CN201666962U - Connector - Google Patents

Abstract

The utility model discloses a connector which comprises an insulating body, a conductive terminal fixed on the insulating body and an optical fiber device used for transmitting optical signals, wherein the insulating body is provided with an upper surface and a lower surface; the insulating body is also provided with a containing groove sinking from the front side of the lower surface and a slender first groove which is positioned behind the containing groove and extends along the front and back direction; the optical fiber device comprises a base which is arranged in the containing groove and slides along the front and back direction and an optical fiber arranged on the base and extending backward along the front and back direction; the optical fiber is provided with a coupling part fixed in the base and a positioning part which extends backward from the coupling part and is positioned in a first groove.

Description

Connector

[technical field]

The relevant a kind of connector of the utility model, but relate in particular to a kind of connector of transmitting optical signal.

[background technology]

(Universal Serial Bus, USB) interface has been widely used in numerous design of electronic devices as a kind of input/output interface of standard USB (universal serial bus).1994,7 tame world-renowned computing machines such as Intel, Compaq, numeral, IBM, Microsoft, NEC, Northern Telecom and communication common carrier were united and have been set up USB association (USB-IF), tentatively set up the USB interface standard.Up to the present, the successively issue of USB association versions such as 1.0,1.1,2.0 and 3.0, and the transfer rate of USB also little by little is being improved.Development and development of technology along with electronics industry, people are still in the transfer rate that constantly improves USB hardy, but had at present the USB connector of a kind of transmission optics signal with further raising transfer rate, this connector generally include insulating body, be fixed on the insulating body conducting terminal and in order to carry out the fiber device of optical delivery.Insulating body is provided with accepting groove, this fiber device can slide along fore-and-aft direction in this accepting groove, thereby make that this fiber device can slide backward when this USB connector connected with the butt connector that has fiber device equally in accepting groove, when this USB connector is not docked with butt connector, thereby fiber device conveniently docks to restore to the original state once more to front slide, yet, fiber device slides the back in accepting groove unavoidably can be at above-below direction, produce on left and right directions or the fore-and-aft direction crooked, thereby be unfavorable for that the fiber device on this fiber device and the butt connector connects.In addition, be retained on usually on the fiber device in the insulating body optical fiber be straight configuration after cable is connected, when cable stress stretches, cause optical fiber excessively to be stretched easily and damage.

Therefore, at above-mentioned technical matters, be necessary to provide a kind of structure improved connector that has, to overcome above-mentioned defective.

[utility model content]

The purpose of this utility model is to provide a kind of fiber device that guarantees to dock reliable connector.

For reaching above-mentioned purpose, the utility model adopts following technical scheme: a kind of connector, it comprises insulating body, be retained on the insulating body conducting terminal and in order to carry out the fiber device of optical signal transmission, described insulating body is provided with upper surface and lower surface, described insulating body is provided with from the accepting groove of lower surface front side depression and slender type first groove that is positioned at the accepting groove rear side and extends along fore-and-aft direction, the optical fiber that described fiber device is included in the accepting groove pedestal that slides along fore-and-aft direction and is located on the pedestal and extends back along fore-and-aft direction, described optical fiber is provided with the coupling part that is fixed in the pedestal, extend back and be positioned location division in first groove from coupling part.

In preferred embodiment, described first groove connects along insulating body fore-and-aft direction and accepting groove, and the location division of described optical fiber is contained in first groove and can moves along fore-and-aft direction in first groove.

In preferred embodiment, described insulating body also is provided with from lower surface depression and is positioned at second groove of the first groove rear side, described second groove along the insulating body fore-and-aft direction and first groove connects and the width that extends along the insulating body horizontal direction greater than the width of first groove, described location division can move in second groove along fore-and-aft direction.

In preferred embodiment, described optical fiber also is provided with the bend that is connected in the location division rear side, and described bend is contained in second groove.

In preferred embodiment, described insulating body also is provided with unsteady groove between first groove and accepting groove, described optical fiber is provided with the float portion between coupling part and location division, and described float portion is contained in the groove that floats and can moves along the insulating body horizontal direction.

In preferred embodiment, described pedestal is provided with the lens of optical fiber optically-coupled and is positioned at the accepting hole of lens rear with the coupling part of fixing each optical fiber, and described first groove is corresponding one by one along fore-and-aft direction with accepting hole.

In preferred embodiment, described insulating body also is provided with a depressed part that is positioned at the accepting groove rear and caves in from lower surface, described depressed part is connected along the vertical direction with first groove, described connector also includes a cover plate, described cover plate be contained in the depressed part and the below that presses on the location division to prevent the downward perk of optical fiber.

In preferred embodiment, described insulating body is provided with a reference column that is positioned at the accepting groove rear and extends to the accepting groove direction, described pedestal is provided with a projection that extends in opposite directions with reference column, described connector comprises that also one is clamped in the spring between pedestal and the insulating body, described spring one end is fixed on the reference column, and the other end is enclosed within on the projection and is held in the rear end of pedestal.

In preferred embodiment, described insulating body comprises the hyoplastron that main part and autonomous body extend forward, and described accepting groove is recessed to form from the below of hyoplastron.

In preferred embodiment, arranging of described conducting terminal meets the USB3.0 transmission standard, it comprises the first terminal and second terminal, described the first terminal comprises tabular first contact site that is positioned at the hyoplastron top, and described second terminal comprises elasticity second contact site that is positioned at the hyoplastron top and is positioned at the first contact site rear.

Compared with prior art, the utlity model has following beneficial effect: the location division of each optical fiber is positioned wherein by slender type first groove that extends along fore-and-aft direction is set on insulating body, make the utility model connector connect or when not docking with the butt connector that has fiber device, the location division of optical fiber all can not moved along the insulating body horizontal direction, thereby can effectively pin down pedestal, prevent that pedestal is excessively mobile along the insulating body horizontal direction, and then make the fiber device on the utility model connector can aim at mutually along fore-and-aft direction when fiber device on the butt connector docks, with guarantee with butt connector on fiber device reliably dock.

The utility model is described in further detail below in conjunction with accompanying drawing and preferred embodiment.

[description of drawings]

Fig. 1 is the three-dimensional combination figure of the utility model connector.

Fig. 2 is the part three-dimensional exploded view after the utility model connector decomposes shielding casing.

Fig. 3 is the part three-dimensional exploded view of another angle after the utility model connector decomposes shielding casing.

Fig. 4 removes part three-dimensional combination figure behind the shielding casing for the utility model connector.

Fig. 5 removes part three-dimensional exploded view behind the shielding casing for the utility model connector.

Fig. 6 removes the part three-dimensional exploded view of another angle behind the shielding casing for the utility model connector.

[embodiment]

Please refer to Fig. 1 to shown in Figure 6, the preferred forms of the utility model connector 100 is a photoelectricity pin connector, the locating piece 6 that it comprises insulating body 1, be retained on plurality of conductive terminals 2 on the insulating body 1, be located at fiber device 3 on the insulating body 1, be clamped in spring 4 between insulating body 1 and the fiber device 3, be retained on pedestal 5 on the insulating body 1, match with pedestal 5, the shielding casing 7 of coated insulation body 1, is centered around the external insulation layer 8 of shielding casing 7 peripheries and the cable 9 that is connected with conducting terminal 2 and fiber device 3.Described cable 9 comprises cable and optical cable.

Please refer to Fig. 2 to shown in Figure 6, insulating body 1 is provided with upper surface 11 and lower surface 12, and includes the hyoplastron 14 that the front end of main part 13 and autonomous body 13 extends forward.Insulating body 1 lower surface 12 rear ends are formed with plurality of terminals accepting groove 131, and the top of main part 13 is provided with the host cavity 132 that is arranged with from upper surface 11, and described pedestal 5 is fixed in the host cavity 132.The below of described insulating body 1 hyoplastron 14 is provided with from the accepting groove 141 of lower surface 12 front sides depression and is positioned at the rear of accepting groove 141 and the fluting 142 that connects along fore-and-aft direction with accepting groove 141.Also be concaved with some grooves 143 that extend along fore-and-aft direction from lower surface 12 on the described insulating body 1.Described groove 143 comprises the unsteady groove 1433 that is positioned at accepting groove 141 rear sides, be positioned at slender type first groove 1431 of groove 1433 rear sides that float and be positioned at second groove 1432 of first groove, 1431 rear sides, the width that the width that described second groove 1432 extends along insulating body 1 horizontal direction extends along insulating body 1 horizontal direction greater than first groove 1431.In the present embodiment, the width after the width of second groove 1432 is connected along insulating body 1 horizontal direction greater than two first adjacent grooves 1431; Really, in other embodiments, described second groove 1432 also can only be a bit larger tham the width of one first groove 1431, also can be identical or bigger with the width after all first grooves 1431 are connected along insulating body 1 horizontal direction.Described unsteady groove 1433 along the width of insulating body 1 left and right directions less than the width of accepting groove 141 greater than the width of first groove 1431 and second groove 1432.Described unsteady groove 1433 connects along the vertical direction with fluting 142.Described first groove 1431 connects along fore-and-aft direction and unsteady groove 1433 and accepting groove 141, and described second groove 1432 connects along insulating body 1 fore-and-aft direction and first groove 1431.Insulating body 1 is provided with the reference column 1421 that protrudes out to accepting groove 141 directions in fluting 142, spring 4 rear ends are housed in the fluting 142 and are fixed on the reference column 1421, and spring 4 can be held in fluting 142 both sides and excessively swing along insulating body 1 horizontal direction with restraining spring 4.Described hyoplastron 14 is arranged with downwards at the rear side of accepting groove 141 and forms a recess 149 that connects with accepting groove 141, thereby the front end below that this recess 149 just in time is positioned at spring 4 provides a space that swings up and down for the front end of spring 4.

Described insulating body 1 also is provided with one and is positioned at accepting groove 141 rears and from the depressed part 144 of lower surface 12 depression, and the degree of depth that described depressed part 144 extends along insulating body 1 above-below direction is less than accepting groove 141.Described depressed part 144 is connected, is connected along the vertical direction with first groove 1431 along fore-and-aft direction with accepting groove 141.Described connector 100 includes a cover plate 10 and is contained in the depressed part 144.Described depressed part 144 belows are concaved with a circular hole 1441 respectively in first groove, 1431 both sides, and described cover plate 10 is provided with a pair of retaining column 101 and can be immobilizated in respectively in the circular hole 1441.In addition, also be provided with one on the described cover plate 10, make and to swing along the vertical direction when spring 4 is installed on the reference column 1421 along the opening 102 of insulating body 1 above-below direction with fluting 142 corresponding settings.The front end centre position of hyoplastrons 14 extends upward and forms a front wide and rear narrow roughly V-shaped stop block 145 in the described accepting groove 141, and hyoplastron 14 each side forms a projection that upwards protrudes out 147 stop block 145.The top rear side of hyoplastron 14 is formed with some terminal grooves that are arranged side by side 148.The horizontal direction of insulating body 1 is left and right directions in the present embodiment, above-below direction is longitudinal direction.

Arranging of described conducting terminal 2 meets the USB3.0 transmission standard, and it comprises the first terminal 21 and second terminal 22.Described the first terminal 21 edges bury and take shape on the insulating body 1, and be provided with tabular first contact site 211 that is positioned at hyoplastron 14 upper end pilot trench 148 the place aheads, be positioned at insulating body 1 rear end terminal containing slot 131 with first afterbody 212 of cable 9 electric connections.Described second terminal 22 be immobilizated in the pedestal 5 and comprise elasticity second contact site 221 in the terminal groove 148 that extends on the hyoplastron 14, with second afterbody 223 of cable 9 electric connections and be connected second contact site 221 and second holding parts 222 of second afterbody 223.Described first contact site 211 and second contact site 221 are positioned at the top of hyoplastron 12 jointly and form two rows that front and back are intervally arranged.The described fiber device 3 and first contact site 211 and second contact site 221 are spaced apart along insulating body 1 above-below direction.5 one-tenth rectangle block designs of described pedestal also are provided with some terminal accommodation holes 51 that run through pedestal 5 along fore-and-aft direction.Described second holding parts 222 is retained in the terminal accommodation holes 51 of pedestal 5.Described locating piece 6 protrudes into terminal accommodation holes 51 rear ends so that second terminal 22 firmly is fixed in the insulating body 1.This second terminal 22 also can be inlayed earlier to bury and together be assembled on the insulating body 1 with pedestal 5 after being molded on the pedestal 5 again.

Please refer to Fig. 2 to shown in Figure 6, fiber device 3 can slide at insulating body 1 upper edge fore-and-aft direction, and it is included in the accepting groove 141 of insulating body 1 pedestal 30 that slides along fore-and-aft direction and is installed in optical fiber 35 on the pedestal 30.Described pedestal 30 front end centre positions are provided with stop block 145 matches and front wide and rear narrow V-shaped groove 31.Pedestal 30 is respectively equipped with a pair of lens 32 in the left and right sides of V-shaped groove 31.Described pedestal 30 is formed with an accepting hole 33 in the dead astern of each lens 32.Described first groove 1431 is corresponding one by one along fore-and-aft direction with accepting hole 33.Described pedestal 30 each outside to lens 32 be provided with pilot hole 34 with butt connector (not shown) on cylinder connect, thereby make the center line complete matching of pin connector and socket connector, guarantee the quality of optical signal transmission.The rear end of pedestal 30 is provided with the projection 36 of projection backward, and the front end of spring 4 is fixed on the projection 36, and described projection 36 and reference column 1421 extend in opposite directions spring 4 is clamped between insulating body 1 and the pedestal 30 to support pedestal 30 forward.

The utility model connector 100 includes four described optical fiber 35.Each optical fiber 35 is provided with in the accepting hole 33 that is fixed on lens 32 rear ends with the coupling part 351 of lens 32 optically-coupled, extend back and float portion 355, the self-relocation portion 355 in the groove 1433 that is positioned to float of accommodating continues to extend back and be contained in bend 353 in location division 352 in first groove 1431, self-align 352 second groove 1432 that extends back and be contained in, reach and extend back the connecting portion 354 of insulating body 1 with connection cable 9 from bend 353 from coupling part 351.In the utility model connector 100 coupling part 351 of each optical fiber 35 front side is individually fixed on the pedestal 30 with the corresponding one by one coupling of lens 33 so that the transmission of high speed optical signal to be provided.

Described float portion 355 all is contained in the groove 1433 that floats and can does by a small margin swing along insulating body about 1 or above-below direction.Described location division 352 is contained in first groove 1431 excessively mobile along insulating body 1 horizontal direction with restriction location division 352 respectively, thereby can effectively pin down pedestal 30, prevent that pedestal 30 is excessively mobile along insulating body 1 horizontal direction, and then make the fiber device 3 on the utility model connector 100 can aim at mutually along fore-and-aft direction when docking with the fiber device (not shown) on the butt connector, guarantee with butt connector on fiber device dock reliably.In addition, after optical fiber 35 is installed on the insulating body 1, described cover plate 10 is fixed in the depressed part 144 is limited in the groove 143 so that optical fiber 35 is compressed, can effectively prevent optical fiber 35 downward perk when fore-and-aft direction moves, and then pin down pedestal 30, prevent that pedestal 30 is excessively mobile along insulating body 1 above-below direction, the fiber device 3 on the utility model connector 100 is reliably docked with fiber device on the butt connector.Excessively mobile to prevent it in the present embodiment along insulating body 1 horizontal direction by the location division 352 that first groove, 1431 up-winding fibers 35 are set on insulating body 1, and prevent optical fiber 35 perks by cover plate 10 compacting optical fiber 35; Really, in other embodiments, also can be by first groove that extends along fore-and-aft direction directly being set accommodating and positioning optical waveguides 35 on cover plate 10, cover plate 10 is installed on the insulating body 1 back and suppresses optical fiber 35 jointly with insulating body 1 and also can reach identical purpose to prevent optical fiber 35 perks.Described bend 353 is housed in along insulating body 1 horizontal direction than in wide second groove 1432 of first groove 1431, thereby when the cable 9 of the utility model connector 100 rear sides is stretched, can stretch by the bend 353 of optical fiber 35 and eliminate or reduce the pulling force that therefore optical fiber 35 be subjected to, make optical fiber 35 be difficult for being stretched and damage.

Shielding casing 7 comprises that the upper casing 71 that mutually combines and lower casing 72 are to be coated on insulating body 1 wherein to play shield effectiveness well.Upper casing 71 be coated on around the hyoplastron 14 and comprise the diapire 711 that is pressed on hyoplastron 14 lower surfaces, with diapire 711 opposing top 712 and the two side 713 that is connected diapire 711 and roof 712.The front end of diapire 711 integrated punching that makes progress forms a projection 75 that supports below fiber device 3.

When 100 insertions of the utility model pin connector have the butt joint socket connector of corresponding fiber device, cylinder on the fiber device of the pilot hole 34 on the fiber device 3 of pin connector 100 and corresponding butt joint socket connector matches, when the length size of pilot hole 34 and cylinder are inconsistent, the fiber device 3 of this pin connector 100 can slide at the acting force lower edge of spring 4 fore-and-aft direction and adjust, fiber device 3 on the pin connector 100 is cooperated flexibly with fiber device on the corresponding socket connector, reliably, and the location division 352 of optical fiber 35 is contained in first groove 1431 and moves along fore-and-aft direction in first groove 1431, then the position of optical fiber 35 in initial position and active procedure all can be effectively controlled, help moving of fiber device 3 integral body, and can over-deflection; This external cause second groove 1432 along the width of insulating body 1 horizontal direction greater than first groove 1432, then location division 352 can partly be bending and moves in second groove 1432 when fore-and-aft direction moves, and makes fiber device 3 can move swimmingly at 4 acting force lower edge fore-and-aft directions of spring.

In addition, when this fiber device 3 slides backward, pedestal 30 is the front end of compression spring 4 backward, because the rear end of spring 4 is fixed on the reference column 1421 of insulating body 1, the front end of spring 4 swings up and down below can reaching in recess 149, the rear end swings up and down above can reaching in opening 102, thereby when being slided backward, pedestal 30 can swing up and down, therefore, when the cylinder on the fiber device of the pilot hole 34 on the fiber device 3 of pin connector 100 and corresponding butt joint socket connector during in the initial position misalignment, in the time of can sliding backward by pedestal 30 up and down or swing and adjust; This moment optical fiber 35 float portion 355 in the groove 1433 that floats along up and down or left and right directions do by a small margin mobile to make things convenient for pedestal 30 up and down or swing, be positioned in first groove 1431 and compressed by lid 10 can be excessively not mobile along reaching left and right directions up and down because of the location division 352 of optical fiber 35, thereby can effectively pin down fiber device 3, prevent excessively swing and can not reliably being connected of fiber device 3 with the fiber device of butt connector.In addition, when the user stretch the utility model pin connector 100 rear sides cable 9 with it when butt joint is extracted the socket connector, can stretch by the bend 353 of optical fiber 35 and eliminate or reduce the pulling force that therefore optical fiber 35 be subjected to, make optical fiber 35 be difficult for being stretched and damage.

After pin connector 100 is extracted, pedestal 30 under the acting force of spring 4 to front slide, at this moment, stop block 144 supports in the V-shaped groove 31 of pedestal 30 front ends, on the one hand, this stop block 144 is positioned at fiber device 3 front ends can prevent that fiber device 3 from skidding off accepting groove 141 forward, and on the other hand, thereby this stop block 144 matches with V-shaped groove 31 on the fiber device 3 and can prevent that fiber device 3 is insulating body 1 rocking in a lateral direction.The front end of pedestal 30 below supports on the set projection 75 of upper casing 71 front ends, the front end of pedestal 30 below supports on the set projection 147 of hyoplastron 14 front ends, therefore, the projection 147 that supports on pedestal 30 all can prevent pedestal 30 rocking at above-below direction with projection 75, in sum, stop block 144, thereby projection 147 and projection 75 all can form and support supporting member can prevent that fiber device 3 from rocking on the direction perpendicular to fore-and-aft direction at fiber device 3, fiber device 3 is returned to virgin state better, thereby the convenient plug connector inserts socket connector once more.

The utility model pin connector 100 is not when pegging graft, when fiber device 3 is subjected to unexpected vibrations or stretching, also can be positioned the pedestal 30 that creates a diversion in first groove 1431, prevent excessively swing and influence is docked with the reliable of fiber device of butt connector of fiber device 3 by optical fiber 35 rear sides.Also can stretch and eliminate or reduce the pulling force that therefore optical fiber 35 be subjected to, make optical fiber 35 be difficult for being stretched and damage by the bend 353 of optical fiber 35.

The connector 100 that above accompanying drawing disclosed is pin connector, and in other embodiments of the present utility model, this connector 100 also can be socket connector.

In sum, it below only is preferred embodiment of the present utility model, should not limit scope of the present utility model with this, promptly every simple equivalent of doing according to the utility model claims and description changes and modifies, and all should still belong in the scope that the utility model patent contains.

Claims (10)

1. connector, it comprises insulating body, be retained on the insulating body conducting terminal and in order to carry out the fiber device of optical signal transmission, described insulating body is provided with upper surface and lower surface, it is characterized in that: described insulating body is provided with from the accepting groove of lower surface front side depression and slender type first groove that is positioned at the accepting groove rear side and extends along fore-and-aft direction, the optical fiber that described fiber device is included in the accepting groove pedestal that slides along fore-and-aft direction and is located on the pedestal and extends back along fore-and-aft direction, described optical fiber is provided with the coupling part that is fixed in the pedestal, extend back and be positioned location division in first groove from coupling part.

2. connector as claimed in claim 1 is characterized in that: described first groove connects along insulating body fore-and-aft direction and accepting groove, and the location division of described optical fiber is contained in first groove and can moves along fore-and-aft direction in first groove.

3. connector as claimed in claim 2, it is characterized in that: described insulating body also is provided with from lower surface depression and is positioned at second groove of the first groove rear side, described second groove along the insulating body fore-and-aft direction and first groove connects and the width that extends along the insulating body horizontal direction greater than the width of first groove, described location division can move in second groove along fore-and-aft direction.

4. connector as claimed in claim 3 is characterized in that: described optical fiber also is provided with the bend that is connected in the location division rear side, and described bend is contained in second groove.

5. connector as claimed in claim 1, it is characterized in that: described insulating body also is provided with unsteady groove between first groove and accepting groove, described optical fiber is provided with the float portion between coupling part and location division, and described float portion is contained in the groove that floats and can moves along the insulating body horizontal direction.

6. connector as claimed in claim 1 is characterized in that: described pedestal is provided with the lens of optical fiber optically-coupled and is positioned at the accepting hole of lens rear with the coupling part of fixing each optical fiber, and described first groove is corresponding one by one along fore-and-aft direction with accepting hole.

7. connector as claimed in claim 1, it is characterized in that: described insulating body also is provided with a depressed part that is positioned at the accepting groove rear and caves in from lower surface, described depressed part is connected along the vertical direction with first groove, described connector also includes a cover plate, described cover plate be contained in the depressed part and the below that presses on the location division to prevent the downward perk of optical fiber.

8. connector as claimed in claim 1, it is characterized in that: described insulating body is provided with a reference column that is positioned at the accepting groove rear and extends to the accepting groove direction, described pedestal is provided with a projection that extends in opposite directions with reference column, described connector comprises that also one is clamped in the spring between pedestal and the insulating body, described spring one end is fixed on the reference column, and the other end is enclosed within on the projection and is held in the rear end of pedestal.

9. connector as claimed in claim 1 is characterized in that: described insulating body comprises the hyoplastron that main part and autonomous body extend forward, and described accepting groove is recessed to form from the below of hyoplastron.

10. connector as claimed in claim 1, it is characterized in that: arranging of described conducting terminal meets the USB3.0 transmission standard, it comprises the first terminal and second terminal, described the first terminal comprises tabular first contact site that is positioned at the hyoplastron top, and described second terminal comprises elasticity second contact site that is positioned at the hyoplastron top and is positioned at the first contact site rear.

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