CN202995093U - Fixing device and connector assembly thereof - Google Patents

Abstract

The utility model discloses a fixing device and a connector assembly thereof, used to be welded on a circuit board. The connector assembly comprises a photovoltaic connector. The photovoltaic connector is provided with a butt joint portion which is used for butt joint of a plug with an optical fiber cable. The fixing device is disposed in front of the butt joint portion. The fixing device is used to fix the optical fiber cable and can be fixed on the circuit board. Under pull and collision of external forces, since the fixing device can fix the optical fiber cable on a side of the plug, the optical fiber cable on a rear end of the side would not drive the optical plug when shaking, thereby ensuring accurate and stable abut joint of the optical plug and the photovoltaic connector, and ensuring good signal transmission.

Description

Stationary installation and connector assembly thereof

Technical field

The utility model relates to stationary installation and connector assembly thereof, but espespecially a kind of stationary installation of fixed fiber cable and connector assembly thereof.

Background technology

Existing electric connector can provide signal transduction pathway for display and video, and so, under the development trend of high speed day by day, the transfer rate of general electric connector has been not enough to satisfy user's demand, and the connector of high-speed transfer becomes developing direction.

The connector assembly of present a kind of high-speed transfer is to adopt fiber-optic signal to replace simple electric signal transmission, can accelerate transfer rate.This connector assembly has an opto-electric connector, and described opto-electric connector has a docking part, in order to dock with an Optical fiber plug, and can be with optical signal transmission to described opto-electric connector.One side of described Optical fiber plug has a docking port and docks with described docking section, described docking section and docking port are equipped with docking point, described docking point is aligned with each other, make the described opto-electric connector that transfers to that light signal can be precise and stable, the opposite side of described Optical fiber plug is connected with optical fiber cable, and described light signal conducts to described Optical fiber plug by described optical fiber cable.

When colliding under external force or because of carelessness, described optical fiber cable can rock, drive the displacement of described Optical fiber plug, contraposition is inaccurate or dock unstable each other to make described docking point, thereby cause the transmission of described Optical fiber plug and described opto-electric connector signal bad, transfer rate also can be affected, and can't satisfy user's demand.

Therefore, be necessary to design a kind of better connector assembly, to overcome the problems referred to above.

Summary of the invention

For the problem that background technology faces, the purpose of this utility model is to provide a kind of fixed fiber cable to prevent stationary installation and connector assembly thereof that contraposition is inaccurate.

For achieving the above object, the utility model adopts following technological means:

a kind of stationary installation, in order to the fixed fiber cable, comprise a pedestal, described pedestal lateral margin is provided with a fixed part, one cover cap is located on described pedestal, described lid has a base portion and is positioned on described pedestal in order to suppress described optical fiber cable, described base portion extends a flexure strip towards described pedestal lateral margin bending, described flexure strip is provided with a described fixed part of holding part clasp, described flexure strip is provided with an operating portion, described flexure strip has a rotation center between described holding part and described operating portion, when forcing in described operating portion, described flexure strip rotates along described rotation center, drive described holding part releasing to the clasp of described fixed part.

Further, described pedestal has a upper surface, and described base portion is covered on described upper surface, and described operating portion is higher than the described upper surface that closes on described operating portion place, and described holding part is lower than described upper surface.

Further, the top of described pedestal is provided with one and allows bit space, and the described bit space that allows provides space towards described pedestal distortion for described operating portion.

Further, the relatively described holding part of described operating portion is away from described pedestal lateral margin.

Further, at least one elastic arm extends upward from the bottom bending of described flexure strip, and its free end forms described operating portion.

Further, described lid has an articulated section, and described articulated section and described flexure strip are positioned at the relative both sides of described base portion, and described lid can rotate around described articulated section and form buckling state and open mode with described pedestal.

Further, described rotation center is that described flexure strip is from the inflection point of described base portion bending.

A kind of connector assembly, can be welded in a circuit board, comprise an opto-electric connector, having a docking part uses for the plug docking with optical fiber cable, one stationary installation, be positioned at the place ahead of described docking section, described stationary installation is in order to fixing described optical fiber cable, and can be fixed on described circuit board.

Further, described opto-electric connector comprises that an electric connector and joints of optical fibre are connected in described electric connector, described electric connector has an insulating body and a plurality of terminal is located in described insulating body, described terminal soldering is on described circuit board, the described joints of optical fibre have an internal circuit board and a photoelectric conversion module, described internal circuit board one side connects described terminal, and opposite side connects described photoelectric conversion module.

Further, described opto-electric connector is in order to dock with described plug, and described plug one side is connected with described optical fiber cable, and opposite side is provided with a docking port and docks with described docking section, thereby the signal of described optical fiber cable transmission is passed to described opto-electric connector.

Further, described stationary installation has a pedestal and is articulated in a lid on described pedestal, and described lid can be suppressed described optical fiber cable and be positioned on described pedestal.

further, described lid has a base portion and is covered on described pedestal, described base portion extends a flexure strip towards described pedestal lateral margin bending, described flexure strip is provided with a described pedestal of holding part clasp, described flexure strip is provided with an operating portion, the relatively described holding part of described operating portion is away from described pedestal lateral margin, described flexure strip has a rotation center, described rotation center is between described holding part and described operating portion, when pressing described operating portion towards described pedestal lateral margin, described flexure strip rotates along described rotation center, described holding part is away from the described direction of pressing, the clasp of releasing to described pedestal.

Further, described pedestal lateral margin is provided with a fixed part, the described fixed part of described holding part clasp.

Further, described pedestal has a upper surface, and described base portion is covered on described upper surface, and described operating portion is higher than the described upper surface that closes on described operating portion place, and described holding part is lower than described upper surface.

Further, be provided with at least one fixing pin in described stationary installation, described fixing pin can be welded on described circuit board.

Compared with prior art, the utlity model has following beneficial effect:

Described electric coupler component, in order to be welded on circuit board, it comprises an opto-electric connector, described opto-electric connector has a docking part and uses for the plug docking with optical fiber cable, in the place ahead of described docking section, one stationary installation is set, described stationary installation is in order to fixing described optical fiber cable, and can be fixed on described circuit board.Under external force is pullled or is collided, can fix the described optical fiber cable of described plug one side due to described stationary installation, the optical fiber cable of this rear flank end rocks Shi Buhui and drives described Optical fiber plug, can guarantee that described Optical fiber plug is precise and stable with docking of described opto-electric connector, guarantee that the signal transmission is good.

described stationary installation has a pedestal, described pedestal lateral margin is provided with a fixed part, one cover cap is located on described pedestal, described lid has a base portion and is positioned on described pedestal in order to suppress described optical fiber cable, described base portion extends a flexure strip towards described pedestal lateral margin bending, described flexure strip is provided with a described fixed part of holding part clasp, described flexure strip is provided with an operating portion, described flexure strip has a rotation center between described holding part and described operating portion, when forcing in described operating portion, described flexure strip rotates along described rotation center, drive described holding part releasing to the clasp of described fixed part, adopt lever principle can open simply and easily described lid to the clasp of described pedestal, when described optical fiber cable or the damage of described Optical fiber plug, dismounting and change easily.And described operating portion is higher than the upper surface of described pedestal, forming one above described pedestal allows bit space be out of shape towards described pedestal for described operating portion, make described operating portion be positioned at described pedestal top towards the deformation space of described pedestal, the space that takies described pedestal one side is less, saves the space that takies circuit board.

[description of drawings]

Fig. 1 is the three-dimensional exploded view of the utility model stationary installation and connector assembly thereof;

Fig. 2 is the not three-dimensional combination figure during the fixed fiber cable of the utility model stationary installation and connector assembly thereof;

Three-dimensional combination figure when Fig. 3 is the utility model stationary installation and connector assembly fixed fiber cable thereof;

Cut-open view when Fig. 4 is the utility model stationary installation and connector assembly fixed fiber cable thereof;

Cut-open view when Fig. 5 is the utility model stationary installation and connector assembly releasing fixed fiber cable thereof;

Fig. 6 is the cut-open view that the utility model stationary installation and connector assembly thereof are opened lid.

The drawing reference numeral explanation of embodiment:

Opto-electric connector 10	Electric connector 1	Insulating body 11	Terminal 12
				Holding parts 121	Contact site 122	Weld part 123	Housing 13
The joints of optical fibre 2	Internal circuit board 21	First 211	Second portion 212
				Photoelectric conversion module 22	Docking section 221	The first docking point 222	Optical fiber plug 3
Docking port 31	The second docking point 311	Optical fiber cable 32	Fixed cover 33
				Retaining piece 34	Stationary installation 4	Pedestal 41	Upper surface 411
Recess 412	The first lateral margin 413	The second lateral margin 414	Drive-connecting shaft 415
				Fixed part 416	Lid 42	Base portion 421	Articulated section 422
Flexure strip 423	Holding part 424	Elastic arm 425	Operating portion 426
				Allow bit space 427	Rotation center 428	Fixing pin 43	Circuit board 5

[embodiment]

For ease of better understanding the purpose of this utility model, structure, feature and effect etc., existing the utility model is described in further detail with embodiment by reference to the accompanying drawings.

As Fig. 1, the utility model connector assembly comprises an opto-electric connector 10 and is positioned at a stationary installation 4 of described opto-electric connector 10 front ends.

As Fig. 1, described opto-electric connector 10 comprises an electric connector 1 and joints of optical fibre 2.Described electric connector 1 has an insulating body 11, be provided with a plurality of terminals 12 in described insulating body 11, described terminal 12 is four row's matrixes and arranges, be located at four sidewalls of described insulating body 11, each described terminal 12 has a holding parts 121 and is immobilizated in described insulating body 11, one contact site 122 extends upward from described holding parts 121, and a weld part 123 from described holding parts 121 to downward-extension, be welded on a circuit board 5.One housing 13 is articulated on described insulating body 11, and described housing 13 can be the open and close state with described insulating body 11.

As Fig. 1, the described joints of optical fibre 2 comprise an internal circuit board 21 and a photoelectric conversion module 22, described internal circuit board 21 has a first 211 and is located in described insulating body 11 and a second portion 212 is exposed to described insulating body 11, the described first 211 described terminals 12 of crimping are electrically conducted with described terminal 12, described second portion 212 connects with described photoelectric conversion module 22, and described internal circuit board 21 is integrated with described photoelectric conversion module 22 encapsulated mouldings.Described photoelectric conversion module 22 is provided with a docking part 221, is provided with a plurality of the first docking points 222 in described docking section 221.

as Fig. 1, one Optical fiber plug 3 docks with described opto-electric connector 10, described Optical fiber plug 3 is positioned at the place ahead of the described joints of optical fibre 2, described Optical fiber plug 3 rear ends are provided with a docking port 31, be provided with a plurality of the second docking points 311 in described docking port 31 corresponding one by one with described the first docking point 222, described Optical fiber plug 3 front ends are connected with multifiber cable 32, described optical fiber cable 32 is identical with described docking point number in described docking port 31, in the present embodiment, described optical fiber cable 32 has eight, certainly described optical fiber cable 32 that can be different according to different demand magnitude settings.Described optical fiber cable 32 outsides coat a fixed cover 33, guarantee that many described optical fiber cables 32 are arranged in a row, and are corresponding with described the second docking point 311, with the Transmission Fibers signal.The sheathed retaining piece 34 in described Optical fiber plug 3 outsides, described retaining piece 34 can be immobilizated in described photoelectric conversion module 22, when making described Optical fiber plug 3 dock with the described joints of optical fibre 2, described Optical fiber plug 3 is fixed with the relative position of described photoelectric conversion module 22, guarantees the good transmission of signal.When described Optical fiber plug 3 docks with described opto-electric connector 10, the light signal of described optical fiber cable 32 transmission can conduct in described photoelectric conversion module 22 by described Optical fiber plug 3, described photoelectric conversion module 22 is converted to electric signal with described light signal, be passed to described terminal 12 by described internal circuit board 21 again, otherwise, also can the electric signal that described terminal 12 transmits be converted to light signal transduction to described Optical fiber plug 3 by described photoelectric conversion module 22, by the conversion of described photosignal, make the transfer rate of described connector assembly faster.

As Fig. 1 and Fig. 3, described stationary installation 4 is positioned at the place ahead of described Optical fiber plug 3, and close on described Optical fiber plug 3, be used for fixing described optical fiber cable 32, described stationary installation 4 is welded on described circuit board 5 jointly with described electric connector 1, described optical fiber cable 32 can be fixed in described stationary installation 4, under external force is pullled or is collided, the described optical fiber cable 32 of front end rocks Shi Buhui and drives described Optical fiber plug 3, described Optical fiber plug 3 is precise and stable with docking of described opto-electric connector 10, and the signal transmission is good.

As Fig. 1, described stationary installation 4 comprises a pedestal 41 and is articulated in a lid 42 on described pedestal 41.Described pedestal 41 has a upper surface 411, be arranged with a recess 412 downwards from described upper surface 411, the female section 412 is used for holding described optical fiber cable 32, described pedestal 41 has one first lateral margin 413 and one second lateral margin 414 is oppositely arranged with described the first lateral margin 413, described the first lateral margin 413 is provided with two drive-connecting shafts 415, described the second lateral margin 414 is provided with a fixed part 416, described fixed part 416 is grooves, in other embodiments, described fixed part 416 can be a projection or other form, can get final product for clasp.The bottom of described pedestal 41 is provided with two fixing pin 43, and described fixing pin 43 can be welded on described circuit board 5.

As Fig. 1 and Fig. 4, described lid 42 is to make by a sheet metal is one-body molded, having a base portion 421 is covered on described pedestal 41, described base portion 421 centre corresponding the female sections 412 are recessed downwards, described optical fiber cable 32 is suppressed in the female section 412, guarantee that described optical fiber cable 32 is fixed between described base portion 421 and described pedestal 41, certain described base portion 421 also can be set to tabular or convex.It is corresponding with described drive-connecting shaft 415 that described base portion 421 1 sides are provided with two articulated sections 422, and described articulated section 422 coordinates with described drive-connecting shaft 415 can rotate around described pedestal 41 described lid 42, realizes described lid 42 and described pedestal 41 open and closes.Described base portion 421 opposite sides bend downwards and extend a flexure strip 423, described flexure strip 423 and described articulated section 422 lay respectively at the relative both sides of described base portion 421, described flexure strip 423 is positioned at described second lateral margin 414 outsides and relative with described the second lateral margin 414, described flexure strip 423 is provided with a holding part 424, described holding part 424 inwardly punctures formation from described flexure strip 423 towards described the second lateral margin 414, described holding part 424 extends to form from described flexure strip 423 bendings in other embodiments, and described holding part 424 is lower than described upper surface 411.described flexure strip 423 bottom bendings extend upward an elastic arm 425, in the present embodiment, described elastic arm 425 extends upward formation from the described flexure strip 423 roundabout bendings of two bottom sides side direction, described elastic arm 425 ends form an operating portion 426, the relatively described holding part 424 of described operating portion 426 is away from described the second lateral margin 414, it is the outside that described operating portion 426 is positioned at described holding part 424, described operating portion 426 extends to described pedestal 41 tops, described upper surface 411 higher than the described pedestal 41 that closes on described operating portion 426 places, thereby form one with described operating portion 426 towards a side of described pedestal 41 and allow bit space 427 above described upper surface 411, the described bit space 427 that allows can provide described operating portion 426 to enterolithic space, in other embodiments, described operating portion 426 can allow the interior extension of bit space 427 to described from described elastic arm 425, be positioned at the described bit space 427 that allows.

As Fig. 1 and Fig. 4, described flexure strip 423 has a rotation center 428, in the present embodiment, described rotation center 428 is that described flexure strip 423 is from the inflection point of described base portion 421 bendings, in other embodiments, can be also that described flexure strip 423 is held in the described pedestal 41 described rotation centers 428 of formation.described rotation center 428 is between described holding part 424 and described operating portion 426, make described operating portion 426 and the described holding part 424 can be around described rotation center 428 towards different direction displacements, when towards the described pedestal 41 described operating portion 426 of lateral press, described flexure strip 423 rotates along described rotation center 428, described operating portion 426 allows the interior motion of bit space 427 towards described, 424 of described holding parts move to the direction away from described pedestal 41 around described rotation center 428, thereby remove the clasp to described pedestal 41, open the closure state of described lid 42 and described pedestal 41.The aforesaid operations mode is only utilized described stationary installation 4 tops the described bit space 427 that allows can save as the deformation space of described operating portion 426 space that described stationary installation 4 takies described circuit board 5.When a plurality of described connector assembly rows were located on described circuit board 5, the distance between adjacent described connector assembly can be less, and the space for user's operation needn't be set.

As Fig. 2 to Fig. 4, during use, open described housing 13, described internal circuit board 21 is positioned in described electric connector 1, make described first 211 be crimped on described terminal 12, close and lock described housing 13, described housing 13 is suppressed in described internal circuit board 21 tight with described terminal 12 Contacts to guarantee described internal circuit board 21.then described Optical fiber plug 3 is docked with described photoelectric conversion module 22, the outside of the described retaining piece 34 described photoelectric conversion modules 22 of clamping, described the first docking point 222 and described the second docking point 311 are aimed at, simultaneously, the described lid 42 of described stationary installation 4 rotates to open mode, for the described optical fiber cable 32 the female section 412 of packing into, in the present embodiment, the described fixed cover 33 that coats described optical fiber cable 32 is positioned in the female section 412, in other embodiments, described optical fiber cable 32 can directly be put into the female section 412, clockwise rotate described lid 42, make described base portion 421 be covered on described upper surface 411, press described operating portion 426 downwards, the described holding part 424 described fixed parts 416 of clasp, this moment, the described base portion 421 described optical fiber cables 32 of compacting were to the female section 412, described optical fiber cable 32 is completely fixed, when the described optical fiber cable 32 of front end is rocked, the described optical fiber cable 32 that is fixed in described stationary installation 4 keeps motionless, thereby can not affect the position of described Optical fiber plug 3, can guarantee that described Optical fiber plug 3 is precise and stable with docking of the described joints of optical fibre 2.

as Fig. 5 and Fig. 6, when needs take off described Optical fiber plug 3, towards the described pedestal 41 described operating portions 426 of lateral press, described flexure strip 423 rotates along described rotation center 428, described operating portion 426 rotates around described rotation center 428 in the opposite direction with described holding part 424, described operating portion 426 is towards described bit space 427 intrinsic displacements that allow of described pedestal 41 tops, described holding part 424 away from described the second lateral margin 414 to outer displacement, thereby remove clasp with described pedestal 41, start counterclockwise more described lid 42 this moment, can be with described optical fiber cable 32 from the 412 interior taking-ups of the female section.But described stationary installation 4 is set to open and close, when described optical fiber cable 32 or 3 damage of described Optical fiber plug, is convenient to change described Optical fiber plug 3, also can easily described Optical fiber plug 3 be taken off during use.

In sum, the utility model stationary installation and connector assembly thereof have following beneficial effect:

(1) described stationary installation 4 is welded on described circuit board 5 jointly with described electric connector 1, described optical fiber cable 32 can be fixed in described stationary installation 4, under external force is pullled or is collided, described optical fiber cable 32 rocks Shi Buhui and drives described Optical fiber plug 3, can guarantee that described Optical fiber plug 3 is precise and stable with docking of described opto-electric connector 10, guarantee that the signal transmission is good.

(2) the described bit space 427 that allows that utilizes described stationary installation 4 tops can save as the deformation space of described operating portion 426 space that described stationary installation 4 takies described circuit board 5.When a plurality of described connector assembly rows were located on described circuit board 5, the distance between adjacent described connector assembly can be less, and the space for user's operation needn't be set.

(3) but described stationary installation 4 is set to open and close, when described optical fiber cable 32 or described Optical fiber plug 3 damages, be convenient to change described Optical fiber plug 3, also can easily described Optical fiber plug 3 be taken off during use.

Upper detailed description is only the explanation of the preferred embodiment of the utility model, and is non-so limit to the scope of the claims of the present utility model, so the equivalence techniques that all this creation of utilization instructionss and diagramatic content are done changes, and all is contained in the scope of the claims of the present utility model.

Claims (15)

1. a stationary installation, in order to the fixed fiber cable, is characterized in that, described stationary installation can be fixed in a circuit board, and described stationary installation comprises:

One pedestal, described pedestal lateral margin is provided with a fixed part;

One cover cap is located on described pedestal, described lid has a base portion and is positioned on described pedestal in order to suppress described optical fiber cable, described base portion extends a flexure strip towards described pedestal lateral margin bending, described flexure strip is provided with a described fixed part of holding part clasp, described flexure strip is provided with an operating portion, and described flexure strip has a rotation center between described holding part and described operating portion;

When forcing in described operating portion, described flexure strip rotates along described rotation center, drives described holding part releasing to the clasp of described fixed part.

2. stationary installation as claimed in claim 1, it is characterized in that: described pedestal has a upper surface, and described base portion is covered on described upper surface, and described operating portion is higher than the described upper surface that closes on described operating portion place, and described holding part is lower than described upper surface.

3. stationary installation as claimed in claim 2 is characterized in that: the top of described pedestal is provided with one and allows bit space, and the described bit space that allows provides space towards described pedestal distortion for described operating portion.

4. stationary installation as claimed in claim 1, it is characterized in that: the relatively described holding part of described operating portion is away from described pedestal lateral margin.

5. stationary installation as claimed in claim 1 is characterized in that: at least one elastic arm extends upward from the bottom bending of described flexure strip, and its free end forms described operating portion.

6. stationary installation as claimed in claim 1, it is characterized in that: described lid has an articulated section, described articulated section and described flexure strip are positioned at the relative both sides of described base portion, and described lid can rotate around described articulated section and form buckling state and open mode with described pedestal.

7. stationary installation as claimed in claim 1 is characterized in that: described rotation center is that described flexure strip is from the inflection point of described base portion bending.

8. a connector assembly, can be welded in a circuit board, it is characterized in that, comprising:

One opto-electric connector has a docking part and uses for the plug docking with optical fiber cable;

One stationary installation is positioned at the place ahead of described docking section, and described stationary installation is in order to fixing described optical fiber cable, and can be fixed on described circuit board.

9. connector assembly as claimed in claim 8, it is characterized in that: described opto-electric connector comprises that an electric connector and joints of optical fibre are connected in described electric connector, described electric connector has an insulating body and a plurality of terminal is located in described insulating body, described terminal soldering is on described circuit board, the described joints of optical fibre have an internal circuit board and a photoelectric conversion module, described internal circuit board one side connects described terminal, and opposite side connects described photoelectric conversion module.

10. connector assembly as claimed in claim 8, it is characterized in that: described opto-electric connector is in order to dock with described plug, described plug one side is connected with described optical fiber cable, opposite side is provided with a docking port and docks with described docking section, thereby the signal of described optical fiber cable transmission is passed to described opto-electric connector.

11. connector assembly as claimed in claim 8 is characterized in that: described stationary installation has a pedestal and is articulated in a lid on described pedestal, and described lid can be suppressed described optical fiber cable and be positioned on described pedestal.

12. connector assembly as claimed in claim 11, it is characterized in that: described lid has a base portion and is covered on described pedestal, described base portion extends a flexure strip towards described pedestal lateral margin bending, described flexure strip is provided with a described pedestal of holding part clasp, described flexure strip is provided with an operating portion, the relatively described holding part of described operating portion is away from described pedestal lateral margin, described flexure strip has a rotation center, described rotation center is between described holding part and described operating portion, when pressing described operating portion towards described pedestal lateral margin, described flexure strip rotates along described rotation center, described holding part is away from the described direction of pressing, the clasp of releasing to described pedestal.

13. connector assembly as claimed in claim 12 is characterized in that: described pedestal lateral margin is provided with a fixed part, the described fixed part of described holding part clasp.

14. connector assembly as claimed in claim 12 is characterized in that: described pedestal has a upper surface, and described base portion is covered on described upper surface, and described operating portion is higher than the described upper surface that closes on described operating portion place, and described holding part is lower than described upper surface.

15. connector assembly as claimed in claim 8 is characterized in that: be provided with at least one fixing pin in described stationary installation, described fixing pin can be welded on described circuit board.

Images