CN103852828A - Optical fiber connector - Google Patents

Abstract

The optical fiber connector provided by the invention not only can transmit optical signals, but also can transmit electrical signals by the conducting wires arranged inside and the metal guide plates connected with the conducting wires; therefore, when the optical fiber connector is connected with the optical fiber adapter which can transmit the electrical signal, whether the butt joint is correct or not can be immediately known by transmitting the electrical signal, so that the time is saved and the convenience is realized.

Description

The joints of optical fibre

Technical field

This creation relates to a kind of joints of optical fibre, relates in particular to a kind of joints of optical fibre that can transmit electrical signal.

Technical background

A kind of light conduction of optical fiber instrument, allows light in glass or the made fiber of plastics, utilizes total reflection principle to transmit, and it has the following advantages: 1. low-loss, high frequency range; Lightweight, size is little, bending radius is little; Non-conductive, non-radiating, do not respond to.

The feature system of low-loss, high frequency range is because the transmission consume of light in optical fiber is more much lower than electric transmission consume in wire, and frequency band is wider, and data transmission can be carried out in a large number, rapidly; Feature lightweight, that size is little, bending radius is little makes optical fiber in the utilization in space, have sizable convenience; Non-conductive, non-radiating, the feature of not responding to are because optical fiber is formed by the material manufacture of nonmetal medium, so there is the ability of quite excellent anti-electromagnetic riveting machine signal interference, therefore can avoid utilizing metal as the caused radiation interference of transmission medium, ground circuit and the relevant problem of induction.

Therefore, the manufacturer of related industry is devoted to the development of Optical Fiber Transmission invariably, makes optical fiber little by little replace traditional metal transmission line road, has been used as in large quantities at present the medium of signal transmission.Moreover, in order to make optical fiber can be connected to all kinds of electronic devices, allow the information of its transmission can be used by these electronic installations, thus the intermediary of connector as optical fiber and electronic installation must be had, to reach the object of connection.

Generally speaking, the system system of the joints of optical fibre is arranged at electronic installation and is formed as adapter (Adapter) and the joints of optical fibre as connector male head of connector female end by one, when the joints of optical fibre are inserted in adapter, just can form its annexation, use the object that reaches data transmission.

On server in existing machine room, all can configure a plurality of fiber adapter, and carry out information phase commissure by being connected with the joints of optical fibre to come with the external world; But the general joints of optical fibre can only transmission light signal, therefore in the time connecting, and cannot learn whether its fiber adapter of planting docks correctly, after the overall board joint such as usually needing to have connected, could start shooting and carry out testing authentication, if while now finding wrong circuit, often not know it is that circuit wrong, therefore need to reexamine, not only consuming time and quite inconvenience.

Summary of the invention

In order to solve above-mentioned mentioned problem, one of this creation fundamental purpose is to provide a kind of joints of optical fibre, can be by the shell fragment of the metallic laminas that is disposed at joints of optical fibre inside fiber adapter in electrical contact inside, learn by transmitting electrical signal whether its identification code of server terminal (ID) that joints of optical fibre two ends are connected conforms to, learn by this whether the joints of optical fibre dock correctly with fiber adapter.

According to above-mentioned purpose, this creation provides a kind of joints of optical fibre, comprising: a procapsid, there is a procapsid front opening, and a procapsid open rearward end and is communicated in procapsid front opening and procapsid open rearward end housing accommodation space before; One assembling guide groove, is arranged at procapsid rear end end face and is communicated in procapsid open rearward end and procapsid accommodation space; One interior stopper section, is disposed at wall within procapsid accommodation space; One clamping slot, is formed at wall bottom surface outside procapsid; One back casing, the stopper section that is connected in assembled portion by an assembled portion and is formed, wherein assembled portion has an end face and an assembled portion front opening, stopper section has a stopper section open rearward end, and one be communicated in housing accommodation space after assembled portion front opening and stopper section open rearward end, wherein fore shell system is sheathed on the assembled portion of back casing, and terminates in the stopper section of back casing; One assembling raised line, be convexly set in the end face of assembled portion and corresponding to assembling guide groove; One core pipe, be arranged at procapsid accommodation space and back casing accommodation space and partly protrude from procapsid front opening, there is a contact pin, one is connected in the pedestal of contact pin, one is arranged at ceramic contact pin and Zhi Xinguan stopper section, base of ceramic junction and a core hole through core pipe, when its core pipe is placed in procapsid accommodation space, touch mutually its Xi Yunei stopper section, core pipe stopper section; One spring, its one end is sheathed on pedestal tail end; One sleeve pipe, is a hollow tubular, is disposed at back casing accommodation space and part protrudes from stopper section open rearward end, and sleeve pipe is arranged on the other end of spring, and makes spring between core pipe stopper section and sleeve pipe; And a guide metal, be a rectangular plate body, there is a first end and one second end, first end system is disposed in clamping slot, and the second end system extends in holder via the stopper section open rearward end of housing accommodation space after back casing.

According to above-mentioned purpose, this creation provides a kind of joints of optical fibre again, comprise: a connector housing, and form an accommodation space, in accommodation space, comprise a core pipe, a sleeve pipe, and boundary's spring one of between core pipe and sleeve pipe, wherein being characterised in that of the joints of optical fibre a: guide metal has a first end and one second end, guide metal is disposed in accommodation space, and its first end system is exposed to the bottom of connector shell, and the second end system is via holding and extend after connector shell.

According to above-mentioned purpose, this creation provides a kind of joints of optical fibre again, comprise: a procapsid and links procapsid housing afterwards, and form an accommodation space, in accommodation space, comprise a core pipe, a sleeve pipe, and boundary's spring one of between core pipe and sleeve pipe, wherein being characterised in that of the joints of optical fibre a: guide metal has a first end and one second end, guide metal is disposed in accommodation space, and its first end system is exposed to the bottom of procapsid, and the second end system extends via end after back casing.

By the joints of optical fibre that this creation proposed, it is except can transmitting light signal, also can transmit electrical signal by the metallic laminas that is disposed at joints of optical fibre inside, learn by transmitting electrical signal whether its identification code of server terminal (ID) that joints of optical fibre two ends are connected conforms to, and by this can be in the time that server is installed, can learn in real time whether the joints of optical fibre dock correct fiber adapter, not only save time and quite convenient.

Accompanying drawing explanation

The exploded perspective view of the joints of optical fibre that Fig. 1 is this creation.

View under the joints of optical fibre that Fig. 2 is this creation.

The first embodiment schematic diagram of the guide metal that Fig. 3 A is this creation.

The first embodiment connection diagram of the guide metal that Fig. 3 B is this creation.

The second embodiment schematic diagram of the guide metal that Fig. 3 C is this creation.

The second embodiment connection diagram of the guide metal that Fig. 3 D is this creation.

The cut-away view of the joints of optical fibre that Fig. 4 is this creation.

The schematic diagram of buckling device first embodiment of the joints of optical fibre that Fig. 5 A is this creation.

The schematic diagram of buckling device second embodiment of the joints of optical fibre that Fig. 5 B is this creation.

The schematic diagram of the buckling device of the joints of optical fibre that Fig. 5 C is this creation the 3rd embodiment.

The schematic diagram of the first embodiment of the fiber adapter that Fig. 6 is this creation.

The first embodiment of the fiber adapter that Fig. 7 is this creation connects the sectional view of the joints of optical fibre.

The schematic diagram of the second embodiment of the fiber adapter that Fig. 8 is this creation.

The second embodiment of the fiber adapter that Fig. 9 is this creation connects the sectional view of the joints of optical fibre.

The schematic diagram of the 3rd embodiment of the fiber adapter that Figure 10 is this creation.

The schematic diagram of the 4th embodiment of the fiber adapter that Figure 11 is this creation.

The schematic diagram of the end device that Figure 12 is this creation.

Embodiment

For making object, technical characterictic and the advantage of this creation, more correlative technology field personnel understand and are implemented this creation, appended graphic in this cooperation, illustrate technical characterictic and the embodiment of this creation in follow-up instructions, and enumerate preferred embodiment and further illustrate, so following examples explanation is not in order to limit this creation, and graphic with what hereinafter contrasted, is to express the signal relevant with this creation characteristic.

Please refer to Fig. 1 and Fig. 2, be exploded perspective view and the lower view of the joints of optical fibre of this creation.The joints of optical fibre 1 comprise a connector housing, are mainly made up of a procapsid 10 and a back casing 12, and connector shell can be one-body molded or by procapsid 10 and back casing 12 assembled formations; Procapsid 10 is a rectangular structure, and it has procapsid front opening 101, one procapsid open rearward end 103 and and is communicated in procapsid front opening 101 and procapsid open rearward end 103 housing accommodation space before; One assembling guide groove 105, is arranged at procapsid 10 rear end end faces and is communicated in procapsid open rearward end 103 and procapsid accommodation space; One interior stopper section 106(please refer to Fig. 4), be disposed at wall within procapsid accommodation space; A pair of blocking hole 107, is divided into procapsid 10 rear end two side faces; One clamping slot 109(refers to Fig. 2), be formed at wall bottom surface outside procapsid 10.

One back casing 12, the stopper section 123 that is connected in assembled portion 121 by an assembled portion 121 and is formed, wherein assembled portion 121 has an assembled portion front opening 1211, stopper section 123 has a stopper section open rearward end 1231, one is communicated in assembled portion front opening 1211 and stopper section open rearward end 1231 housing accommodation space afterwards, and wherein assembled portion 121 is to be arranged in procapsid accommodation space via procapsid open rearward end 103; Wherein the stopper section 123 of back casing 12 is a rectangular structure, and assembled portion 121 is a cylindrical body.One assembling raised line 1213, be convexly set in assembled portion 121 end faces and corresponding to assembling guide groove 105; A pair of blocking projection 1215, is divided into assembled portion 121 two side faces and corresponding to blocking hole 107.In the time that procapsid 10 fastens mutually with back casing 12, the assembling raised line 1213 of back casing 12 can, via the guiding (also having the effect of fool proof) of assembling guide groove 105, be assembled in procapsid 10 assembled portion 121; Blocking projection 1215 can be placed in blocking hole 107, and procapsid 10 and back casing 12 are firmly fastened mutually.

One core pipe 20, be arranged at procapsid accommodation space and back casing accommodation space and partly protrude from procapsid front opening 101, there is a ceramic contact pin 201, one is connected in the base of ceramic 203 of leading portion, one is arranged at ceramic contact pin 201 and base of ceramic 203 Zhi Xinguan stopper sections, junction 205 and a core hole 207 through core pipe 20, when its core pipe 20 is placed in procapsid accommodation space, its core pipe stopper section 205 can be touched mutually with stopper section 106 within procapsid 10, make core pipe 20 be limited to unlikely mistake in procapsid 10 by interior stopper section 106 and protrude from procapsid front opening 101, one extension 23, is a hollow tubular, is disposed at base of ceramic 203 tail ends, in addition, a further sheathed spring 21 on base of ceramic 203, one sleeve pipe 22, is a hollow tubular, is disposed at back casing accommodation space and part protrudes from stopper section open rearward end 1231, and sleeve pipe 22 is sheathed on extension 23, and makes spring 21 between core pipe stopper section 205 and sleeve pipe 22, and this spring 21 is mainly with so that core pipe 20 has the effect of buffering (cushion), and the Main Function of core pipe 20 is in order to clad optical fiber line, and optical fiber cable is trimmed in core hole 207.One holder 25, is a hollow tubular, is sheathed on sleeve pipe 22 tail ends; One guide metal 30, it is a rectangular plate body, there is a first end 301 and one second end 303, wherein first end 301 is disposed in clamping slot 109, the second end 303 extends via the stopper section open rearward end 1231 of housing accommodation space after back casing 12, and is positioned at sleeve pipe 22 and holder 25 belows.

In the time that connector shell is formed in one, there is no the differentiation of procapsid 10 and back casing 12, only have single housing.Connector shell is a rectangular structure, and it has a connector housing front opening, and connector shell front opening is procapsid front opening 101; A connector housing open rearward end, connector shell open rearward end is stopper section open rearward end 1231; One is communicated in the connector shell accommodation space of connector shell front opening and connector shell open rearward end; One interior stopper section 106, is disposed at wall within this connector shell accommodation space; One clamping slot 109, is formed at wall bottom surface outside connector shell.

One core pipe 20, be arranged at this connector shell accommodation space and partly protrude from this connector shell front opening, there is a ceramic contact pin 201, one is connected in the base of ceramic 203 of leading portion, one is arranged at ceramic contact pin 201 and base of ceramic 203 Zhi Xinguan stopper sections, junction 205 and a core hole 207 through core pipe 20, when its core pipe 20 is placed in connector shell accommodation space, its core pipe stopper section 205 can be touched mutually with stopper section 106 within connector shell, make core pipe 20 be limited to unlikely mistake in connector shell 10 by interior stopper section 106 and protrude from this connector shell front opening, one extension 23, is a hollow tubular, is disposed at base of ceramic 203 tail ends, in addition, a further sheathed spring 21 on base of ceramic 203, one sleeve pipe 22, is a hollow tubular, is disposed at this connector shell accommodation space and part protrudes from this connector shell open rearward end, and sleeve pipe 22 is sheathed on extension 23, and makes spring 21 between core pipe stopper section 205 and sleeve pipe 22, and this spring 21 is mainly with so that core pipe 20 has the effect of buffering (cushion), and the Main Function of core pipe 20 is in order to clad optical fiber line, and optical fiber cable is trimmed in core hole 207.One holder 25, is a hollow tubular, is sheathed on sleeve pipe 22 tail ends; One guide metal 30, it is a rectangular plate body, there is a first end 301 and one second end 303, wherein first end 301 is disposed in clamping slot 109, the second end 303 extends via the connector shell open rearward end of the connector shell accommodation space of this connector shell, and is positioned at sleeve pipe 22 and holder 25 belows.

Then, referring to Fig. 3 A and 3B, is the first embodiment schematic diagram of the guide metal of this creation.Please refer to Fig. 3 A and 3B, guide metal 30 is mainly and connects wire 34, and does to be electrically connected use; Therefore its first end 301 can be exposed to the joints of optical fibre 1 bottom, makes it and other device is electrically connected, and the second end 303 is to be connected with wire 34, and guide metal 30 must touch with the plain conductor 341 of wire 34 inside, could form electrical path.The second end 303 ends at the first embodiment guide metal 30 form the prong like 305 that at least one upwards extends, and form one and touch wire casing 3051 between prong like 305; Because wire 34 is formed with insulation course 343 clad metal wires 341, therefore in the time that wire 34 is connected with the second end 303 of guide metal 30, its prong like 305 can be inserted insulation course 343, and plain conductor 341 is placed in tactile wire casing 3051, plain conductor 341 and prong like 305 are touched mutually, and form electrical path.

Following, refer to Fig. 3 C and 3D, is the second embodiment schematic diagram of the guide metal of this creation.Please refer to Fig. 3 C and 3D, the guide metal 32 of the second embodiment has a first end 321 and one second end 323 equally, its first end 321 is exposed to the joints of optical fibre 1 bottom equally, make it to be electrically connected with other device, and the second end 323 is also connected with wire 34; Wherein, the second end 323 ends of guide metal 32 form the ring-type pipe box 325 of a pair of upwards extension, form one and put line hole 3251 in the middle of ring-type pipe box 325; In the time that wire 34 is connected with the second end 323 of guide metal 32, its wire 34 front ends must first be removed the insulation course of a part 343, expose one section of plain conductor 341, and plain conductor 341 is inserted into and is put in line hole 3251, plain conductor 341 and ring-type pipe box 325 are touched mutually, and form electrical path.Emphasize at this, this creation is not to guide metal 30(32) configuration number limited, it also can be the configuration (for example: multiple guide metals be arranged in parallel configuration) of many.

Referring to Fig. 4, is the cut-away view of the joints of optical fibre of this creation.As shown in Figure 4, when core pipe 20 is placed in procapsid 10 and back casing 12 when interior, its core pipe stopper section 205 can be touched mutually with stopper section 106 within procapsid 10, and restriction core pipe 20 unlikely mistake in procapsid 10 protrudes from procapsid front opening 101; And at interior middle configuration one optical fiber cable 2 of core pipe 20, below procapsid 10 and back casing 12, configure a guide metal 30(take Fig. 3 A embodiment as example), and be connected with wire 34; In addition, in assembled portion front opening 1211 places of back casing 12, the further tail cover 24 of configuration one hollow tubular, it is connected on the sleeve pipe 22 and holder 25 that protrudes from stopper section open rearward end 1231, and has a cable 26 to be connected in tail to overlap 24 tail ends; Tail cover 24 can be protected joint and the wire rod overflexing being connected; And optical fiber cable 2 can extend via holder 25,34, wire can be extended by stopper section open rearward end 1231, and optical fiber cable 2 and wire 34 are together via tail cover 24 and extend in cable 26.By the configuration of this creation, optical fiber cable 2 and wire 34 are incorporated in the joints of optical fibre 1, make the joints of optical fibre 1 of this creation not only can transmit light signal, also can transmit electric signal.

Then, referring to Fig. 5 A ~ Fig. 5 C, is the schematic diagram of buckling device first, second and third embodiment of the joints of optical fibre of this creation.Please first consult Fig. 5 A, in the first embodiment, further configuration one buckling device 4 of housing 10 tops before the joints of optical fibre 1, in order to fasten fiber adapter; Buckling device 4 comprises one pressing fastened 40, and its front end 401 is arranged at procapsid 10 end faces; One operating portion 42, is a hollow sleeve, and holds 403 after being connected in pressing fastened 40 with an extension bar 44, and operating portion 42 is sheathed on cable 26; In addition, pressing fastened 40 positions, stage casing convex with a pair of engaging projection 405 outwardly, in order to fasten fiber adapter.Pressing fastened 40 is one to have the assembly of restoring force, in the time that the joints of optical fibre 1 insert fiber adapter, and can be because the restoring force of pressing fastened 40 be fastened in buckling device 4 in fiber adapter; And in the time that the joints of optical fibre 1 will be extracted, by by operating portion 42 toward post-tensioning, make to extend bar 44 and drive pressing fastened 40 toward bottom offset, make pressing fastened 40 to be no longer fastened in fiber adapter, and shift out by this fiber adapter; And in the time of pull operation portion 42 no longer, can reply again again original state for pressing fastened 40.

Then, referring to Fig. 5 B, is this creation buckling device the second embodiment, in a second embodiment, before the joints of optical fibre 1, further configuration one buckling device 4 ' of housing 10 tops, in order to fasten fiber adapter, and is respectively equipped with a chute 1233 in the two sides of back casing 12; Buckling device 4 ' comprises one pressing fastened 40, and its front end 401 is arranged at procapsid 10 end faces, and holds 403 both sides places to form a pair of slippage post 4031 after pressing fastened 40; One sliding shoe 46, has a sheathed hole 461, and forms a pair of slide block 4611 in sheathed hole 461 inwalls; Be formed with two side 463 at sliding shoe 46 end faces, two side 463 is respectively equipped with a perforation 4631, and the top side wall surface of the hole of perforation 4631 is an inclined-plane, and perforation 4631 has the high portion 46311 in rear end and a front end lower curtate 46313; Sliding shoe 46, with the slide block 4611 in set sheathed hole 461, is movably arranged on the chute 1233 of back casing 12, and slippage post 4031 correspondences of pressing fastened 40 is placed in the perforation 4631 of two side 463 of sliding shoe 46; One operating portion 42, is a hollow sleeve, and is connected in sliding shoe 46 with an extension bar 44, and operating portion 42 is sheathed on cable 26; In addition, pressing fastened 40 positions, stage casing convex with a pair of engaging projection 405 outwardly, in order to fasten fiber adapter.Pressing fastened 40 is one to have the assembly of restoring force, in the time that the joints of optical fibre 1 insert fiber adapter, and can be because the restoring force of pressing fastened 40 be fastened in buckling device 4 in fiber adapter; And in the time that the joints of optical fibre 1 will be extracted, by by operating portion 42 toward post-tensioning, make to extend bar 44 drives sliding shoe 46 to slide on chute 1233 backward, and be formerly positioned at perforation and hold the slippage post 4031 of high portion 46311 after 4631, can make slippage post 4031 migration front end lower curtates 46313 because sliding shoe 46 slides backward, and drive pressing fastened 40 toward pressing down, make pressing fastened 40 to be no longer fastened in fiber adapter, and shift out fiber adapter by this; And in the time of pull operation portion 42 no longer, sliding shoe 46 and slippage post 4031 be by the restoring force of pressing fastened 40, then reply as original position.

Finally, refer to Fig. 5 C, for this creation buckling device the 3rd embodiment, in the 3rd embodiment, its buckling device 4 ' ' structure configuration is roughly the same with the second embodiment, be a difference to be in its operating portion 42 be not a hollow sleeve, and change a draw ring 47 into, and be connected in sliding shoe 46 to extend bar 44 equally; And its embodiment pulls back with draw ring 47 equally and drive the slip of sliding shoe 46, and make pressing fastened 40 toward pressing down, and its detailed embodiment is identical with the second embodiment, is no longer repeated at this.

Referring to Fig. 6, is the schematic diagram of the first embodiment of the fiber adapter of this creation.As shown in Figure 6, the fiber adapter of the first embodiment is for being placed in the single-core fiber adapter 5 on server, it comprises an adapter housing, is mainly made up of one first housing 50 and one second housing 60, and adapter housing can be one-body molded or by the first housing 50 and the second housing 60 assembled formations.The first housing 50, is formed by a bottom surface 501, end face 502, a left surface 503, a right flank 504, a leading flank 505 and a trailing flank 506, and forms one first inner accommodation space in inside, and forms a front opening 5051 in leading flank 505; One first positioning pipe 52, is a hollow tubular, is formed at trailing flank 506 inside surfaces and extends to the first inner accommodation space, and form one first through hole 5061 with trailing flank 506 junctions.The second housing 60, is formed by a bottom surface 601, end face 602, a left surface 603, a right flank 604, a leading flank 605 and a trailing flank 606 equally, and forms one second inner accommodation space in inside, and forms a front opening 6051 in leading flank 605; One second positioning pipe 62, is a hollow tubular, is formed at trailing flank 606 inside surfaces and extends to the second inner accommodation space, and form one second through hole 6061 with trailing flank 606 junctions; In addition, form an opening running through 6011 in the bottom surface 601 of the second housing 60; Wherein after the first housing 50, after side 506 and the second housing 60, side 606 joins, and make the first through hole 5061 corresponding to the second through hole 6061, and the mode of joining of the first housing 50 and the second housing 60 can be buckle, bonding or welding, this creation is not limited.

One ferrule 70 is arranged in the first positioning pipe 52 and the second positioning pipe 62 simultaneously; One shell fragment 72, is a rectangular plate body, is disposed within the bottom surface 601 of bottom surface 501 to second housings 60 of the first housing 50 surface upper, and in the each pin 721,723 that forms in the two ends of shell fragment 72; Wherein, the pin 721 of shell fragment 72 one end is upwards bent to form an elastic pins 7211, and the pin 723 of the other end is bent to form an elastic pins 7231 downwards, and protrudes from the bottom surface 601 of the second housing 60 via the opening 6011 of the second housing 60; One pilot lamp 74, is disposed at the first housing 50 edge of end opening 5051 before, side 505 before, and the plastic material that the material of pilot lamp 74 is leaded light.

In the time that the adapter housing of single-core fiber adapter 5 is formed in one, there is no the differentiation of the first housing 50 and the second housing 60, only have single housing.Adapter housing, is formed by a housing bottom surface, a housing end face, a housing left surface, a housing right flank, a housing leading flank, a housing trailing flank and an inwall.Housing bottom surface comprises: bottom surface 501,601; Housing end face comprises: end face 502,602; Housing left surface comprises: left surface 503,603; Housing right flank comprises: right flank 504,604; Housing leading flank is the first housing 50 side 505 before; Housing trailing flank is the second housing 60 side 605 before; And inwall comprises: trailing flank 506,606; Adapter housing forms an enclosure interior accommodation space in inside, and is divided into the first inner accommodation space and the second inner accommodation space by inwall, and forms a housing front opening in housing leading flank, and housing front opening is front opening 5051; Form a housing open rearward end in housing trailing flank, housing open rearward end is front opening 6051.Adapter housing more comprises: a positioning pipe, and it is a hollow tubular, on wall within enclosure interior accommodation space, and forms a through hole, wherein hollow tubular is equal to the first positioning pipe 52 and the second positioning pipe 62.Its position of positioning pipe is equal to the first positioning pipe 52 and is formed at trailing flank 506 inside surfaces and extends to the position of the first inner accommodation space and the second positioning pipe 62 is formed at trailing flank 606 inside surfaces and extends to the position of the second inner accommodation space.Through hole is equal to the first through hole 5061 and the second through hole 6061.In addition, form a shell nozzle running through in the housing bottom surface of adapter housing, shell nozzle is opening 6011; Ferrule 70, is arranged in positioning pipe; Shell fragment 72, is a rectangular plate body, is disposed at the housing bottom surface of adapter housing.As previously mentioned, two ends respectively form a pin 721,723 to the structure of shell fragment 72; Wherein, the pin 721 of shell fragment 72 one end is upwards bent to form an elastic pins 7211, and the pin 723 of the other end is bent to form an elastic pins 7231 downwards, and protrudes from housing bottom surface via the shell nozzle of adapter housing.

Then, referring to Fig. 7, is the sectional view that the first embodiment of the fiber adapter of this creation connects the joints of optical fibre.As shown in Figure 7, can be found out by sectional view, the elastic pins 7231 of bending downwards can protrude from bottom 601 via opening 6011, and the elastic pins 7211 of upwards bending can bend in the first inner accommodation space.The single-core fiber adapter 5 of the first embodiment, for being placed in the adapter on server, therefore can first be placed in single-core fiber adapter 5 in server; For example, and the elastic pins 7231 of its bending downwards can join with server (: the PCB of server inside), then, the joints of optical fibre 1 insert single-core fiber adapter 5 and complete connection; In inserting, the guide metal 30 that the joints of optical fibre 1 are disposed at below just can be contacted with the elastic pins 7211 that single-core fiber adapter 5 inside upwards bend, and forms by this electrical path; And in the time that electrical path forms, learn by transmitting electric signal whether its identification code of server terminal (ID) that joints of optical fibre two ends are connected conforms to, if the identification code of the two ends server of connection conforms to correctly, the pilot lamp 74 that is placed in single-core fiber adapter 5 belows just can light (for example: green light), and representative docking is correct; Otherwise, as the two ends server of connection each other identification code do not conform to incorrectly, pilot lamp 74 can not light (or flashing the redlight), judges whether that by this docking is correct.

Referring to Fig. 8, is the schematic diagram of the second embodiment of the fiber adapter of this creation.As shown in Figure 8, the fiber adapter of the second embodiment is for connecting the single-core fiber adapter 5 ' of two joints of optical fibre 1, and its structure is roughly identical with the single-core fiber adapter 5 of the first embodiment, and wherein has three places not exist together; One is its shell fragment 78 configuring, and the pin 781,783 at its two ends all forms the upwards elastic pins 7811,7831 of bending.It two is: because shell fragment 78 two ends all upwards bend, therefore the bottom surface 601 of the second housing 60 does not need to form the opening 6011 running through.It three is: on single-core fiber adapter 5 ', do not need to configure pilot lamp 74; , therefore do not need pilot lamp 74 to show and whether dock correctly as the adapter that connects two joints of optical fibre 1 due to only.Except this three place does not exist together, other modular construction of the single-core fiber adapter 5 ' of the second embodiment is identical with the single-core fiber adapter 5 of the first embodiment, therefore no longer repeated.

Then, referring to Fig. 9, is the sectional view that the second embodiment of the fiber adapter of this creation connects the joints of optical fibre.As shown in Figure 9, can be found out by sectional view, the elastic pins 7811,7831 of upwards bending, can each bending in the first inner accommodation space and the second inner accommodation space.The single-core fiber adapter 5 ' of the second embodiment is for connecting the adapter of two joints of optical fibre 1; In the time that two joints of optical fibre 1 insert, the guide metal 30 that each joints of optical fibre 1 are disposed at below just can be contacted with the elastic pins 7811,7831 that single-core fiber adapter 5 ' inside upwards bends, by this mode, be communicated with two joints of optical fibre 1 electrical path each other.And wherein above-mentioned shell fragment 72,78 for transmitting the metal material of electric signal.Similarly, corresponding to aforementioned metal guide plate 30(32) can be the configuration of many, its relative elastic pins 7211,7231,7811,7831 also can be multiple configurations relatively, and its allocation position is except being disposed at the bottom surface of housing, also configurable in housing both sides.And emphasize at this, the first embodiment of this creation fiber adapter and the second embodiment are single core fiber adapter, it only has an interface for single fiber-optic connector.

Referring to Figure 10, is the schematic diagram of the 3rd embodiment of the fiber adapter of this creation.And as shown in figure 10, the 3rd embodiment of this creation is twin-core fiber adapter, can be for a pair of joints of optical fibre; Twin-core fiber adapter 8 comprises an adapter housing, is mainly made up of one first housing 80 and one second housing 90, and adapter housing can be one-body molded or by the first housing 80 and the second housing 90 assembled formations.The first housing 80, is formed by a bottom surface 801, end face 802, a left surface 803, a right flank 804, a leading flank 805 and a trailing flank 806, and forms one first inner accommodation space in inside, and leading flank 805 forms a front opening 8051; One first demarcation strip 807, by trailing flank 806 to front opening 8051 arranged perpendicular in the first inner accommodation space; A pair of the first positioning pipe 82, it is a hollow tubular, be formed at trailing flank 806 inside surfaces and extend to the first inner accommodation space, and form a pair of the first through hole 8061 with trailing flank 806 junctions, wherein this is separated by the first demarcation strip 807 the first positioning pipe 82, and is placed in respectively the both sides of the first demarcation strip 807.The second housing 90, is formed by a bottom surface 901, end face 902, a left surface 903, a right flank 904, a leading flank 905 and a trailing flank 906 equally, and forms one second inner accommodation space in inside, and forms a front opening 9051 in leading flank 905; One second demarcation strip (do not indicate), by trailing flank 906 to front opening 9051 arranged perpendicular in the second inner accommodation space; A pair of the second positioning pipe 92, is a hollow tubular, is formed at trailing flank 906 inside surfaces and extends to the second inner accommodation space, and form a pair of the second through hole 9061 with trailing flank 906 junctions; In addition, form a pair of opening running through 9011 in the bottom surface 901 of the second housing 90, and be separated in both sides by the second demarcation strip (not indicating) equally; Wherein this is separated by the second demarcation strip (not indicating) the second positioning pipe 92, and is placed in respectively the both sides of the second demarcation strip (not indicating); Wherein, after the first housing 80, after side 806 and the second housing 90, side 906 joins, and make a pair of the first through hole 82 corresponding to a pair of the second through hole 92, and the mode of joining of the first housing 80 and the second housing 90 can be buckle, bonding or welding, this creation is not limited.

A pair of ferrule 1000, is respectively a hollow tubular, is arranged in a pair of the first positioning pipe 82 and a pair of the second positioning pipe 92 simultaneously; A pair of shell fragment 1002, it is respectively a rectangular plate body, be disposed within the bottom surface 901 of bottom surface 801 to second housings 90 of the first housing 80 on surface, and in the each pin 10021,10023 that forms in the two ends of each shell fragment 1002, this is separated by the first demarcation strip 807 and the second demarcation strip (not indicating) shell fragment 1002, and is placed in respectively the both sides of the first demarcation strip 807 and the second demarcation strip (not indicating).In addition, the pin 10021 of each shell fragment 1002 one end is upwards bent to form an elastic pins 10021a, and the pin 10023 of the other end is bent to form an elastic pins 10023a downwards, and protrude from the bottom surface 901 of the second housing 90 via the pair of openings 9011 of the second housing 90; A pair of pilot lamp 1004, is disposed at the first housing 80 edge of end opening 8051 before, side 805 before, and the plastic material that the material of pilot lamp 1004 is leaded light.

In the time that the adapter housing of twin-core fiber adapter 8 is formed in one, there is no the differentiation of the first housing 80 and the second housing 90, only have single housing.Adapter housing, is formed by a housing bottom surface, a housing end face, a housing left surface, a housing right flank, a housing leading flank, a housing trailing flank and an inwall.Housing bottom surface comprises: bottom surface 801,901; Housing end face comprises: end face 802,902; Housing left surface comprises: left surface 803,903; Housing right flank comprises: right flank 804,904; Housing leading flank is before the first housing 80 side 805 and this housing trailing flank and is side 905 before this second housing 90; And inwall comprises: trailing flank 806,906; Adapter housing forms an enclosure interior accommodation space in inside, and is divided into the first inner accommodation space and the second inner accommodation space by inwall, and forms a housing front opening in housing leading flank, and housing front opening is front opening 8051; Form a housing open rearward end in housing trailing flank, housing open rearward end is front opening 9051.This adapter housing more comprises a demarcation strip arranged perpendicular in enclosure interior accommodation space, and demarcation strip is equal to the first demarcation strip 807 and the second demarcation strip 907.Adapter housing more comprises: a pair of positioning pipe is respectively a hollow tubular, on wall within enclosure interior accommodation space, and forms a pair of through hole; Wherein this is separated by demarcation strip positioning pipe, and is placed in respectively the both sides of demarcation strip.Wherein this is equal to the first positioning pipe 82 and the second positioning pipe 92 to hollow tubular.Its position of positioning pipe is equal to the first positioning pipe 82 to be formed at trailing flank 806 inside surfaces and to extend to the position of the first inner accommodation space and the second positioning pipe 62 is formed at trailing flank 906 inside surfaces and extends to the position of the second inner accommodation space.Through hole is equal to the first through hole 8061 and the second through hole 9061.In addition, form a pair of shell nozzle running through in the housing bottom surface of adapter housing, shell nozzle is opening 9011; A pair of ferrule 1000, is arranged in respectively in positioning pipe; A pair of shell fragment 1002, is respectively a rectangular plate body, is disposed at the housing bottom surface of adapter housing.As previously mentioned, two ends respectively form a pin 10021,10023 to the structure of each shell fragment 1002; Wherein, the pin 10021 of each shell fragment 1002 one end is upwards bent to form an elastic pins 10021a, and the pin 10023 of the other end is bent to form an elastic pins 10023a downwards, and protrudes from housing bottom surface via the pair of openings 9011 of adapter housing.

Twin-core fiber adapter 8 its embodiments are identical with aforementioned single core adapter 5, be connected with the guide metal 3 of the joints of optical fibre 1 by shell fragment 1002, make two ends server form electrical path, and confirm via identification code, make pilot lamp 1004 show whether two ends server docks correctly; And twin-core fiber adapter 8 is for a pair of joints of optical fibre, whether identification simultaneously this dock correctly the joints of optical fibre.And all the other detailed embodiments of twin-core fiber adapter 8 are identical with aforementioned fiber adapter the first embodiment, therefore no longer repeated.

Then, referring to Figure 11, is the schematic diagram of the 4th embodiment of the fiber adapter of this creation.As shown in figure 11, the fiber adapter of the 4th embodiment is for connecting the twin-core fiber adapter 8 ' of two pairs of joints of optical fibre, and its structure is roughly identical with the twin-core fiber adapter 8 of the 3rd embodiment, and wherein has three places not exist together; One is its shell fragment 1006 configuring, and the pin 10061,10063 at its two ends all forms upwards elastic pins 10061a, the 10063a of bending.It two is: because shell fragment 1006 two ends all upwards bend, therefore the bottom surface 901 of the second housing 90 does not need to form a pair of opening running through 9011.It three is: on single-core fiber adapter 8 ', do not need to configure pilot lamp 1004; , therefore do not need pilot lamp 1004 to show and whether dock correctly as the adapter that connects two pairs of joints of optical fibre due to only.Except this three place does not exist together, other modular construction of the twin-core fiber adapter 8 ' of the 4th embodiment is identical with the twin-core fiber adapter 8 of the 3rd embodiment, therefore no longer repeated.And being wherein noted that single core, the twin-core fiber adapter of this creation, its first housing and the second housing can one-body molded or assembled formations; And the first demarcation strip of twin-core fiber adapter and the second demarcation strip also can one-body molded or assembled formations, this creation is not limited this; In addition, shell fragment 72,78,1002 and 1006 its materials of the first embodiment of this creation, the second embodiment, the 3rd embodiment and the 4th embodiment are metal material.

Referring to Figure 12, is the schematic diagram of the end device of this creation.As shown in figure 12, end device 200 is as server, terminating machine etc., it mainly comprises: a cabinet 2001, its inside has a motherboard (not indicating), one central processing unit (not indicating), one internal memory (not indicating), a plurality of wafer groups (not indicating), one power supply unit (not indicating) and a plurality of fiber adapter 2003, wherein fiber adapter 2003(is as the fiber adapter of above-mentioned the first embodiment to the four embodiment) there is an interface 20031, and fiber adapter 2003 inside have a shell fragment 20033, shell fragment 20033 one end are formed in interface 20031, the other end is electrically connected at the interior motherboard of cabinet 2001, and shell fragment 20033 its materials are metal material.End device 200 is by shell fragment 20033 configuration modes of fiber adapter 2003 inside, can be by the joints of optical fibre with configuration of wires and guide metal, be electrically connected the end device 200 at two ends, and confirm via the identification code of end device 200 inside, whether the identification joints of optical fibre dock correctly.

In addition in this explanation, the joints of optical fibre 1 of this creation are LC(Lucent Connector) joints of optical fibre of type, and the fiber adapter of pairing LC type, but this creation is not limited the type of the joints of optical fibre and fiber adapter, all feature structures that meets this creation of all types of joints of optical fibre and fiber adapter are all the interest field of this creation.

By the joints of optical fibre and fiber adapter that this creation proposed, it is except can transmitting light signal, also can transmit electric signal by the shell fragment that is disposed at fiber adapter inside, and by this can be in the time that server is installed, can learn in real time whether the joints of optical fibre dock correct fiber adapter, not only save time and quite convenient.

Although this creation discloses as above with aforementioned preferred embodiment; so it is not in order to limit this creation; anyly have the knack of this area skill person; not departing from the spirit and scope of this creation; when doing a little change and retouching, therefore the scope of patent protection of this creation must be as the criterion depending on the appended claim person of defining of this instructions.

Symbol description

1 joints of optical fibre

2 optical fiber cables

10 procapsids

101 procapsid front openings

103 procapsid open rearward end

105 assembling guide grooves

106 interior stopper sections

107 blocking holes

109 clamping slots

12 back casings

121 assembled portion

1211 assembled portion front openings

1213 assembling raised lines

1215 blocking projections

123 stopper sections

1231 stopper section open rearward end

1233 chutes

20 core pipes

201 ceramic contact pins

203 base of ceramic

205 core pipe stopper sections

207 core holes

21 springs

22 sleeve pipes

23 extensions

24 tail covers

25 holders

26 cables

30 guide metals

301 first ends

303 second ends

305 prong like

3051 touch wire casing

32 guide metals

321 first ends

323 second ends

325 ring-type pipe boxes

3251 put line hole

34 wires

341 plain conductors

343 insulation courses

4,4 ', 4 ' ' buckling device

40 pressing fastened

401 front ends

403 rear ends

4031 slippage posts

405 engaging projections

42 operating portions

44 extend bar

46 sliding shoes

461 sheathed holes

4611 slide blocks

463 sidewalls

4631 perforation

The 46311 high portions in rear end

46313 front end lower curtates

47 draw rings

5,5 ' single-core fiber adapter

8,8 ' twin-core fiber adapter

50,80 first housings

60,90 second housings

501,601,801,901 bottom surfaces

502,602,802,902 end faces

503,603,803,903 left surfaces

504,604,804,904 right flanks

505,605,805,905 leading flanks

5051,6051,8051,9051 front openings

506,606,806,906 trailing flanks

5061,8,061 first through holes

52,82 first positioning pipes

6061,9,061 second through holes

6011,9011 openings

62,92 second positioning pipes

70,1000 ferrules

72,78,1002,1006,20033 shell fragments

721,723,781,783,10021,10023,10061,10063 pins

7211,7231,7811,7831,10021a, 10023a, 10061a, 10063a elastic pins

74,1004 pilot lamp

807 first demarcation strips

200 end devices

2001 cabinets

2003 fiber adapter

20031 interfaces.

Claims (14)

1. joints of optical fibre, comprising:

One procapsid, has a procapsid front opening, and a procapsid open rearward end and is communicated in this procapsid front opening and this procapsid open rearward end housing accommodation space before;

One assembling guide groove, is arranged at this procapsid rear end end face and is communicated in this procapsid open rearward end and this procapsid accommodation space;

One interior stopper section, is disposed at wall within this procapsid accommodation space;

One clamping slot, is formed at wall bottom surface outside this procapsid;

One back casing, the stopper section that is connected in this assembled portion by an assembled portion and is formed, wherein this assembled portion has an end face and an assembled portion front opening, stopper section has a stopper section open rearward end, and one be communicated in housing accommodation space after this assembled portion front opening and this stopper section open rearward end, wherein this fore shell system is sheathed on this assembled portion of this back casing, and terminates in this stopper section of this back casing;

One assembling raised line, is convexly set in this end face of this assembled portion and corresponding to this assembling guide groove;

One core pipe, be arranged at this procapsid accommodation space and back casing accommodation space and partly protrude from this procapsid front opening, there is a contact pin, one is connected in the pedestal of this contact pin, one is arranged at this ceramic contact pin and Zhi Xinguan stopper section, base of ceramic junction and a core hole through this core pipe, when wherein this core pipe is placed in this procapsid accommodation space, its this core pipe stopper section system touches mutually with this interior stopper section;

One spring, its one end is sheathed on this pedestal tail end;

One sleeve pipe, is a hollow tubular, is disposed at this back casing accommodation space and part protrudes from this stopper section open rearward end, and this sleeve pipe is arranged on the other end of this spring, and makes this spring between this core pipe stopper section and this sleeve pipe; And

One guide metal, is a rectangular plate body, has a first end and one second end, and this first end system is disposed in this clamping slot, and this second end system extends in this holder via this stopper section open rearward end of this back casing accommodation space of this back casing.

2. the joints of optical fibre as claimed in claim 1, is characterized in that: the connected mode of described procapsid and this back casing is buckle, bonding or welding.

3. the joints of optical fibre as claimed in claim 1, is characterized in that: described core pipe is ceramic material.

4. the joints of optical fibre as claimed in claim 1, is characterized in that: the described joints of optical fibre further comprise the extension of a hollow tubular, and are disposed at this pedestal tail end, and be positioned at this spring and this sleeve pipe.

5. the joints of optical fibre as claimed in claim 1, is characterized in that: the described joints of optical fibre further comprise the holder of a hollow tubular, are sheathed on this sleeve pipe tail end.

6. the joints of optical fibre as claimed in claim 1, is characterized in that: this second end end system of described guide metal forms at least one prong like of upwards extending.

7. the joints of optical fibre as claimed in claim 1, is characterized in that: this second end end system of described guide metal forms the ring-type pipe box of a pair of upwards extension.

8. the joints of optical fibre as claimed in claim 1, is characterized in that: the described joints of optical fibre further comprise one pressing fastened, its front end is arranged at this procapsid end face.

9. the joints of optical fibre as claimed in claim 5, is characterized in that: the described joints of optical fibre are configuration one tail cover further, is hollow tubular, is connected on this sleeve pipe and this holder that protrudes from this stopper section open rearward end.

10. the joints of optical fibre as claimed in claim 8, is characterized in that: among described pressing fastened, a section position convexes with a pair of engaging projection outwardly.

11. joints of optical fibre as claimed in claim 1, is characterized in that: the system of width around of described stopper section is greater than the width around of this assembled portion.

12. joints of optical fibre as claimed in claim 1, it is a LC(Lucent Connector) joints of optical fibre of type.

13. 1 kinds of joints of optical fibre, comprising: a connector housing, and form an accommodation space, in this accommodation space, comprise a core pipe, a sleeve pipe, and boundary's spring one of between this core pipe and this sleeve pipe, being wherein characterised in that of these joints of optical fibre:

One guide metal has a first end and one second end, and this guide metal is disposed in this accommodation space, and its first end system is exposed to the bottom of this connector shell, and the second end system is via holding and extend after this connector shell.

14. 1 kinds of joints of optical fibre, comprise: a procapsid and links this procapsid housing afterwards, and forms an accommodation space, comprises a core pipe, a sleeve pipe in this accommodation space, and boundary's spring one of between this core pipe and this sleeve pipe, being wherein characterised in that of these joints of optical fibre:

One guide metal has a first end and one second end, and this guide metal is disposed in this accommodation space, and its first end system is exposed to the bottom of this procapsid, and the second end system is via holding and extend after this back casing.

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