CN112068260A - SC type fiber connector and SC type fiber adapter - Google Patents

Abstract

The utility model relates to a SC type fiber connector and SC type fiber adapter, belong to fiber coupling assembling's technical field, it includes a plurality of adapter bodies, all adapter bodies are formed with the optic fibre wall subassembly jointly, T type logical groove has all been seted up to every adapter body top and bottom, adapter body pegs graft there is the I-shaped connecting block, adapter body detachably connects with the sliding block, two bar grooves have all been seted up to every sliding block, the sliding block joint has U type spare, connecting through groove has all been seted up to every sliding block, optic fibre wall subassembly both sides are provided with left pole setting and right pole setting respectively, sliding connection has upper adjusting lever and lower adjusting lever between left pole setting and the right pole setting, upper adjusting lever passes connecting through groove, lower adjusting lever passes connecting through groove, the invention has the effect that makes things convenient for the administrator to overhaul intensive optic fibre.

Description

SC type fiber connector and SC type fiber adapter

Technical Field

The invention relates to the technical field of optical fiber connecting components, in particular to an SC-type optical fiber connector and an SC-type optical fiber adapter.

Background

At present, the SC type optical fiber connector is also called a molded plug-pull coupling type single mode optical fiber connector and also called a square connector, the shell of the SC type optical fiber connector is rectangular, the plug sleeve is made of precise ceramics, the coupling sleeve is of a metal slotted sleeve structure, and the structural size of the SC type optical fiber connector is the same as that of the FC type optical fiber connector. The SC type optical fiber connector is low in price, convenient to insert and pull out, small in insertion loss fluctuation, high in compressive strength and high in installation density. The two ends of the optical fiber adapter can be inserted into optical fiber connectors with different interface types.

With the advent of the 5G era, the requirements for optical fibers have become higher and higher, and the requirements for optical fibers not only reflect on the transmission speed of the optical fibers, but also reflect on the transmission stability, the maintenance complexity and the quantity capable of being set up in a limited space. In order to increase the signal transmission speed as much as possible by a 5G base station, the number of optical fibers in the base station cannot necessarily be small.

The above prior art solutions have the following drawbacks: because the number of optical fibers in the base station is large, but the space of the base station is limited, how to conveniently manage and maintain the optical fibers becomes a big problem for the operation and maintenance personnel of the base station at present.

Disclosure of Invention

To facilitate management of large numbers of fibers, the present application provides an SC-type fiber optic adapter.

The SC type optical fiber adapter provided by the application adopts the following technical scheme:

an SC type optical fiber adapter comprises a plurality of adapter bodies, wherein all the adapter bodies are arranged in an array mode, all the adapter bodies jointly form an optical fiber wall assembly in a vertical rectangular arrangement, T-shaped through grooves are formed in the top and the bottom of each adapter body, I-shaped connecting blocks are inserted in the positions, corresponding to the T-shaped through grooves, of the adjacent adapter bodies, and the I-shaped connecting blocks can be inserted in the T-shaped through grooves of the two adapter bodies;

the adapter body at the top of the optical fiber wall assembly and the adapter body at the bottom of the optical fiber wall assembly are detachably connected with sliding blocks at the sides far away from each other, two strip-shaped grooves are formed in one side of each sliding block far away from the adapter body, the two strip-shaped grooves are arranged along the width direction of the optical fiber wall assembly, elastic U-shaped pieces are clamped on the adjacent sliding blocks, and two ends of each U-shaped piece are respectively clamped in the strip-shaped grooves of the two adjacent sliding blocks;

the connecting through groove that sets up along optic fibre wall subassembly length direction is all seted up to every sliding block, optic fibre wall subassembly both sides are provided with left pole setting and right pole setting respectively, sliding connection has last regulating stem and lower regulating stem between left pole setting and the right pole setting, it slides along the direction of height of optic fibre wall subassembly with lower regulating stem to go up the regulating stem, the length direction setting of optic fibre wall subassembly is all followed to last regulating stem and lower regulating stem, go up the connecting through groove that the regulating stem passed all sliding blocks in the top of optic fibre wall subassembly, the connecting through groove of all sliding blocks in the bottom of optic fibre wall subassembly is passed to lower regulating stem.

By adopting the above scheme, the user can be connected adapter body from top to bottom through I-shaped connecting block and sliding block and adjacent adapter body, then with the relative position of all sliding blocks of U type spare fixed, make all adapter body whole form optic fibre wall subassembly, when needs adjustment or maintenance certain optic fibre, the user only need find this optic fibre, take off the U type spare that this optic fibre corresponds, the adapter body of the adapter body both sides of the optic fibre that will need to overhaul slides to both sides, take out the I-shaped connecting block of both sides about this adapter body, move the upper adjustment rod, expose this adapter, the user can directly overhaul or take out this optic fibre from optic fibre wall subassembly and overhaul. When the optical fibers can be stacked neatly and densely, the interference caused by other optical fibers when a user overhauls the optical fibers can be reduced, and the user can manage or maintain the optical fibers conveniently.

Preferably, the spout has been seted up in left pole setting and the right pole setting, and the spout sets up along the direction of height of optic fibre wall subassembly, goes up the adjusting lever and all sliding connection in two spouts with lower adjusting lever, goes up the equal threaded connection in adjusting lever and lower adjusting lever both ends and has fastening nut, and left pole setting and right pole setting are close to spout position department and offer a plurality of cooperation fastening nut's fastening recess, and fastening nut can butt in left pole setting or right pole setting and correspond fastening recess internal position department.

Through adopting above-mentioned scheme, support the relative position that tightly can fix adjusting lever or lower adjusting lever on left pole setting or right pole setting with fixation nut to the position of fixed adapter body reduces the possibility of optic fibre disorder, and the user of being convenient for overhauls optic fibre.

Preferably, the draw-in groove has been seted up to one side position department that keeps away from each other in two bar inslots that correspond of every sliding block, and every U type spare corresponds draw-in groove position department and all has set firmly the arch, and the arch can the joint in the draw-in groove.

Through adopting above-mentioned scheme, protruding and draw-in groove cooperation can make two adjacent sliding blocks of U type spare fixed better.

Preferably, the equal fixedly connected with arc in every U type spare both sides, two arc to the crooked setting of the direction of keeping away from each other.

Through adopting above-mentioned scheme, the user can open through these two arc control U type spares, is protruding and draw-in groove separation, and convenience of customers takes out U type spare.

Preferably, the left upright rod is far away from the storage plate fixedly connected with one side of the optical fiber wall assembly, the storage plate is provided with a plurality of I-shaped slots matched with I-shaped connecting blocks and strip-shaped slots matched with U-shaped pieces, the I-shaped connecting blocks can be inserted into the I-shaped slots, and the U-shaped pieces can be inserted into the two adjacent strip-shaped slots.

Through adopting above-mentioned scheme, the storing plate convenience of customers temporarily deposits I-shaped connecting block and U type spare when overhauing optic fibre, reduces the possibility that I-shaped connecting block and U type spare lost.

Preferably, one end of the I-shaped connecting block is fixedly connected with a pull ring.

Through adopting above-mentioned scheme, the pull ring is convenient for the user to extract the I-shaped connecting block from the logical inslot of T type.

Preferably, both ends of the left upright rod are fixedly connected with left bending parts, and one end of each left bending part, which is far away from the left upright rod, is fixedly connected with a left flange; the equal fixedly connected with right kink in right pole setting both ends, right pole setting one end fixedly connected with right flange is kept away from to every right kink.

Through adopting above-mentioned scheme, left flange and right flange are used for fixing left pole setting and right pole setting on the wall, make optic fibre wall subassembly unsettled, overhaul optic fibre for the bigger space of user.

Preferably, the positions of the two corresponding sides of each adapter body are fixedly connected with identification strips, and the identification strips of the adapter bodies in the same row are same in color.

Through adopting above-mentioned scheme, the slider that the adapter body corresponds is found fast to the user's of being convenient for accuracy of sign strip, and convenience of customers finds accurate U type spare.

To facilitate management of a large number of optical fibers, the present application provides an SC-type fiber optic connector.

The SC type optical fiber adapter provided by the application adopts the following technical scheme:

an SC type optical fiber connector, which uses the SC type optical fiber adapter according to any one of claims 1 to 8, comprising connector bodies clamped on both sides of each adapter body, wherein a label is fixedly connected with the connector bodies, a nylon hook tape is fixedly connected with one side of the label, a nylon velvet tape is fixedly connected with the adapter bodies, and the nylon hook tape can be adhered on the nylon velvet tape.

Through adopting above-mentioned scheme, the label can show the serial number of optic fibre, and convenience of customers manages optic fibre, and the label glues can convenience of customers after on the adapter body and look over the mark on the label, also can play the effect of fixed adapter body and connector body simultaneously.

In conclusion, the invention has the following beneficial effects:

1. when a certain optical fiber needs to be adjusted or maintained, a user only needs to find the optical fiber, take down the U-shaped part corresponding to the optical fiber, slide the adapter bodies on the two sides of the adapter body of the optical fiber to be overhauled to the two sides, draw out the I-shaped connecting blocks on the upper side and the lower side of the adapter body, move the upper adjusting rod to expose the adapter, and the user can directly overhaul or take out the optical fiber from the optical fiber wall assembly for overhauling. When the optical fibers can be stacked neatly and densely, the interference caused by other optical fibers when a user overhauls the optical fibers can be reduced, and the user can manage or maintain the optical fibers conveniently.

Drawings

Fig. 1 is a schematic overall structure diagram of an SC-type fiber adapter according to an embodiment of the present application;

FIG. 2 is a cross-sectional view of a slider, a left vertical rod, and a right vertical rod of an SC fiber adapter according to an embodiment of the present application;

FIG. 3 is an enlarged view of portion A of FIG. 2;

FIG. 4 is a schematic diagram of an adapter body and a slider block of an SC fiber adapter according to an embodiment of the present application;

FIG. 5 is an enlarged view of portion B of FIG. 2;

FIG. 6 is a schematic diagram of an overall structure of an SC type optical fiber connector according to an embodiment of the present application;

fig. 7 is an exploded view of a label of an SC-type fiber optic connector according to an embodiment of the present application.

In the figure, 1, an adapter body; 11. a fiber optic wall assembly; 12. a T-shaped through groove; 13. an I-shaped connecting block; 131. a pull ring; 14. a marking strip; 15. nylon velvet ribbon; 2. a slider; 21. a strip-shaped groove; 211. a card slot; 22. a U-shaped member; 221. a protrusion; 222. an arc-shaped plate; 23. connecting the through grooves; 3. a left upright stanchion; 31. a chute; 32. fastening the groove; 33. an upper adjusting rod; 331. fastening a nut; 34. a lower adjustment lever; 35. a storage plate; 351. an I-shaped slot; 352. a strip-shaped slot; 36. a left bend section; 361. a left flange; 4. a right upright rod; 41. a right bent portion; 411. a right flange; 5. a connector body; 51. a label; 511. a nylon hook tape.

Detailed Description

The present application is described in further detail below with reference to figures 1-7.

The embodiment of the application discloses SC type fiber connector, as shown in fig. 1 and fig. 2, including a plurality of adapter bodies 1, all adapter bodies 1 are arranged in array, and all adapter bodies 1 are formed with the fiber wall subassembly 11 that is vertical rectangle setting jointly. The array of adapters together is capable of connecting fiber optic connectors at maximum density.

As shown in fig. 2 and 3, the top adapter body 1 and the bottom adapter body 1 of the fiber wall assembly 11 are detachably connected with sliding blocks 2 at the sides far away from each other. The connecting through groove 23 arranged along the length direction of the optical fiber wall assembly 11 is formed in each sliding block 2. The two sides of the optical fiber wall component 11 are respectively provided with a left vertical rod 3 and a right vertical rod 4, an upper adjusting rod 33 and a lower adjusting rod 34 are connected between the left vertical rod 3 and the right vertical rod 4 in a sliding manner, and the upper adjusting rod 33 and the lower adjusting rod 34 slide along the height direction of the optical fiber wall component 11. The left upright rod 3 and the right upright rod 4 are provided with sliding grooves 31, the sliding grooves 31 are arranged along the height direction of the optical fiber wall assembly 11, and the upper adjusting rod 33 and the lower adjusting rod 34 are both connected in the two sliding grooves 31 in a sliding manner. The upper adjusting rod 33 and the lower adjusting rod 34 are both arranged along the length direction of the optical fiber wall assembly 11, the upper adjusting rod 33 passes through the connecting through slots 23 of all the sliding blocks 2 at the top of the optical fiber wall assembly 11, and the lower adjusting rod 34 passes through the connecting through slots 23 of all the sliding blocks 2 at the bottom of the optical fiber wall assembly 11. The adapter body 1 is connected between the left vertical rod 3 and the right vertical rod 4, and can drive the sliding block 2 to move up and down through the sliding upper adjusting rod 33 and the sliding lower adjusting rod 34.

As shown in fig. 2 and 4, a T-shaped through groove 12 is formed in the top and bottom of each adapter body 1 and one side of each sliding block 2, which is close to the adapter body 1, an i-shaped connecting block 13 is inserted in a position where the adjacent adapter body 1 corresponds to the T-shaped through groove 12, and the i-shaped connecting block 13 can be inserted in the T-shaped through grooves 12 of the two adapter bodies 1 or the adapter bodies 1 and the sliding blocks 2. The i-shaped connecting block 13 connects the longitudinal sliding block 2 and the adapter body 1 together, so that the longitudinal sliding block 2 and the adapter body 1 move together. One end of the I-shaped connecting block 13 is fixedly connected with a pull ring 131. The pull ring 131 is convenient for a user to pull the I-shaped connecting block 13 out of the T-shaped through groove 12.

As shown in fig. 2 and 5, two strip-shaped grooves 21 have been all seted up to adapter body 1 one side is kept away from to every sliding block 2, and two strip-shaped grooves 21 all set up along the width direction of optic fibre wall subassembly 11, and adjacent sliding block 2 all the joint has elastic U type spare 22, and U type spare 22 both ends joint respectively in the strip-shaped groove 21 of two adjacent sliding blocks 2. The U-shaped element 22 is used to fix the relative position of two columns of adapter bodies 1 and sliding blocks 2 by fixing the relative position of two adjacent sliding blocks 2. When a certain optical fiber needs to be adjusted or maintained, a user only needs to find the optical fiber, take down the U-shaped part 22 corresponding to the optical fiber, slide the adapter bodies 1 on both sides of the adapter body 1 of the optical fiber to be maintained to both sides, pull out the i-shaped connecting blocks 13 on the upper side and the lower side of the adapter body 1, move the upper adjusting rod 33 to expose the adapter, and the user can directly perform maintenance or take out the optical fiber from the optical fiber wall assembly 11 for maintenance.

As shown in fig. 5, the clamping groove 211 is disposed at a position on one side of each of the two corresponding strip-shaped grooves 21 of each of the sliding blocks 2, the protrusion 221 is fixedly disposed at a position corresponding to the clamping groove 211 of each of the U-shaped members 22, and the protrusion 221 can be clamped in the clamping groove 211. The cooperation of the protrusions 221 and the notches 211 enables the U-shaped element 22 to better fix the two adjacent sliding blocks 2. Arc-shaped plates 222 are fixedly connected to two sides of each U-shaped part 22, and the two arc-shaped plates 222 are arranged in a bending mode towards the direction away from each other. The user can control the opening of the U-shaped member 22 through the two arc-shaped plates 222, and the protrusion 221 is separated from the clamping groove 211, so that the user can take out the U-shaped member 22 conveniently.

Referring back to fig. 3, the two ends of the upper adjusting rod 33 and the lower adjusting rod 34 are both connected with a fastening nut 331 through threads, the positions of the left upright rod 3 and the right upright rod 4 close to the sliding chute 31 are provided with a plurality of fastening grooves 32 matched with the fastening nuts 331, and the fastening nuts 331 can abut against the inner positions of the corresponding fastening grooves 32 of the left upright rod 3 or the right upright rod 4. The fixing nut is tightly propped against the left vertical rod 3 or the right vertical rod 4 to fix the relative position of the upper adjusting rod 33 or the lower adjusting rod 34, so that the position of the adapter body 1 is fixed, the possibility of optical fiber disturbance is reduced, and the optical fiber is convenient for a user to overhaul.

Referring back to fig. 1, both ends of the left vertical rod 3 are fixedly connected with left bending portions 36, and each left bending portion 36 is far away from one end of the left vertical rod 3 and is fixedly connected with a left flange 361. The equal fixedly connected with right kink 41 in right pole setting 4 both ends, and right pole setting 4 one end fixedly connected with right flange 411 is kept away from to every right kink 41. The left flange 361 and the right flange 411 are used for fixing the left upright rod 3 and the right upright rod 4 on a wall, so that the optical fiber wall component 11 is suspended, and a larger space is provided for a user to overhaul optical fibers. Left pole setting 3 keeps away from optic fibre wall subassembly 11 one side fixedly connected with and deposits board 35, deposits the bar slot 352 of offering the I-shaped slot 351 of a plurality of cooperation I-shaped connecting blocks 13 and cooperation U type spare 22 on the board 35, and I-shaped connecting block 13 can be pegged graft in I-shaped slot 351, and U type spare 22 can be pegged graft in two adjacent bar slots 352. The storage plate 35 is convenient for a user to temporarily store the i-shaped connecting block 13 and the U-shaped member 22 during the maintenance of the optical fiber, and reduces the possibility of losing the i-shaped connecting block 13 and the U-shaped member 22.

As shown in fig. 1, the two ends of each adapter body 1 are fixedly connected with identification strips 14 at positions corresponding to the two sides, and the identification strips 14 of the adapter bodies 1 in the same row have the same color. The identification strip 14 facilitates the user to find the sliding block 2 corresponding to the adapter body accurately and quickly, and facilitates the user to find the U-shaped member 22 accurately.

The implementation principle of the SC-type optical fiber adapter in the embodiment of the present application is as follows: when the optical fiber wall assembly 11 is installed, the left flange 361 and the right flange 411 are firstly screwed on a wall, then the adapter body 1 is connected with the sliding block 2 and the adjacent adapter body 1 up and down through the I-shaped connecting block 13, and then the relative positions of all the sliding blocks 2 are fixed by the U-shaped pieces 22, so that all the adapter bodies 1 are integrally formed into the optical fiber wall assembly 11. When a certain optical fiber needs to be adjusted or maintained, a user only needs to find the optical fiber, take down the U-shaped part 22 corresponding to the optical fiber, slide the adapter bodies 1 on both sides of the adapter body 1 of the optical fiber to be maintained to both sides, pull out the i-shaped connecting blocks 13 on the upper side and the lower side of the adapter body 1, move the upper adjusting rod 33 to expose the adapter, and the user can directly perform maintenance or take out the optical fiber from the optical fiber wall assembly 11 for maintenance. When the optical fibers can be stacked neatly and densely, the interference caused by other optical fibers when a user overhauls the optical fibers can be reduced, and the user can manage or maintain the optical fibers conveniently.

The embodiment of the application discloses SC type fiber connector uses the SC type fiber adapter like the embodiment, as shown in fig. 6 and 7, including the joint in the connector body 5 on every adapter body 1 two sides, connector body 5 fixedly connected with label 51, label 51 one side fixedly connected with nylon hook area 511, fixedly connected with nylon velvet area 15 on the adapter body 1, nylon hook area 511 can bond on nylon velvet area 15. The label 51 can indicate the serial number of the optical fiber, so that the user can conveniently manage the optical fiber, the label 51 is stuck on the adapter body 1, so that the user can conveniently check the mark on the label 51, and meanwhile, the label can also play a role in fixing the adapter body 1 and the connector body 5.

The embodiments of the present invention are preferred embodiments of the present invention, and the scope of the present invention is not limited by these embodiments, so: all equivalent changes made according to the structure, shape and principle of the invention are covered by the protection scope of the invention.

Claims (9)

1. An SC type fiber optic adapter comprising a plurality of adapter bodies (1), characterized in that: all the adapter bodies (1) are arranged in an array mode, all the adapter bodies (1) are jointly formed into an optical fiber wall assembly (11) which is arranged in a vertical rectangular mode, T-shaped through grooves (12) are formed in the top and the bottom of each adapter body (1), I-shaped connecting blocks (13) are inserted in positions, corresponding to the T-shaped through grooves (12), of adjacent adapter bodies (1), and the I-shaped connecting blocks (13) can be inserted in the T-shaped through grooves (12) of the two adapter bodies (1);

the adapter body (1) at the top of the optical fiber wall assembly (11) and the adapter body (1) at the bottom are both detachably connected with sliding blocks (2) at one side away from each other, two strip-shaped grooves (21) are respectively formed in one side, away from the adapter body (1), of each sliding block (2), the two strip-shaped grooves (21) are arranged along the width direction of the optical fiber wall assembly (11), elastic U-shaped pieces (22) are respectively clamped on the adjacent sliding blocks (2), and two ends of each U-shaped piece (22) are respectively clamped in the strip-shaped grooves (21) of the two adjacent sliding blocks (2);

the connecting through groove (23) that sets up along optic fibre wall subassembly (11) length direction is all seted up in every sliding block (2), optic fibre wall subassembly (11) both sides are provided with left pole setting (3) and right pole setting (4) respectively, sliding connection has last adjusting lever (33) and adjusting lever (34) down between left pole setting (3) and right pole setting (4), go up adjusting lever (33) and adjusting lever (34) down and slide along the direction of height of optic fibre wall subassembly (11), go up adjusting lever (33) and adjusting lever (34) down and all set up along the length direction of optic fibre wall subassembly (11), go up the connecting through groove (23) that all sliding blocks (2) in top that adjusting lever (33) passed optic fibre wall subassembly (11), lower adjusting lever (34) pass the connecting through groove (23) of all sliding blocks (2) in bottom of optic fibre wall subassembly (11).

2. An SC-type fiber optic adapter according to claim 1, wherein: seted up spout (31) on left pole setting (3) and right pole setting (4), spout (31) set up along the direction of height of optic fibre wall subassembly (11), go up adjusting lever (33) and lower equal sliding connection in two spout (31) of adjusting lever (34), it has fastening nut (331) to go up adjusting lever (33) and the equal threaded connection in adjusting lever (34) both ends down, left side pole setting (3) and right pole setting (4) are close to spout (31) position department and offer fastening groove (32) of a plurality of cooperation fastening nut (331), fastening nut (331) can butt in left pole setting (3) or right pole setting (4) corresponding fastening groove (32) internal position department.

3. An SC-type fiber optic adapter according to claim 1, wherein: draw-in groove (211) have been seted up to the one side position department of keeping away from each other in two corresponding bar grooves (21) of every sliding block (2), and every U type spare (22) correspond draw-in groove (211) position department and all have set firmly protruding (221), and protruding (221) can the joint in draw-in groove (211).

4. An SC-type fiber optic adapter according to claim 3, wherein: both sides of each U-shaped part (22) are fixedly connected with arc-shaped plates (222), and the two arc-shaped plates (222) are arranged in a bending mode towards the direction away from each other.

5. An SC-type fiber optic adapter according to claim 1, wherein: keep away from optic fibre wall subassembly (11) one side fixedly connected with storage plate (35) in left side pole setting (3), set up I-shaped slot (351) of a plurality of cooperation I-shaped connecting blocks (13) and bar slot (352) of cooperation U type spare (22) on storage plate (35), I-shaped connecting block (13) can be pegged graft in I-shaped slot (351), and U type spare (22) can be pegged graft in two adjacent bar slots (352).

6. An SC-type fiber optic adapter according to claim 1, wherein: one end of the I-shaped connecting block (13) is fixedly connected with a pull ring (131).

7. An SC-type fiber optic adapter according to claim 1, wherein: both ends of the left upright stanchion (3) are fixedly connected with left bending parts (36), and one end of each left bending part (36) far away from the left upright stanchion (3) is fixedly connected with a left flange (361); the equal fixedly connected with right kink (41) in right pole setting (4) both ends, right pole setting (4) one end fixedly connected with right flange (411) are kept away from to every right kink (41).

8. An SC-type fiber optic adapter according to claim 1, wherein: the equal fixedly connected with sign strip (14) of both sides position department is corresponded at every adapter body (1) both ends, and sign strip (14) the colour of adapter body (1) in the same row is the same.

9. An SC-type optical fiber connector using the SC-type optical fiber adapter according to any one of claims 1 to 8, wherein: including connector body (5) of joint in every adapter body (1) two sides, connector body (5) fixedly connected with label (51), label (51) one side fixedly connected with nylon hook area (511), fixedly connected with nylon velvet area (15) on adapter body (1), nylon hook area (511) can bond on nylon velvet area (15).

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