alarm module 7 can also come by different warning ways operating personnel are sent caution.Like this, operating personnel can tell the position of different fibre optic data transmission ports 60 fast, accurately.

Data processing module 2 in the present embodiment, also be used for when identification information storage module 1 is electrically connected with data processing module 2 address information of the fibre optic data transmission port 50 that the predefined joints of optical fibre that should peg graft 5 are pegged graft on the pairing fibre optic data transmission port 60 of address information of control display module 3 demonstration optical fiber data transmission port 60.Like this, operating personnel also can tell the position of different fibre optic data transmission ports 60 fast, accurately.

Alarm module 7 is a pilot lamp in the present embodiment.Pilot lamp realization not only with low cost, easy, and pilot lamp also have the caution position accurately, can avoid advantage such as noise jamming.

See also Fig. 5, sign information storage module 1 removably connects with the joints of optical fibre 5 or fixedlys connected in the present embodiment, is preferably to removably connect.When identification information storage module 1 removably connects with the joints of optical fibre 5, identification information storage module 1 is installed on the joints of optical fibre 5, still with identification information storage module 1 when the joints of optical fibre 5 disassemble, all can not cause damage to the joints of optical fibre 5.

In addition, can also use that identification information storage module 1 is transformed in the prior art in enormous quantities, the joints of optical fibre 5 of standardized production, and then utilize the existing joints of optical fibre 5 more fully, avoid the existing joints of optical fibre 5 are caused waste.

Certainly, no matter identification information storage module 1 removably connect with the joints of optical fibre 5 all can be in the effect of playing the mark joints of optical fibre 5 or fixedly connected with the joints of optical fibre 5.Can use methods such as Shooting Technique or bonding process to make identification information storage module 1 fixedly connected in the present embodiment with the joints of optical fibre 5.

See also Fig. 6, Fig. 7 and Fig. 8, fibre optic data transmission port 60 comprises tubular pedestal 61 and is fixedly arranged on fibre optic data transmission pipe 62 in the pedestal 61 in the present embodiment, and each alarm module 7 is fixedlyed connected with a pedestal 61, wherein:

One of them fibre optic data transmission port 60 and another fibre optic data transmission port 60 shared fibre optic data transmission pipes 62 on each adapter 6, perhaps, the fibre optic data transmission pipe 62 in one of them fibre optic data transmission port on each adapter 6 60 links to each other with fibre optic data transmission pipe 62 in another fibre optic data transmission port 60.

When each alarm module 7 is fixedlyed connected with a pedestal 61, when alarm module 7 is warned operating personnel by modes such as luminous, audio plays, displaying video and/or broadcasting pictures, the fibre optic data transmission port 60 that operating personnel can be in time, the wrong joints of optical fibre 5 of finding accurately to peg graft are pegged graft specifically where, and then the peg graft plug-in position of the wrong joints of optical fibre 5 of change in time.

In the present embodiment as shown in Figure 5 identification information storage module 1 comprise shell 11, storage chip 12 and fixed head 13, wherein:

Shell 11 is tubular, and offers through hole 14 on shell 11 one of them side, and the inwall of through hole 14 is installed with the anticreep projection 15 of extending towards near the direction of shell 11 inside;

Shell 11 is socketed on outside the joints of optical fibre 5, and shell 11 removably connects with the joints of optical fibre 5, and anticreep projection 15 is embedded in the spacing hole or stopper slot on the joints of optical fibre 5;

Storage chip 12 is used to store the identification information of the joints of optical fibre 5 that socket-connect with shell 11;

Be fixed with conductor spare 16 as shown in Figure 8 on the fixed head 13, storage chip 12 is fixed on the fixed head 13, and the pin of storage chip 12 is electrically connected with conductor spare 16 on the fixed head 13;

When the joints of optical fibre 5 that are socketed with shell 11 are plugged on the fibre optic data transmission port 60, optical fiber that shell 11 is connected with pedestal 61, the joints of optical fibre 5 50 all forms with fibre optic data transmission pipe 62 and removably connects, the optical fiber 50 that the joints of optical fibre 5 are connected can with fibre optic data transmission pipe 62 mutual fiber datas.

Shell 11 and fixed head 13 provide a carrier for storage chip 12.When the mode of shell 11 use sockets and the joints of optical fibre 5 removably connected, removably connecting between the identification information storage module 1 and the joints of optical fibre 5 is simple to operate, and be convenient.

Fixed head 13 is a circuit board in the present embodiment, and the pin of storage chip 12 is welded on the fixed head 13, and conductor spare 16 is for exposing the copper sheet of fixed head 13.Circuit board has certain intensity, not only can be fixed in reliably on the shell 11, and all there are a plurality of pads that are electrically connected with the copper sheet that exposes circuit board in circuit board usually, is convenient to weld the pin of storage chip 12.Certainly, fixed head 13 also can be the insulation device that adopts other insulating material to make in the present embodiment.

Be provided with buckle 63 in the pedestal 61 as shown in Figure 6 in the present embodiment, when the joints of optical fibre 5 that are socketed with shell 11 were plugged on the fibre optic data transmission port 60, buckle 63 was embedded in the through hole 14.Buckle 63 can removably connect so that the pedestal on shell 11 and the fibre optic data transmission port 60 61 forms with the fit structure that through hole 14 forms, when thereby the joints of optical fibre 5 of avoiding being socketed with shell 11 are plugged on the fibre optic data transmission port 60, because vibration or collision unintentionally and the joints of optical fibre 5 that will be socketed with shell 11 bump from fibre optic data transmission port 60.

In the present embodiment as shown in Figure 1 data processing module 2 comprise data processing unit 21, electric-conductor 22 and positioning seat 23, wherein:

Data processing unit 21 and adapter 6 are fixed on the positioning seat 23;

One end of electric-conductor 22 is embedded in the pedestal 61, and the other end is electrically connected with connecting line 4, and connecting line 4 links to each other with data processing unit 21;

When the joints of optical fibre 5 that are covered with shell 11 were plugged on the fibre optic data transmission port 60, conductor spare 16 leant with electric-conductor 22 and forms and is electrically connected;

Data processing unit 21, be used for reading from identification information storage module 1 identification information of the joints of optical fibre 5 that are connected with identification information storage module 1 of identification information storage module 1 stored by electric-conductor 22, conductor spare 16 and connecting line 4, and, determine the address information of each fibre optic data transmission port 60 according to the rule of correspondence of different connecting line 4 and predefined connecting line 4 with the address information of fibre optic data transmission port 60;

Data processing unit 21 also is used to control the identification information of the predefined joints of optical fibre that should peg graft 5 on the pairing fibre optic data transmission port 60 of address information of the identification information of the joints of optical fibre 5 of being pegged graft on the pairing fibre optic data transmission port 60 of address information of address information that display module 3 shows optical fiber data transmission port 60, fibre optic data transmission port 60 and fibre optic data transmission port 60; And/or, data processing unit 21, also be used for the identification information of the predefined joints of optical fibre that should peg graft 5 on the pairing fibre optic data transmission port 60 of address information of the identification information of the joints of optical fibre 5 that are connected with identification information storage module 1 of identification information storage module 1 stored and fibre optic data transmission port 60 when inconsistent, control alarm module 7 sends caution.

23 pairs of data processing units 21 of positioning seat and adapter 6 have played carrying, fixing effect.Electric-conductor 22, conductor spare 16 and connecting line 4 are used to realize that identification information storage module 1 is connected with circuit between the data processing unit 21.Data processing unit 21 can use a chip with data-handling capacity in the present embodiment, and at this moment, positioning seat 23 is preferably circuit board.Circuit board has certain intensity, not only can carry reliably, fixed data processing unit 21 and adapter 6, and all there are a plurality of pads in circuit board usually, is convenient to adopt the mode fixed chip of welding.

See also Fig. 9 and Figure 10; be devices such as protection positioning seat 23, data processing unit 21 and adapter 6 in the present embodiment; embodiment of the invention optical fiber splicing device also comprises protection box 24; protection box 24 comprises base plate and is arranged at base plate side plate all around; vertical linking to each other between side plate and the base plate; positioning seat 23 is positioned on the base plate of protection box 24, offers some mounting holes on the side plate, and the pedestal 61 of adapter 6 is arranged in the mounting hole.Protection box 24 can be positioned over as on Fig. 9 and the Optical Distribution Frame shown in Figure 10 25

Embodiment 2:

See also Figure 11, present embodiment is substantially the same manner as Example 1, its difference is: data processing unit 21 comprises that the first processing subelement 211 and second is handled subelement 212, the first processing subelements 211 and the second processing subelement 212 links to each other in the present embodiment; Wherein:

Be covered with as shown in Figure 5 the joints of optical fibre 5 of shell 11 and be plugged in as on Fig. 6 or the fibre optic data transmission port 60 shown in Figure 8 the time, first handles subelement 211 links to each other with identification information storage module 1 by electric-conductor 22, conductor spare 16 and connecting line 4;

First handles subelement 211, be used for reading the identification information of the joints of optical fibre 5 that are connected with identification information storage module 1 of identification information storage module 1 stored from storage chip 12, and the identification information of the joints of optical fibre 5 that will be connected with identification information storage module 1 is exported to second and is handled subelement 212 by electric-conductor 22, conductor spare 16 and connecting line 4;

First handles subelement 211, also be used for determining the address information of each fibre optic data transmission port 60, and export the address information of each fibre optic data transmission port 60 to second processing subelement 212 according to the address information rule of correspondence of different connecting line 4 and predefined connecting line 4 and fibre optic data transmission port 60;

Second handles subelement 212, also is used to control the identification information of the predefined joints of optical fibre that should peg graft 5 on the pairing fibre optic data transmission port 60 of address information of the identification information of the joints of optical fibre 5 of being pegged graft on the pairing fibre optic data transmission port 60 of address information of address information that display module 3 shows optical fiber data transmission port 60, fibre optic data transmission port 60 and fibre optic data transmission port 60; And/or, second handles subelement 212, also be used for the identification information of the predefined joints of optical fibre that should peg graft 5 on the pairing fibre optic data transmission port 60 of address information of the identification information of the joints of optical fibre 5 that are connected with identification information storage module 1 of identification information storage module 1 stored and fibre optic data transmission port 60 when inconsistent, control alarm module 7 sends caution in modes such as luminous, audio plays, displaying video and/or broadcasting pictures.

When the first processing subelement 211 and the second processing subelement 212 are realized different functions respectively as shown in figure 11, the first processing subelement 211 and second is handled subelement 212 and has been shared different tasks jointly, because task difference, so both can not influence mutually, and then help to improve the speed of the data processing of whole optical fiber splicing device.

First handle subelement 211 and second and handle subelement 212 and be preferably two different chips as shown in figure 11 in the present embodiment with data-handling capacity, wherein, directly with as Fig. 6 or the joints of optical fibre shown in Figure 85 and fibre optic data transmission port 60 link to each other because first handles subelement 211, in the actual production, for avoiding first pin of handling subelement 211 employed chips to cause easy wrong circuit too much, first handles subelement 211 uses the weak slightly chip of a plurality of data-handling capacities usually, the weak slightly chip of each data-handling capacity can with one, the two or several joints of optical fibre 5 and one, two or several fibre optic data transmission ports 60 link to each other, second handles subelement 212 can use the stronger chip of data-handling capacity, the chip that the data processing power is stronger can connect a plurality of first and handle subelement 211.

Certainly, first handle subelement 211 and second and handle subelement 212 and also can be different two functional units or functional module in the same chip with data-handling capacity.

The above; only be the specific embodiment of the present invention, but protection scope of the present invention is not limited thereto, anyly is familiar with those skilled in the art in the technical scope that the present invention discloses; the variation that can expect easily or replacement all should be encompassed within protection scope of the present invention.Therefore, protection scope of the present invention should be as the criterion with the protection domain of claim.

Claims (10)

1. optical fiber splicing device is characterized in that: comprises at least one identification information storage module and data processing module, also comprises display module and/or alarm module, wherein:

Described data processing module links to each other with each fibre optic data transmission port by different connecting lines;

Each described identification information storage module all is connected with joints of optical fibre that link to each other with optical fiber;

Described identification information storage module is used to store the identification information of the described joints of optical fibre that are connected with described identification information storage module;

When the described joints of optical fibre were plugged on the described fibre optic data transmission port, the described joints of optical fibre and described fibre optic data transmission port formed and removably connect;

Described data processing module, be used for when described identification information storage module is electrically connected with described data processing module, read the identification information of the described joints of optical fibre that are connected with described identification information storage module of described identification information storage module memory storage from described identification information storage module, and, determine the address information of each described fibre optic data transmission port according to the rule of correspondence of the address information of different described connecting lines and predefined described connecting line and described fibre optic data transmission port;

Described data processing module also is used to control the identification information of the predefined joints of optical fibre that should peg graft on the pairing described fibre optic data transmission port of address information of the identification information of the described joints of optical fibre of being pegged graft on the pairing described fibre optic data transmission port of address information of the address information that described display module shows described fibre optic data transmission port, described fibre optic data transmission port and described fibre optic data transmission port; And/or, described data processing module, also be used for the identification information of the predefined joints of optical fibre that should peg graft on the pairing described fibre optic data transmission port of address information of the identification information of the described joints of optical fibre that are connected with described identification information storage module of described identification information storage module memory storage and described fibre optic data transmission port when inconsistent, control described alarm module and send caution.

2. optical fiber splicing device according to claim 1, it is characterized in that: described data processing module, also be used for when described identification information storage module is electrically connected with described data processing module, control the address information of the fibre optic data transmission port that the predefined joints of optical fibre that should peg graft are pegged graft on the pairing described fibre optic data transmission port of address information that described display module shows described fibre optic data transmission port.

3. optical fiber splicing device according to claim 1 is characterized in that: described alarm module is a pilot lamp.

4. optical fiber splicing device according to claim 1 and 2 is characterized in that: described identification information storage module removably connects with the described joints of optical fibre or fixedlys connected.

5. optical fiber splicing device according to claim 4, it is characterized in that: described fibre optic data transmission port comprises tubular pedestal and is fixedly arranged on the interior fibre optic data transmission pipe of described pedestal, each described alarm module is fixedlyed connected with a described pedestal, wherein:

Described fibre optic data transmission port of on each described adapter one of them and the shared fibre optic data transmission pipe of another described fibre optic data transmission port, perhaps, the described fibre optic data transmission pipe in one of them the described fibre optic data transmission port on each described adapter links to each other with described fibre optic data transmission pipe in another described fibre optic data transmission port.

6. optical fiber splicing device according to claim 5 is characterized in that: described identification information storage module comprises shell, storage chip and fixed head, wherein:

Described shell is tubular, and offers through hole on one of them side of described shell, and the inwall of described through hole is installed with the anticreep projection of extending towards near the direction of described enclosure;

Described shell is socketed on outside the described joints of optical fibre, and described shell and the described joints of optical fibre removably connect, and described anticreep projection is embedded in the spacing hole or stopper slot on the described joints of optical fibre;

Described storage chip is used to store the identification information of the described joints of optical fibre that socket-connect with described shell;

Be fixed with conductor spare on the described fixed head, described storage chip is fixed on the described fixed head, and the pin of described storage chip is electrically connected with conductor spare on the described fixed head;

When the described joints of optical fibre that are socketed with described shell are plugged on the described fibre optic data transmission port, described optical fiber that described shell is connected with described pedestal, the described joints of optical fibre and fibre optic data transmission pipe all form and removably connect, the described optical fiber that the described joints of optical fibre connected can with the mutual fiber data of described fibre optic data transmission pipe.

7. optical fiber splicing device according to claim 6 is characterized in that: described fixed head is a circuit board, and the pin of described storage chip is welded on the described fixed head, and described conductor spare is the copper sheet that exposes described fixed head.

8. optical fiber splicing device according to claim 6 is characterized in that: be provided with buckle in the described pedestal, when the described joints of optical fibre that are socketed with described shell were plugged on the described fibre optic data transmission port, described buckle was embedded in the described through hole.

9. optical fiber splicing device according to claim 6 is characterized in that: described data processing module comprises data processing unit, electric-conductor and positioning seat, wherein:

Described data processing unit and described adapter are fixed on the described positioning seat;

One end of described electric-conductor is embedded in the described pedestal, and the other end is electrically connected with described connecting line, and described connecting line links to each other with described data processing unit;

When the described joints of optical fibre that are covered with described shell were plugged on the described fibre optic data transmission port, described conductor spare leant with described electric-conductor and forms and is electrically connected;

Described data processing unit, be used for reading from described identification information storage module the identification information of the described joints of optical fibre that are connected with described identification information storage module of described identification information storage module memory storage by described electric-conductor, described conductor spare and described connecting line, and, determine the address information of each described fibre optic data transmission port according to the rule of correspondence of the address information of different described connecting lines and predefined described connecting line and described fibre optic data transmission port;

Described data processing unit also is used to control the identification information of the predefined joints of optical fibre that should peg graft on the pairing described fibre optic data transmission port of address information of the identification information of the described joints of optical fibre of being pegged graft on the pairing described fibre optic data transmission port of address information of the address information that described display module shows described fibre optic data transmission port, described fibre optic data transmission port and described fibre optic data transmission port; And/or,

Described data processing unit, also be used for the identification information of the predefined joints of optical fibre that should peg graft on the pairing described fibre optic data transmission port of address information of the identification information of the described joints of optical fibre that are connected with described identification information storage module of described identification information storage module memory storage and described fibre optic data transmission port when inconsistent, control described alarm module and send caution.

10. optical fiber splicing device according to claim 9 is characterized in that: described data processing unit comprises that first handles the subelement and the second processing subelement, and the described first processing subelement and second is handled subelement and linked to each other; Wherein:

When the described joints of optical fibre that are covered with described shell were plugged on the described fibre optic data transmission port, described first handles subelement linked to each other with described identification information storage module by described electric-conductor, described conductor spare and described connecting line;

Described first handles subelement, be used for reading the identification information of the described joints of optical fibre that are connected with described identification information storage module of described identification information storage module memory storage from described storage chip, and the identification information of the described joints of optical fibre that will be connected with described identification information storage module is exported to described second and is handled subelement by described electric-conductor, described conductor spare and described connecting line;

Described first handles subelement, also be used for determining the address information of described fibre optic data transmission port, and export the address information of described fibre optic data transmission port to the described second processing subelement according to the address information rule of correspondence of different described connecting lines and predefined described connecting line and described fibre optic data transmission port;

Described second handles subelement, is used for also being used to controlling the identification information of the predefined joints of optical fibre that should peg graft on the pairing described fibre optic data transmission port of address information of the identification information of the described joints of optical fibre of being pegged graft on the pairing described fibre optic data transmission port of address information of the address information that described display module shows described fibre optic data transmission port, described fibre optic data transmission port and described fibre optic data transmission port; And/or, described second handles subelement, be used for the identification information of the predefined joints of optical fibre that should peg graft on the pairing described fibre optic data transmission port of address information of the identification information of the described joints of optical fibre that are connected with described identification information storage module of described identification information storage module memory storage and described fibre optic data transmission port when inconsistent, control described alarm module and send caution.

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