CN202305893U - Optical fiber connector plug - Google Patents

Abstract

The utility model discloses an optical fiber connector plug. The optical fiber connector plug comprises a shell, an optical fiber aligning device, a sliding mechanism, a shading plate and an elastic mechanism, wherein optical fibers are positioned in an optical fiber through hole of the optical fiber aligning device; the sliding mechanism can be glidingly arranged on the shell along the front and back direction; the shading plate is rotationally connected with a sliding plate and is used for shading an optical path of the optical fibers in the optical fiber through hole; and one end of the elastic mechanism pushes and presses against the shell and the other end of the elastic mechanism pushes and presses against the shading plate. When the optical fiber connector plug is not inserted into a paired adaptor, the elastic mechanism pushes and presses against the shading plate to close the optical path of the optical fibers in the optical fiber through hole, and when the optical fiber connector plug is inserted into the paired adaptor, the adaptor pushes and presses against the shading plate to overcome the elastic force of the elastic mechanism to turn over the shading plate, so that the optical path of the optical fibers in the optical fiber through hole is opened. Therefore, when the optical fiber connector plug is inserted into the adaptor, the shading plate can be automatically opened, when the optical fiber connector plug is separated from the adaptor, the shading plate can be automatically closed, manual operation is not required in the whole process, and the optical fiber connector plug is very convenient to operate.

Description

Optical fiber connector plug

Technical field

The utility model relates to a kind of optical connector plug, relates in particular to a kind of optical fiber connector plug that has shadow shield, and it can open and close in use automatically.

Background technology

Along with popularizing of FTTH (optical fiber is registered one's residence), in fiber optic network, increasing need optical fiber being linked together.A kind of optical fiber connected mode is that the optical connector plug with the front end that is installed in optical fiber directly inserts adapter and realizes.This connected mode can be dismantled very easily, compared with connected modes such as welding in the past better dirigibility is arranged.

Yet in the process of pegging graft, needing protection is positioned at the optical connector plug front portion, and exposed optical fiber front end face does not receive the influence of dust and water, and the touching of hand, thereby effectively guarantees the performance of optical fiber connection.The more important thing is, in the process of Optical Fiber Transmission,, will cause adverse effect staff's health if human eye is exposed in the middle of the light of the exposed optical fiber front end face emission of optical connector plug for a long time.Especially FTTH extensively gets into family, and for the optical connector plug that uses in resident family, the security performance that need more increase guarantees.

In the prior art, install a lid additional in the front of the optical fiber front end face of optical fiber connector plug, uncap when needs will be pegged graft, like Chinese patent, publication number CN1315007A, the joints of optical fibre of exposure and adapter assembly.Connector has a lid that is positioned on the said connector cover.Cover between open position and off-position and to pivot to expose respectively or to cover the optical fiber in the connector.The longitudinal guide spare of connector is arranged to match with the longitudinal guide spare of adapter and connector is inducted into adapter with the requirement of aliging of stipulating.One cam pin is housed on the adapter and matches, when connector inserts adapter, to shift lid onto open position with a cam pin holding tank that covers.One spring device will cover towards off-position and bias.

Yet this optical fiber connector plug need be the adapter of its special customization, and can't be applicable to general standard SC adapter.Bring use inconvenience to the client, and the increase of cost.

Chinese patent is authorized publication number CN100437178C, has disclosed another kind of optical fiber connector plug, and this kind connector has overcome the shortcoming of above-mentioned connector, goes for general standard SC adapter.

This optical fiber connector plug comprises at least one jack frame and clamping component; Clamping component comprises inner core and urceolus, and clamping component has retracted mode and extension state, and the front end inboard at inner core is provided with shutter; Shutter is arranged in the front end of lasso is blocked block the position and be arranged in jack frame and is contained in the unshielding position in the inner core under extension state, and action plate is bearing in the shutter and along shutter, the preceding end in contact shutter of action plate; Bias voltage fulcrum arrangement bias voltage shutter is so that the location shutter; Make to be arranged in and block the position at shutter, through from extended position to the relative motion retracted position inner core and the jack frame, shutter moves to the unshielding position from blocking the position; Clamping component has the shape that engages with the optical connector adapter; And the bonding part with engage snap engagement so that get into the optically-coupled state, be provided with to engage at the urceolus periphery and unclamp part; Pressurization engages buckle, will engage buckle and bonding part and throw off.

Yet this inner/outer tube complex structure causes optical fiber connector plug length to increase significantly, and shutter needs manual releasing, and breaks away from from connector plug easily.

So these problems cause also a kind of optical fiber connector plug that goes for universal standard SC adapter of needs of market, it is simple in structure, and volume is little, and easy to use and reliable.

The utility model content

The purpose of the utility model is intended to solve the problems referred to above of existing in the prior art and at least one aspect of defective.

An aspect according to the utility model provides a kind of optical fiber connector plug, comprising: housing; Be arranged on the optical fiber align device in the housing, fiber orientation is in the optical fiber through hole of optical fiber align device; Slide mechanism is slidably disposed on the housing along fore-and-aft direction; Shadow shield, the light path that is connected and is used for blocking said optical fiber through hole optical fiber with said sliding panel rotationally; And elastic mechanism, the one of which end pushes on the said housing, and its other end presses against on the said shadow shield.When said optical fiber connector plug does not insert the adapter of pairing; Said elastic mechanism pushes the light path that said shadow shield makes it to close optical fiber in the said optical fiber through hole; And when said optical fiber connector plug inserts the adapter of pairing; Said adapter pushes said shadow shield and makes it to overcome the elastic force of elastic mechanism and overturn, thereby opens the light path of optical fiber in the said optical fiber through hole.

An embodiment according to the utility model; Said shadow shield top is formed with a projection; The profile of this projection is configured to be suitable for inserting in the orientation direction groove on the adapter that matches with said optical fiber connector plug; When said adapter is withstood and after overturning, said projection gets in the said orientation direction groove in the top of said shadow shield, thereby guide said optical fiber connector plug to insert in the said adapter.

According to another embodiment of the utility model, said housing comprises shell body and is installed in the inner housing in the shell body.

According to another embodiment of the utility model, said elastic mechanism comprises a straight spring and the spring protecting sleeve that is enclosed within said spring outside; And on said shell body, be formed with abutment sleeve, the rear end of said elastic mechanism is contained in the said abutment sleeve, and front end presses against on the said shadow shield.

According to another embodiment of the utility model, said slide mechanism comprises a sliding panel, and its left and right sides is formed with a flank respectively; And on said inner housing or shell body, be formed with the guide slit corresponding with said flank, a pair of flank of said sliding panel is contained in a pair of guide slit, thereby the guided slidable plate slides before and after guide slit.

According to another embodiment of the utility model, said shadow shield is connected with the front end of said sliding panel through pivot rotationally.

Another embodiment according to the utility model also comprises a cone; The rear portion of said cone is formed with an elastic fastening hook; And on said sliding panel, be formed with the aperture corresponding with elastic fastening hook, the elastic fastening hook of said cone is snapped in the aperture of said sliding panel, thereby realizes the connection between said cone and the said sliding panel.

Another embodiment according to the utility model; The surface tilt of the front opening of said cone is in the optical fiber through hole of said optical fiber align device; Make the surface tilt of when shadow shield is in the closed position shadow shield in the optical fiber through hole of said optical fiber align device, thereby prevent that light from reflecting back into the optical fiber through hole from shadow shield.

According to another embodiment of the utility model, on said sliding panel, be formed with elasticity locking plate protruding upward; When said shadow shield was in the closed position, said elasticity locking plate was held on the inwall of said shell body, thereby prevented that sliding panel from sliding; And when said shadow shield was shown in an open position, said elasticity locking plate was depressed by shadow shield, thereby allowed sliding panel to slide.

According to another embodiment of the utility model, on said shadow shield, be formed with the stiffening plate that thickens, said projection is formed on the said stiffening plate.

According to another embodiment of the utility model, said optical fiber connector plug also comprises stress buffer boots, and said stress buffer boots are connected with an end relative with said shadow shield of said inner housing.

According to another embodiment of the utility model, be bonded with each other through buckle structure between the housing of said optical fiber connector plug and the housing of said adapter.

In each embodiment of the utility model; Shadow shield can automatically be opened when optical fiber connector plug and adapter grafting; And can automatically close at optical fiber connector plug and adapter after separating shadow shield; Whole process need not manual handle, thereby avoids the light of optical fiber connector plug the inside to hurt user's eyes, and can play the effect of dust and moisture.

Description of drawings

Fig. 1 a shows that wherein optical fiber connector plug and adapters are in the state that is separated from each other according to the schematic perspective view of the adapter of the optical fiber connector plug of the embodiment of an exemplary of the utility model and a correspondence;

Fig. 1 b shows the partial shell of the adapter among the exploded chart 1a, demonstrates the partial interior structure of adapter, and wherein optical fiber connector plug and adapters are in the state that is separated from each other;

The optical fiber connector plug among Fig. 1 c displayed map 1a and the cut-open view of adapter, wherein optical fiber connector plug and adapters are in the state that is separated from each other;

Fig. 2 a shows the schematic perspective view according to the adapter of the optical fiber connector plug of the embodiment of an exemplary of the utility model and a correspondence, and wherein optical fiber connector plug and adapters are in the state that just begins to insert;

Fig. 2 b shows the partial shell of the adapter among the exploded chart 2a, demonstrates the partial interior structure of adapter, and wherein optical fiber connector plug and adapters are in the state that just begins to insert;

The optical fiber connector plug among Fig. 2 c displayed map 2a and the cut-open view of adapter, wherein optical fiber connector plug and adapters are in the state that just begins to insert;

Fig. 3 a shows the schematic perspective view according to the adapter of the optical fiber connector plug of the embodiment of an exemplary of the utility model and a correspondence, wherein optical fiber connector plug and the adapters state after inserting fully;

Fig. 3 b shows the partial shell of the adapter among the exploded chart 3a, demonstrates the partial interior structure of adapter, wherein optical fiber connector plug and the adapters state after inserting fully;

The optical fiber connector plug among Fig. 3 c displayed map 3a and the cut-open view of adapter, wherein optical fiber connector plug and the adapters state after inserting fully; With

Fig. 4 shows the decomposing schematic representation according to the optical fiber connector plug of the embodiment of an exemplary of the utility model.

Embodiment

Describe the embodiment of the exemplary of the utility model below in detail, the example of embodiment is shown in the drawings, and wherein same or analogous label is represented same or analogous element.The embodiment that is described with reference to the drawings below is exemplary, is intended to explain the utility model, and can not be interpreted as the restriction to the utility model.

Fig. 1 a shows the schematic perspective view according to the adapter 200 of the optical fiber connector plug 100 of the embodiment of an exemplary of the utility model and a correspondence, and wherein optical fiber connector plug 100 is in the state that is separated from each other with adapter 200.Fig. 1 b shows the partial shell of the adapter 200 among the exploded chart 1a, demonstrates the partial interior structure of adapter 200; The optical fiber connector plug 100 among Fig. 1 c displayed map 1a and the cut-open view of adapter 200.

Shown in Fig. 1 a to Fig. 1 c, optical fiber connector plug 100 mainly comprises housing 101; Be arranged on the optical fiber align device 160 in the housing 101, optical fiber (not shown) is positioned in the optical fiber through hole of optical fiber align device 160 and exposes from the front end of optical fiber through hole; Cover device 110,120,130,150 with the optical fiber through hole that is arranged on optical fiber align device 160 front ends, the optical fiber through hole covers device 110,120,130,150 and can and open between the open position of optical fiber through hole and move in the off-position of closing the optical fiber through hole.The concrete structure that covers device 110,120,130,150 as for the optical fiber through hole below will be explained in further detail.

Fig. 4 shows the decomposing schematic representation according to the optical fiber connector plug of the embodiment of an exemplary of the utility model.

Like Fig. 1 a to Fig. 1 c and shown in Figure 4, the optical fiber through hole covers device and mainly comprises: sliding panel 120 is slidably disposed on the housing 101 along fore-and-aft direction; Cone 130 is connected and covers on the outside of optical fiber align device 160 with sliding panel 120; Shadow shield 110 is connected with sliding panel 120 rotationally; With elastic mechanism 150, be installed on the housing 101 and press against on the shadow shield 110.

Shown in Fig. 1 a to Fig. 1 c; When optical fiber connector plug 100 does not insert the adapter 200 of pairing; Be that optical fiber connector plug 100 is when being in the state that is separated from each other with adapter 200; Elastic mechanism 150 pushing shadow shields 110 make it to close the front opening of cone 130, thereby close the optical fiber through hole.

Please continue referring to Fig. 4, the housing 101 of optical fiber connector plug 100 comprises shell body 102 and is installed in the inner housing 103 in the shell body 102.

Elastic mechanism 150 mainly comprises spring 152 and the spring protecting sleeve 151 that is enclosed within spring 152 outsides.On shell body 102, be formed with abutment sleeve 1021, the rear end of elastic mechanism 150 (spring 152 and spring protecting sleeve 151) is contained in the abutment sleeve 1021, and front end presses against on the shadow shield 110.

In the embodiment shown in fig. 4, the left and right sides of sliding panel 120 is formed with a flank 121 respectively; And on inner housing 103, be formed with the guide slit 1031 corresponding with flank 121, a pair of flank 121 of sliding panel 120 is contained in a pair of guide slit 1031 of inner housing 103, thereby guided slidable plate 120 slides along guide slit 1031 front and back.But the utility model is not limited to illustrated embodiment, and a pair of guide slit 1031 also can be formed on the shell body 102.

As shown in Figure 4; In an embodiment of the utility model; Shadow shield 110 is connected through the front end of pivot 140 with sliding panel 120 rotationally, and shadow shield 110 both can slide with sliding panel 120 front and back like this, can rotate to open position from off-position around pivot 140 again.

As shown in Figure 4, the rear portion of cone 130 is formed with an elastic fastening hook 131; And on sliding panel 120, be formed with the aperture 122 corresponding with elastic fastening hook 131; The elastic fastening hook 131 of cone 130 is snapped in the aperture 122 of sliding panel 120; Thereby realize the connection between cone 130 and the sliding panel 120, cone 130 just can slide with sliding panel 120 front and back like this.But, need to prove that the syndeton between cone 130 and the sliding panel 120 is not limited to illustrated embodiment, for example, cone 130 can adopt other existing connected modes such as threaded connector, latch with sliding panel 120.

Shown in Fig. 1 c; In an embodiment of the utility model; The surface tilt of the front opening of cone 130 is in the optical fiber through hole of optical fiber align device 160; Make the surface tilt of when shadow shield 110 is in the off-position shown in Fig. 1 c shadow shield 110 in the optical fiber through hole of optical fiber align device 160, thereby prevent that light from reflecting back into the optical fiber through hole from shadow shield 110.

As shown in Figure 4, on sliding panel 120, be formed with elasticity locking plate 123 protruding upward.When shadow shield 110 was in the closed position, elasticity locking plate 123 was held on the inwall of shell body 102, thereby prevented that sliding panel 120 from sliding; And when shadow shield 110 was rotated to be opened the position, elasticity locking plate 123 was depressed by shadow shield 110, thereby allowed sliding panel 120 to slide.

Fig. 2 a shows the schematic perspective view according to the adapter 200 of the optical fiber connector plug 100 of the embodiment of an exemplary of the utility model and a correspondence, and wherein optical fiber connector plug 100 and adapter 200 are in and just begin the state that inserts; Fig. 2 b shows the partial shell of the adapter among the exploded chart 2a, demonstrates the partial interior structure of adapter; The optical fiber connector plug among Fig. 2 c displayed map 2a and the cut-open view of adapter.

Shown in Fig. 2 a to Fig. 2 c, on a side surface relative of shadow shield 110, be formed with a projection 111 with cone 130.On the housing 201 of adapter 200, be formed with the orientation direction groove 202 corresponding with projection 111.

Shown in Fig. 2 a to Fig. 2 c; When optical fiber connector plug 100 has just inserted adapter 200; The orientation direction groove 202 both sides end walls of adapter 200 press against on the shadow shield 110; Make shadow shield 110 overcome the elastic force of elastic mechanism 150 and overturn rotatably and open, thereby open the front opening and the optical fiber through hole of cone 130 along the arrow A shown in Fig. 2 c.

After shadow shield 110 upset was opened, the projection 111 of shadow shield 110 was contained in corresponding orientation direction groove 202, thereby utilized cooperating between projection 111 and the orientation direction groove 202, and guiding fiber connector plug 100 correctly is plugged in the adapter 200.If when pegging graft, the position of optical fiber connector plug 100 is not corresponding with adapter 200, then the projection 111 of shadow shield 110 just can not insert in the orientation direction groove 202, thereby stops the insertion of optical fiber connector plug 100.Therefore, utilize this simple error-proof structure, just can effectively prevent the generation of maloperation.

As shown in Figure 4, on shadow shield 110, be formed with the stiffening plate 112 that thickens, projection 111 is formed on the stiffening plate 112, like this, can improve the intensity of shadow shield 110, prevents that shadow shield 110 from being squeezed off by the end wall of adapter 200.

Fig. 3 a shows the schematic perspective view according to the adapter 200 of the optical fiber connector plug 100 of the embodiment of an exemplary of the utility model and a correspondence, and wherein optical fiber connector plug 100 is in the state after inserting fully with adapter 200; Fig. 3 b shows the partial shell of the adapter among the exploded chart 3a, demonstrates the partial interior structure of adapter; The optical fiber connector plug among Fig. 3 c displayed map 3a and the cut-open view of adapter.

Shown in Fig. 3 a to Fig. 3 c; After among optical fiber connector plug 100 inserts adapter 200 fully; The optical fiber align device 160 of optical fiber connector plug 100 is docking together with the optical fiber align device 260 of adapter 200 each other exactly, thereby realizes the accurate butt-joint between the optical fiber.

See also Fig. 1 b and Fig. 4; On the housing 101 (shell body 102) of optical fiber connector plug 100, be formed with a draw-in groove 1032; In the housing 201 of adapter 200, be formed with simultaneously the elastic fastening hook 203 of a correspondence; When optical fiber connector plug 100 inserts in the adapter 200 fully, the draw-in groove 1032 on the housing 101 of optical fiber connector plug 100 is fastened togather with the elastic fastening hook 203 on the adapter 200 each other, thereby realizes engaging between optical fiber connector plug 100 and the adapter 200.

Although not shown, on the housing 201 of adapter 200, also be formed with elastic fastening hook 203 releasing mechanisms, be used to make optical fiber connector plug 100 and adapter 200 to be separated from each other.In the utility model, after optical fiber connector plug 100 was extracted from adapter 200, shadow shield 110 can automatically return to off-position under the pushing of elastic mechanism 150.

Shown in Fig. 1 a, optical fiber connector plug 100 also comprises stress buffer boots 102, and stress buffer boots 102 are connected with shadow shield 110 relative ends with inner housing 103.

Although illustrated and described the embodiment of the utility model, for those of ordinary skill in the art, be appreciated that under the situation of principle that does not break away from the utility model and spirit and can change these embodiment.The scope of application of the utility model is limited accompanying claims and equivalent thereof.

Claims (12)

1. an optical fiber connector plug (100) is characterized in that, said optical fiber connector plug (100) comprising:

Housing (101);

Be arranged on the optical fiber align device (160) in the housing (101), fiber orientation is in the optical fiber through hole of optical fiber align device (160);

Slide mechanism (120) is slidably disposed on the housing (101) along fore-and-aft direction;

Shadow shield (110), the light path that is connected and is used for blocking said optical fiber through hole optical fiber rotationally with said slide mechanism (120); With

Elastic mechanism (150), one of which end press against on the said housing (101), and its other end presses against on the said shadow shield (110),

When said optical fiber connector plug (100) did not insert the adapter (200) of pairing, said elastic mechanism (150) pushed the light path that said shadow shield (110) makes it to close optical fiber in the said optical fiber through hole, and

When said optical fiber connector plug (100) inserted the adapter (200) of pairing, said adapter (200) pushed said shadow shield (110) and makes it to overcome the elastic force of elastic mechanism (150) and overturn, thereby opened the light path of optical fiber in the said optical fiber through hole.

2. optical fiber connector plug according to claim 1 (100) is characterized in that,

Said shadow shield (110) top is formed with a projection (111); The profile of this projection (111) is configured to be suitable for inserting in the orientation direction groove (202) on the adapter (200) that matches with said optical fiber connector plug (100); When said adapter is withstood and after overturning in the top of said shadow shield (110); Said projection (111) gets in the said orientation direction groove (202), thereby guides said optical fiber connector plug (100) to insert in the said adapter (200).

3. optical fiber connector plug according to claim 2 (100) is characterized in that,

Said housing (101) comprises shell body (102) and is installed in the inner housing (103) in the shell body (102).

4. optical fiber connector plug according to claim 3 (100) is characterized in that,

Said elastic mechanism (150) comprises a straight spring (152) and is enclosed within the spring protecting sleeve (151) of said spring (152) outside; And

On said shell body (102), be formed with abutment sleeve (1021), the rear end of said elastic mechanism (150) is contained in the said abutment sleeve (1021), and front end presses against on the said shadow shield (110).

5. optical fiber connector plug according to claim 4 (100) is characterized in that,

Said slide mechanism comprises a sliding panel (120), and its left and right sides is formed with a flank (121) respectively; And

On said inner housing (103) or shell body (102), be formed with the guide slit (1031) corresponding with said flank (121); The a pair of flank (121) of said sliding panel (120) is contained in a pair of guide slit (1031), thereby guided slidable plate (120) slides before and after guide slit (1031).

6. optical fiber connector plug according to claim 5 (100) is characterized in that,

Said shadow shield (110) is connected through the front end of pivot (140) with said sliding panel (120) rotationally.

7. optical fiber connector plug according to claim 6 (100) is characterized in that, also comprises a cone;

The rear portion of said cone (130) is formed with an elastic fastening hook (131); And

On said sliding panel (120), be formed with the aperture (122) corresponding with elastic fastening hook (131); The elastic fastening hook (131) of said cone (130) is snapped in the aperture (122) of said sliding panel (120), thereby realizes the connection between said cone (130) and the said sliding panel (120).

8. optical fiber connector plug according to claim 7 (100) is characterized in that,

The surface tilt of the front opening of said cone (130) is in the optical fiber through hole of said optical fiber align device (160); Make the surface tilt of when shadow shield (110) is in the closed position shadow shield (110) in the optical fiber through hole of said optical fiber align device (160), thereby prevent that light from reflecting back into the optical fiber through hole from shadow shield (110).

9. optical fiber connector plug according to claim 8 (100) is characterized in that,

On said sliding panel (120), be formed with elasticity locking plate (123) protruding upward;

When said shadow shield (110) was in the closed position, said elasticity locking plate (123) was held on the inwall of said shell body (102), thereby prevented that sliding panel (120) from sliding; And

When being shown in an open position, said elasticity locking plate (123) is depressed by shadow shield (110) at said shadow shield (110), thereby allows sliding panel (120) to slide.

10. optical fiber connector plug according to claim 9 (100) is characterized in that,

On said shadow shield (110), be formed with the stiffening plate (112) that thickens, said projection (111) is formed on the said stiffening plate (112).

11. optical fiber connector plug according to claim 10 (100) is characterized in that,

Said optical fiber connector plug (100) also comprises stress buffer boots (102), and said stress buffer boots (102) are connected with an end relative with said shadow shield (110) of said inner housing (103).

12. optical fiber connector plug according to claim 11 (100) is characterized in that,

Be bonded with each other through buckle structure (203,1032) between the housing (101) of said optical fiber connector plug (100) and the housing (201) of said adapter (200).

Images