CN201497817U - Connector - Google Patents

Abstract

The utility model discloses a connector which comprises an insulated main body, a conducting terminal fixedly arranged on the insulated main body, an optical fiber device used for transmitting optical signals and a shell covering the insulated main body. The insulated main body comprises a main body part and a tongue plate; an accommodation groove is arranged on the insulated main body; and the optical fiber device can slide forward and backward in the accommodation groove. The connector further comprises a retainer member which protrudes and extends into the accommodation groove and props against the optical fiber device to prevent the optical fiber device from shaking along the direction vertical to the forward-backward direction.

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 at present had the USB connector of a kind of transmission optics signal with further raising transfer rate, this connector to generally include to comprise 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 in accepting groove, and meeting generation on above-below direction or fore-and-aft direction is crooked unavoidably in the back, thereby is unfavorable for that the fiber device on this fiber device and the butt connector connects.

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 connector that prevents that fiber device from rocking.

For reaching above-mentioned purpose, the utility model adopts following technical scheme: a kind of connector, it comprises insulating body, be retained on the conducting terminal on the insulating body, in order to the fiber device that carries out optical signal transmission and the shell of coated insulation body, described insulating body comprises the hyoplastron of main part and autonomous body projection, wherein, described insulating body is provided with accepting groove, described fiber device can be in accepting groove slides along fore-and-aft direction, and described connector also comprises and protrudes in the accepting groove and support fiber device to prevent that fiber device is along the member that supports that rocks perpendicular to fore-and-aft direction.

Described accepting groove is located at the top of hyoplastron, and the described member that supports comprises from the hyoplastron front end and upwards protrude into projection in the accepting groove, and the below of described fiber device supports on projection, and the top of described fiber device supports on shell.

Described shell comprises the roof that is positioned at the hyoplastron top, sidewall and the diapire relative with roof that extends from the roof both sides downwards, the described member that supports comprises from the downward integrated punching of roof and forms and protrude into projection in the accepting groove, the top of described fiber device supports on projection, the below of fiber device supports on insulating body, to prevent fiber device rocking at above-below direction.

The front end of described fiber device is provided with front wide and rear narrow V-shaped groove, and the described member that supports comprises that the front end from hyoplastron extends upward and front wide and rear narrow V-arrangement stop block, and described stop block supports in V-shaped groove backward and along left and right directions.

The described member that supports also comprises from the stop block top fixture block of projection backward, and the top of described fiber device supports on fixture block, and the below of fiber device supports on insulating body, to prevent fiber device rocking at above-below direction.

Described insulating body is provided with the slide block that extends along fore-and-aft direction in accepting groove, described fiber device is provided with the chute that can slide on slide block.

Described insulating body also is provided with the fluting that connects with accepting groove at the rear of accepting groove, connector also comprise be housed in the fluting in and be clamped between fiber device and the insulating body to support the spring of fiber device forward.

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 below, and described second terminal comprises elasticity second contact site that is positioned at the hyoplastron below and is positioned at the first contact site rear.

Described fiber device comprises pedestal and is installed in optical fiber on the pedestal, and described pedestal is provided with and the lens of optical fiber optically-coupled and the pilot hole that is positioned at the lens both sides, and the described member that supports supports on pedestal.

The described member that supports comprises that projection is in order to support the press block above fiber device in direction accepting groove on the left and right sides of the body accepting groove that insulate, and described fiber device is clamped between press block and the insulating body to prevent fiber device rocking at above-below direction.

Compared with prior art, the utlity model has following beneficial effect: support member and support on fiber device, can prevent that fiber device from rocking on the direction perpendicular to fore-and-aft direction, thereby fiber device can be remained on virgin state better, make things convenient for fiber device butt joint corresponding on this fiber device and the butt connector.

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 connector.

Fig. 2 is the part three-dimensional exploded view of the utility model connector.

Fig. 3 is the three-dimensional exploded view of another angle of Fig. 2.

Fig. 4 is the part three-dimensional combination figure of the utility model connector.

Fig. 5 is the cut-open view along A-A line among Fig. 1.

Fig. 6 is the cut-open view along B-B line among Fig. 1.

Fig. 7 is the three-dimensional combination figure of another embodiment of the utility model connector.

Fig. 8 is the part three-dimensional combination figure among Fig. 7.

Fig. 9 is the cut-open view along C-C line among Fig. 7.

Figure 10 is the cut-open view along D-D line among Fig. 7.

[embodiment]

Please refer to Fig. 1 to shown in Figure 3, the preferred forms of the utility model connector 100 is a pin connector, 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 the pedestal 5 on the insulating body 1, the locating piece 6 that matches with pedestal 5, coated insulation body 1 shell 7 and upper casing 8, be centered around the external insulation layer 9 of shell 7 and upper casing 8 peripheries and the cable 10 that electrically connects with conducting terminal 2.

Please refer to Fig. 1 to shown in Figure 6, insulating body 1 comprises the hyoplastron 12 that the front end of main part 11 and autonomous body 11 extends forward.The top of insulating body 1 is provided with a pair of locating slot 111 that extends through main part 11 and hyoplastron 12, and the rear end, top of main part 11 is provided with some first holding slots 112, and the below of main part 11 is provided with groove 113, and pedestal 5 is fixed in the groove 113.The top of hyoplastron 12 is provided with the fluting 122 that an accepting groove 121 and is positioned at accepting groove 121 rears and connects with accepting groove 121, insulating body 1 is provided with the reference column 1221 that protrudes out forward in fluting 122, spring 4 is housed in the fluting 122, reference column 1221 is housed in the spring 4, hyoplastron 12 is provided with a pair of slide block 123 that extends along fore-and-aft direction in accepting groove 121, the front end centre position of hyoplastron 12 extends upward and forms a front wide and rear narrow roughly V-shaped stop block 124, hyoplastron 12 each side forms a projection that upwards protrudes out 126 stop block 124, the top of projection 126 is provided with a upper surface 1261 and extends back and inclined downward 1262 from the rear end of upper surface 1261, this inclined-plane 1262 can be guided pedestal 30 and be slided forward, in the present embodiment, this pedestal 30 supports on the inclined-plane 1262 of projection 126, in other embodiments of the present utility model, after also can sliding along inclined-plane 1262, this pedestal 30 supports upper surface 1261 at projection 126.The below of hyoplastron 12 is provided with one and ranked first terminal groove 127 and a ranking in second terminal groove 128 of the first terminal groove 127 rear ends.

Arranging of conducting terminal 2 meets the USB3.0 transmission standard, it comprises the first terminal 21 and second terminal 22, first afterbody 213 that the first terminal 21 comprises flat first contact site 211, electrically connect with cable 10 and be connected first contact site 211 and first holding parts 212 of first afterbody 213.Second afterbody 223 that second terminal 22 comprises elasticity second contact site 221, electrically connect with cable 10 and be connected second contact site 221 and second holding parts 222 of second afterbody 223.This first contact site 211 is housed in the first terminal groove 127, second contact site 221 is housed in second terminal groove 128, thereby make win contact site 211 and second contact site 221 be positioned at the below of hyoplastron 12 jointly and form before and after two rows that arrange, this first holding parts 212 is retained in the main part 11 of insulating body 1, second holding parts 222 is retained in the pedestal 5, thereby locating piece 6 matches with pedestal 5 and second terminal 22 can be fixed in the insulating body 1 better.In other embodiments, this first terminal 21 can be inlayed to bury and be molded in the insulating body 1, and this second terminal 22 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. 1 to shown in Figure 6, fiber device 3 slidably is housed in to property in the accepting groove 121 of insulating body 1, it comprises pedestal 30 and is installed in optical fiber 35 on the pedestal 30, the below of pedestal 30 is provided with the chute 31 that matches with slide block 123, thereby pedestal 30 is slided in accepting groove 121 better, and the front end centre position of pedestal 30 is provided with shelves stops 124 and matches and front wide and rear narrow V-shaped groove 32.Pedestal 30 be respectively equipped with lens 33 in the left and right sides of V-shaped groove 32 and be installed in lens 33 rear ends and with the optical fiber 35 of lens 33 optically-coupled, so that the transmission of high speed optical signal to be provided.Though only demonstrated two lens 33 in the drawings, in other embodiments, pedestal 30 also can be provided with a pair of lens 33 or more lens 33 in the left and right sides of V-shaped groove 32 respectively.Pedestal 30 the both sides of two lens 33 be provided with pilot hole 34 with butt connector 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 this projection 36 is housed in the spring 4, and therefore, this spring 4 is clamped between insulating body 1 and the pedestal 30 to promote fiber device 3 to front slide.

Shell 7 and upper casing 8 common coated insulation bodies 1 are to play shield effectiveness well.Shell 7 comprises the roof 71 that coats hyoplastron 12 tops, the diapire 73 relative with roof 71 and the two side 72 that connects roof 71 and diapire 73.The downward integrated punching of the front end of roof 71 forms a projection 75 that supports above fiber device 3, the below of projection 75 is provided with a lower surface 751 and extends back and acclivitous inclined-plane 752 from the rear end of lower surface 751, this inclined-plane 752 can be guided pedestal 30 and be slided forward, in the present embodiment, this pedestal 30 supports on the inclined-plane 752 of projection 75, in other embodiments of the present utility model, after also can sliding along inclined-plane 752, this pedestal 30 supports upper surface 751 in projection 75.

When pin connector inserts the butt joint socket connector that has corresponding fiber device (not shown), this fiber device 3 can slide in accepting groove 121 backward.After pin connector is extracted, pedestal 30 under the acting force of spring 4 to front slide, at this moment, shelves stops 124 supports in the V-shaped groove 32 of pedestal 30 front ends, this stop block 124 of one side is positioned at fiber device 3 front ends and can prevents that fiber device 3 from skidding off accepting groove 121 forward, on the other hand, thus this stop block 124 matches with V-shaped groove 32 on the fiber device 3 and can prevent fiber device 3 rocking on left and right directions.The front end top of pedestal 30 supports on set protruding 75 the inclined-plane 752 of shell 7 front ends, the front end below of pedestal 30 supports on the inclined-plane 1262 of the set projection 126 of hyoplastron 12 front ends, therefore, the projection 126 that supports on pedestal 30 all can prevent pedestal 30 rocking at above-below direction with projection 75.In sum, thereby stop block 124, projection 126 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, and can in docking operation, not be offset, when thereby the convenient plug connector inserted socket connector once more, fiber device corresponding on the fiber device 3 on the pin connector and the socket connector accurately docked.

Fig. 7 to Figure 10 has disclosed second embodiment of the present utility model, the key distinction at the pin connector of the pin connector of this second embodiment and first embodiment is, projection 75 is not set on the shell 7 ' of second embodiment, and in the top of stop block 124 ' backward projection the fixture block 129 ' that supports in pedestal 30 ' top is arranged, the below of this fixture block 129 ' is provided with one and extends back and acclivitous inclined-plane 1292 ', this inclined-plane 1292 ' can be guided pedestal 30 ' and be slided forward, in the present embodiment, this pedestal 30 ' supports on the inclined-plane 1292 ' of fixture block 129 ', in other embodiments of the present utility model, after also can sliding along inclined-plane 1292 ', this pedestal 30 ' supports upper surface at fixture block 129 '.The front end top of this pedestal 30 ' supports on this fixture block 129 ', and the below supports on the projection 126 ' of hyoplastron 12 '.Therefore, the projection 126 ' on fixture block 129 ' and the hyoplastron 12 ' can prevent fiber device 3 ' rocking at above-below direction.

In addition, in other embodiments, the hyoplastron 12 of insulating body 1 also can form in accepting groove 121 projection and support press block above pedestal 30 above the left and right sides of accepting groove 121, the below of press block is provided with the inclined-plane that extends back and be inclined upwardly and slide forward with guiding pedestal 30, pedestal 30 can support on the upper surface or this inclined-plane of this press block, thereby prevents fiber device 3 rocking at above-below direction.

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.

Claims (10)

1. connector, it comprises insulating body, be retained on conducting terminal on the insulating body, in order to the fiber device that carries out optical signal transmission and the shell of coated insulation body, described insulating body comprises the hyoplastron of main part and autonomous body projection, it is characterized in that: described insulating body is provided with accepting groove, described fiber device can be in accepting groove slides along fore-and-aft direction, and described connector also comprises and protrudes in the accepting groove and support fiber device to prevent that fiber device is along the member that supports that rocks perpendicular to fore-and-aft direction.

2. connector as claimed in claim 1, it is characterized in that: described accepting groove is located at the top of hyoplastron, the described member that supports comprises from the hyoplastron front end and upwards protrudes into projection in the accepting groove, and the below of described fiber device supports on projection, and the top of described fiber device supports on shell.

3. connector as claimed in claim 1, it is characterized in that: described shell comprises the roof that is positioned at the hyoplastron top, sidewall and the diapire relative with roof that extends from the roof both sides downwards, the described member that supports comprises from the downward integrated punching of roof and forms and protrude into projection in the accepting groove, the top of described fiber device supports on projection, the below of fiber device supports on insulating body, to prevent fiber device rocking at above-below direction.

4. connector as claimed in claim 1, it is characterized in that: the front end of described fiber device is provided with front wide and rear narrow V-shaped groove, the described member that supports comprises that the front end from hyoplastron extends upward and front wide and rear narrow V-arrangement stop block, and described stop block supports in V-shaped groove backward and along left and right directions.

5. connector as claimed in claim 4, it is characterized in that: the described member that supports also comprises from the stop block top fixture block of projection backward, the top of described fiber device supports on fixture block, and the below of fiber device supports on insulating body, to prevent fiber device rocking at above-below direction.

6. connector as claimed in claim 1 is characterized in that: described insulating body is provided with the slide block that extends along fore-and-aft direction in accepting groove, described fiber device is provided with the chute that can slide on slide block.

7. connector as claimed in claim 1, it is characterized in that: described insulating body also is provided with the fluting that connects with accepting groove at the rear of accepting groove, connector also comprise be housed in the fluting in and be clamped between fiber device and the insulating body to support the spring of fiber device forward.

8. 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 below, and described second terminal comprises elasticity second contact site that is positioned at the hyoplastron below and is positioned at the first contact site rear.

9. connector as claimed in claim 1, it is characterized in that: described fiber device comprises pedestal and is installed in optical fiber on the pedestal, described pedestal is provided with and the lens of optical fiber optically-coupled and the pilot hole that is positioned at the lens both sides, and the described member that supports supports on pedestal.

10. connector as claimed in claim 1, it is characterized in that: the described member that supports comprises that projection is in order to support the press block above fiber device in direction accepting groove on the left and right sides of the body accepting groove that insulate, and described fiber device is clamped between press block and the insulating body to prevent fiber device rocking at above-below direction.

Images