CN220820304U - Optical fiber wire connector - Google Patents

Abstract

The utility model discloses an optical fiber wire connector, which comprises a connector female seat and a connector male head which can be mutually inserted and connected, wherein the connector female seat comprises a plastic seat and a first plastic core barrel penetrating and arranged in the plastic seat, the end part of a first optical fiber wire is penetrated and fixed in the first plastic core barrel, the front end of the plastic seat is provided with a butt joint groove and a buckling hole, and the front end of the first plastic core barrel is prominently arranged at the bottom of the butt joint groove; the connector male head comprises an insulator and a second plastic core barrel penetrating through the insulator, the second optical fiber wire is fixed in the second plastic core barrel in a penetrating way, the front part of the insulator is provided with an opposite inserting convex part matched with the opposite inserting slot, and the second plastic core barrel is exposed at the front end face of the opposite inserting convex part; the insulator is provided with a spring arm which is used for being inserted with the opposite inserting groove, and the spring arm is provided with a buckle body; the opposite inserting convex part of the connection male head and the elastic arm are inserted into the opposite inserting groove of the connection female seat, and the buckling body on the elastic arm is buckled and fixed with the buckling position hole; the second plastic core barrel is in butt joint with the first plastic core barrel, and the end face of the first optical fiber wire is in contact with the end face of the second optical fiber wire.

Description

Optical fiber wire connector

Technical field:

The utility model relates to the technical field of optical fibers, in particular to an optical fiber wire connector.

The background technology is as follows:

Optical fibers have a large information capacity, which means that small-sized cables can be used without the need to update or enhance the signals in the transmission cable in the future. The fiber optic line has a large impedance to electromagnetic noise, such as radio, motor or other adjacent cable, to protect it from electrical noise. In the use process, after a certain section of the optical fiber wire is cut off for various reasons, the optical fiber wire needs to be subjected to connection treatment so as to be capable of continuously transmitting optical signals.

Chinese patent (CN 207908741U) discloses a wire harness connection module for computer optical fiber data transmission. The front end of the bottom plate table is provided with two sliding rails which are arranged at an included angle of 28-35 degrees, and sliding blocks are erected on the two sliding rails; the clamping table boards are fixed on the two sliding blocks; clamping frames are fixed on the two clamping table boards, and clamping pieces are embedded in the side edges of the two clamping frames; the hydraulic expansion device a and the hydraulic expansion device b are equally divided into a basic part and an expansion part. The wiring harness connection module adopts a wiring way of a wiring groove, can play a role in limiting and fixing the positions of wiring harnesses which need to be connected at two sides, can compress and reinforce after being connected at the joint of two wiring harnesses by utilizing a rotatable lifting connection assembly, ensures that the connection of the two wiring harnesses can be kept in a hidden and stable state, prevents the phenomenon that the connection joint is exposed outside and loosens, and effectively improves the connection effect of the wiring harnesses.

But above-mentioned pencil refutes and connects module structure is very complicated to the operation is got up inconvenient enough, and the optical fiber line refutes simultaneously and directly exposes outside, after long-time use, or when receiving external force to draw, takes place easily to refute the phenomenon that the department drops, has reduced the pencil and refutes the stability of connecing, can influence the quality of optical fiber line transmission optical signal simultaneously.

In view of this, the present inventors have proposed the following means.

The utility model comprises the following steps:

the utility model aims to overcome the defects of the prior art and provides an optical fiber wire connector.

In order to solve the technical problems, the utility model adopts the following technical scheme: the optical fiber wire connector comprises a connector female seat and a connector male head which can be mutually inserted and connected, wherein the connector female seat comprises a plastic seat and a first plastic core barrel penetrating and arranged in the plastic seat, the end part of a first optical fiber wire is fixed in the first plastic core barrel in a penetrating way, the front end of the plastic seat is provided with a pair of slots and a buckling hole, and the front end of the first plastic core barrel is prominently arranged at the bottoms of the pair of slots; the plug-in male head comprises an insulator and a second plastic core barrel penetrating and installed in the insulator, a second optical fiber wire is fixed in the second plastic core barrel in a penetrating mode, an opposite inserting convex part matched with the opposite inserting groove is arranged at the front part of the insulator, and the second plastic core barrel is exposed at the front end face of the opposite inserting convex part; the insulator is provided with a spring arm for being inserted with the opposite inserting groove in an opposite mode, and the spring arm is provided with a buckle body; the opposite-inserting convex part and the elastic arm of the connection male head are inserted into the opposite-inserting slot of the connection female seat, and the buckling body on the elastic arm is buckled and fixed with the buckling position hole arranged on the inner wall of the opposite-inserting slot; the second plastic core barrel is in butt joint with the first plastic core barrel, and the end face of the first optical fiber wire is in contact with the end face of the second optical fiber wire.

In the above technical solution, a guide groove is formed between the front end of the second plastic core barrel and the front end face of the opposite insertion protrusion; the end part of the first plastic core barrel is embedded into the guide groove body, so that the end face of the first optical fiber line and the end face of the second optical fiber line are accurately butted.

Furthermore, in the above technical scheme, the bottom of the opposite inserting groove is further provided with a first step groove, the front end of the opposite inserting protrusion is further embedded into the first step groove, and the first sealing ring arranged at the periphery of the front end of the opposite inserting protrusion is in abutting, pressing and sealing contact with the inner wall of the first step groove.

In the above technical solution, a guide groove is further provided at the bottom of the first step groove; the front ends of the opposite inserting convex parts are also provided with guide convex parts which are embedded into the guide grooves.

Furthermore, in the above technical scheme, the rear end of the insulator is further provided with a second-stage buckle seat which can slide in a front-back push-pull manner and is used for jacking up the spring arm to realize the support of the spring arm.

In the technical scheme, a secondary buckle is formed at the front end of the secondary buckle seat, and an inclined plane is formed on the top surface of the front end of the secondary buckle; the secondary buckle is arranged in the guide groove of the lower end surface of the spring arm, when the secondary buckle seat is pushed forwards, the inclined surface of the secondary buckle contacts with the lower end surface of the spring arm, and the spring arm is jacked upwards to form a support for the spring arm.

In the above technical solution, the insulator is provided with a first stepped core hole penetrating through the front end face along the rear end face thereof, the rear end of the first plastic core barrel is provided with a first O-ring and a first positioning ring groove located at the rear end of the first O-ring, and the first plastic core barrel is inserted into the first stepped core hole and is assembled with the inner wall of the first stepped core hole in a sealing manner through the first O-ring; the insulator lower end face is further provided with a first buckling groove which penetrates through the first step-shaped core hole and is in a half square frame shape, a first limiting seat is fixedly buckled in the first buckling groove of the insulator lower end face, and a first limiting protruding portion formed in the first limiting seat is embedded into the first positioning annular groove to position the first plastic core barrel.

Furthermore, in the above technical scheme, the first elastic fastening bodies are formed on two sides of the first limiting seat, the first fastening groove bodies are formed on two sides of the first fastening groove, and the first elastic fastening bodies are fastened and fixed with the first fastening groove bodies.

In the technical scheme, the plastic seat is provided with a second stepped core hole penetrating through the front end face along the rear end face of the plastic seat, the rear end of the first plastic core barrel is provided with a second O-shaped ring and a second positioning ring groove positioned at the rear end of the second O-shaped ring, and the first plastic core barrel is arranged in the second stepped core hole in a penetrating way and is assembled with the second stepped core hole in a sealing way through the second O-shaped ring; the plastic seat upper end face is also provided with a second buckling groove which penetrates through the second step-shaped core hole and is in a half square frame shape, a second limiting seat is also buckled and fixed in the second buckling groove of the plastic seat lower end face, and a second limiting convex part formed in the second limiting seat is embedded in the second positioning ring groove to position the first plastic core barrel.

Furthermore, in the above technical scheme, the second elastic fastening bodies are formed on two sides of the second limiting seat, the second fastening groove bodies are formed on two sides of the second fastening groove, and the second elastic fastening bodies are fastened and fixed with the second fastening groove bodies.

By adopting the technical scheme, compared with the prior art, the utility model has the following beneficial effects: according to the utility model, the end part of the first optical fiber line and the end part of the second optical fiber line are respectively arranged in the female connector and the male connector, when the opposite convex part and the elastic arm of the male connector are inserted into the opposite slot of the female connector, the buckling body on the elastic arm is buckled and fixed with the buckling hole arranged on the inner wall of the opposite slot, so that the female connector and the male connector are ensured to form stable connection and are not separated accidentally; the second plastic core barrel is in butt joint with the first plastic core barrel, the end face of the first optical fiber wire is in contact with the end face of the second optical fiber wire, the first optical fiber wire and the second optical fiber wire cannot be exposed outside after being connected, even after long-time use or when being pulled by external force, the connection female seat and the connection male head cannot be accidentally separated, and further the connection part of the first optical fiber wire and the second optical fiber wire cannot be separated, so that the connection stability of a wire harness is ensured, the quality of optical signals transmitted by the optical fiber wire is ensured, and the utility model has the advantages of simple structure and convenience in assembly and operation.

Description of the drawings:

FIG. 1 is an assembly view of the present utility model;

FIG. 2 is a perspective view of a docking cradle according to the present utility model;

FIG. 3 is a cross-sectional view of the present utility model;

FIG. 4 is a perspective view of the docking cradle of the present utility model after removal of the second stop block;

FIG. 5 is a perspective view of the second stop seat of the present utility model;

FIG. 6 is a perspective view of a docking male in the present utility model;

FIG. 7 is a perspective view of the female connector of the present utility model after the first stop seat is removed;

FIG. 8 is an exploded perspective view of the docking male of the present utility model;

Fig. 9 is a perspective view of a secondary buckle seat in a connector male according to the present utility model.

The specific embodiment is as follows:

the utility model will be further described with reference to specific examples and figures.

1-9, A fiber optic line connector includes a female connector housing 100 and a male connector 200 that are insertable into one another.

The female connector 100 is used for installing a first optical fiber line 3, the male connector 200 is used for installing a second optical fiber line 7, and after the female connector 100 and the male connector 200 are mutually inserted and connected, the first optical fiber line 3 is in butt joint with the second optical fiber line 7, so that the purpose of realizing the butt joint of the first optical fiber line 3 and the second optical fiber line 7 is achieved.

The method comprises the following steps: the female connection seat 100 comprises a plastic seat 1 and a first plastic core barrel 2 penetrating and installed in the plastic seat 1, the end part of a first optical fiber wire 3 is penetrated and fixed in the first plastic core barrel 2, the front end of the plastic seat 1 is provided with a pair of slots 12 and a buckling hole 120, and the front end of the first plastic core barrel 2 is protruded at the bottoms of the pair of slots 12; correspondingly, the male connector 200 comprises an insulator 5 and a second plastic core barrel 6 penetrating and installed in the insulator 5, the second optical fiber 7 is penetrated and fixed in the second plastic core barrel 6, the front part of the insulator 5 is provided with an opposite convex part 51 matched with the opposite slot 12, and the second plastic core barrel 6 is exposed at the front end face of the opposite convex part 51; the insulator 5 is formed with a spring arm 52 for being inserted into the opposite slot 12, the spring arm 52 is provided with a buckle body 521, that is, the end of the first optical fiber 3 and the end of the second optical fiber 7 are respectively installed in the female connector 100 and the male connector 200, when the opposite convex part 51 and the spring arm 52 of the male connector 200 are inserted into the opposite slot 12 of the female connector 100, the buckle body 521 on the spring arm 52 is buckled and fixed with a buckling hole 120 arranged on the inner wall of the opposite slot 12, so as to ensure that the female connector 100 and the male connector 200 form stable connection without unexpected detachment; the second plastic core barrel 6 is in butt joint with the first plastic core barrel 2, the end face of the first optical fiber wire 3 is in contact with the end face of the second optical fiber wire 7, the first optical fiber wire 3 and the second optical fiber wire 7 cannot be exposed outside after being in butt joint, even after long-time use or when being pulled by external force, the butt joint female seat 100 and the butt joint male head 200 cannot be accidentally separated, and further the butt joint position of the first optical fiber wire 3 and the second optical fiber wire 7 cannot be separated, so that the stability of the wire harness butt joint is ensured, the quality of optical signals transmitted by the optical fiber wires is ensured, and the utility model has the advantages of simple structure and convenience in assembly and operation.

A guide groove 60 is formed between the front end of the second plastic core barrel 6 and the front end surface of the opposite insertion protrusion 51; the end part of the first plastic core barrel 2 is embedded in the guide groove body 60, so that the end surface of the first optical fiber wire 3 is accurately abutted with the end surface of the second optical fiber wire 7, the high quality of the connection between the first optical fiber wire 3 and the second optical fiber wire 7 is further ensured, and the purpose of stably transmitting optical signals can be realized.

In addition, a first step groove 121 is further provided at the bottom of the opposite inserting groove 12, the front end of the opposite inserting protrusion 51 is further embedded into the first step groove 121, so that the purpose of accurately abutting the connection female seat 100 and the connection male head 200 is achieved, the first optical fiber wire 3 and the second optical fiber wire 7 are prevented from being deviated to affect the connection quality, and the first sealing ring 501 arranged at the periphery of the front end of the opposite inserting protrusion 51 is in abutting and sealing contact with the inner wall of the first step groove 121, so that the purpose of sealing assembly is achieved, a good waterproof effect is achieved, dust can be prevented from entering the connection position of the first optical fiber wire 3 and the second optical fiber wire 7, and the quality of optical signal transmission of a product is improved.

In addition, a guide groove 122 is further provided at the bottom of the first step groove 121; the front end of the opposite insertion convex part 51 is further provided with a guide convex part 502, and the guide convex part 502 is embedded into the guide groove 122, so that the purpose of guiding is achieved, the purpose of accurately butting the plugging female base 100 and the plugging male head 200 is achieved, and the plugging deviation is prevented from affecting the plugging quality of the first optical fiber line 3 and the second optical fiber line 7.

The rear end of the insulator 5 is also provided with a secondary buckle seat 8 which can slide in a front-back push-pull manner and is used for jacking up the spring arm 52 so as to realize the support of the spring arm 52. The secondary buckling seat 8 can slide in a pushing and pulling mode back and forth and is used for jacking up the elastic arm 52 to support the elastic arm 52, so that secondary locking of the elastic arm 52 is achieved, the elastic arm 52 can be effectively prevented from being pressed down, the purpose of locking is achieved, the phenomenon that unexpected unlocking occurs due to the fact that the buckling body 521 of the elastic arm 52 is separated from the buckling hole 120 of the docking female seat 100 can be avoided, the docking male head 200 and the docking female seat 100 form stable connection, accidental separation is avoided, and the quality of optical signal transmission of the utility model can be further guaranteed.

The front end of the secondary buckle seat 8 is provided with a secondary buckle 81, and the top surface of the front end of the secondary buckle 81 is provided with an inclined plane 811; the secondary buckle 81 is arranged in the guide groove 522 on the lower end surface of the spring arm 52, when the secondary buckle seat 8 is pushed forward, the inclined surface 811 of the secondary buckle 81 contacts with the lower end surface of the spring arm 52, and the spring arm 52 is jacked up upwards to support the spring arm 52, so that the spring arm 52 is locked for the second time, the spring arm 52 can be effectively prevented from being pressed down, the aim of locking is achieved, the phenomenon that the buckle body 521 of the spring arm 52 is separated from the buckling hole 120 of the docking female seat 100 to unlock accidentally can be avoided, the docking male head 200 and the docking female seat 100 form stable connection without unexpected separation, and the quality of optical signal transmission of the utility model can be further ensured.

The insulator 5 rear end is provided with the sliding tray 53 of intercommunication guide slot 522, and this sliding tray 53 both sides inner wall all is provided with rail groove 531, the second grade is detained the seat 8 both sides and is provided with the protruding rail 82 with rail groove 531 adaptation, and this second grade is detained seat 8 and is installed in sliding tray 53 with slidable mode, wherein, this protruding rail 82 imbeds in rail groove 531 to can realize stable sliding motion, the anti-skidding pushing part 85 on this second grade is detained seat 8 exposes outside insulator 5 up end, so that the operation presses this anti-skidding pushing part 85, in order to realize this second grade and detain seat 8 and the unblock of arm 52, the operation is got up more conveniently.

Travel grooves 532 are also formed on two sides of the bottom surface of the sliding groove 53; the two sides of the lower end of the secondary buckling seat 8 are also provided with inclined surface sliding blocks 83 which are matched with the travel grooves 532, the inclined surface sliding blocks 83 are arranged in the travel grooves 532, so that the inclined surface sliding blocks 83 can only slide in the travel grooves 532, the forward and backward sliding travel of the secondary buckling seat 8 is limited, the stopping effect is achieved, the secondary buckling seat 8 can be prevented from accidentally falling out of the sliding grooves 53, and the quality of products is ensured.

The insulator 5 is provided with a first step-shaped core hole 55 penetrating through the front end surface along the rear end surface of the insulator, the rear end of the first plastic core barrel 2 is provided with a first O-shaped ring 61 and a first positioning ring groove 63 positioned at the rear end of the first O-shaped ring 61, the first plastic core barrel 2 is penetrated in the first step-shaped core hole 55 and is assembled with the inner wall of the first step-shaped core hole 55 in a sealing way through the first O-shaped ring 61, a good waterproof effect is achieved, dust can be prevented from entering the joint of the first optical fiber wire 3 and the second optical fiber wire 7, and the quality of optical signal transmission of a product is improved; the lower end surface of the insulator 5 is further provided with a first fastening groove 56 penetrating the first stepped core hole 55 and being in a half square frame shape, a first limit seat 58 is also fastened and fixed in the first fastening groove 56 of the lower end surface of the insulator 5, and a first limit protrusion 581 formed in the first limit seat 58 is embedded in the first positioning ring groove 63 to position the first plastic core barrel 2, so that the first plastic core barrel 2 is locked in the insulator 5, and the quality of the assembly structure is ensured.

The first elastic fastening bodies 582 are formed on two sides of the first limiting seat 58, the first fastening groove bodies 561 are formed on two sides of the first fastening groove 56, the first elastic fastening bodies 582 are fastened and fixed with the first fastening groove bodies 561, and the assembly structure is simple and convenient.

The plastic seat 1 is provided with a second stepped core hole 15 penetrating through the front end surface along the rear end surface, the rear end of the first plastic core barrel 2 is provided with a second O-shaped ring 21 and a second positioning ring groove 22 positioned at the rear end of the second O-shaped ring 21, the first plastic core barrel 2 is arranged in the second stepped core hole 15 in a penetrating way, and is assembled with the second stepped core hole 15 in a sealing way through the second O-shaped ring 21, so that a good waterproof effect is achieved, dust can be prevented from entering the joint of the first optical fiber wire 3 and the second optical fiber wire 7, and the quality of optical signal transmission of a product is improved. The upper end surface of the plastic seat 1 is further provided with a second fastening groove 16 penetrating the second stepped core hole 15 and being in a half square frame shape, a second limit seat 17 is also fastened and fixed in the second fastening groove 16 of the lower end surface of the plastic seat 1, and a second limit protrusion 171 formed in the second limit seat 17 is embedded in the second positioning ring groove 22 to position the first plastic core barrel 2, so that the first plastic core barrel 2 is locked in the plastic seat 1, and the quality of the assembly structure is ensured.

The second elastic buckling bodies 172 are formed on two sides of the second limiting seat 17, the second buckling groove bodies 161 are formed on two sides of the second buckling groove 16, the second elastic buckling bodies 172 are buckled and fixed with the second buckling groove bodies 161, and the assembly structure is simple and convenient.

In summary, according to the present utility model, the end portion of the first optical fiber 3 and the end portion of the second optical fiber 7 are respectively installed in the female connector 100 and the male connector 200, when the male connector 200 is inserted into the opposite slot 12 of the female connector 100, the locking body 521 on the elastic arm 52 is locked and fixed with the locking hole 120 provided on the inner wall of the opposite slot 12, so as to ensure that the female connector 100 and the male connector 200 form a stable connection without unexpected detachment; the second plastic core barrel 6 is in butt joint with the first plastic core barrel 2, the end face of the first optical fiber wire 3 is in contact with the end face of the second optical fiber wire 7, the first optical fiber wire 3 and the second optical fiber wire 7 cannot be exposed outside after being in butt joint, even after long-time use or when being pulled by external force, the butt joint female seat 100 and the butt joint male head 200 cannot be accidentally separated, and further the butt joint position of the first optical fiber wire 3 and the second optical fiber wire 7 cannot be separated, so that the stability of the wire harness butt joint is ensured, the quality of optical signals transmitted by the optical fiber wires is ensured, and the utility model has the advantages of simple structure and convenience in assembly and operation.

It is understood that the foregoing description is only illustrative of the present utility model and is not intended to limit the scope of the utility model, but rather is to be accorded the full scope of all such modifications and equivalent structures, features and principles as set forth herein.

Claims (10)

1. An optical fiber wire connector, which comprises a connector female seat (100) and a connector male head (200) which can be mutually inserted and connected, and is characterized in that:

The connector female seat (100) comprises a plastic seat (1) and a first plastic core barrel (2) arranged in the plastic seat (1) in a penetrating way, the end part of a first optical fiber wire (3) is fixed in the first plastic core barrel (2) in a penetrating way, the front end of the plastic seat (1) is provided with a pair of slots (12) and a buckling hole (120), and the front end of the first plastic core barrel (2) is protruded at the bottom of the pair of slots (12);

The connector male head (200) comprises an insulator (5) and a second plastic core barrel (6) penetrating and installed in the insulator (5), a second optical fiber wire (7) is penetrated and fixed in the second plastic core barrel (6), an opposite convex part (51) matched with the opposite slot (12) is arranged at the front part of the insulator (5), and the second plastic core barrel (6) is exposed at the front end face of the opposite convex part (51); an elastic arm (52) for being inserted with the opposite inserting groove (12) is formed on the insulator (5), and a buckle body (521) is arranged on the elastic arm (52);

The opposite inserting convex part (51) and the elastic arm (52) of the connection male head (200) are inserted into the opposite inserting groove (12) of the connection female seat (100), and the buckling body (521) on the elastic arm (52) is buckled and fixed with the buckling position hole (120) arranged on the inner wall of the opposite inserting groove (12); the second plastic core barrel (6) is in butt joint with the first plastic core barrel (2), and the end face of the first optical fiber wire (3) is in contact with the end face of the second optical fiber wire (7).

2. A fiber optic line connector as claimed in claim 1, wherein: a guide groove body (60) is formed between the front end of the second plastic core barrel (6) and the front end surface of the opposite insertion convex part (51); the end part of the first plastic core barrel (2) is embedded into the guide groove body (60), so that the end surface of the first optical fiber wire (3) is accurately abutted with the end surface of the second optical fiber wire (7).

3. A fiber optic line connector as claimed in claim 2, wherein: the bottom of the opposite inserting groove (12) is also provided with a first step groove (121), the front end of the opposite inserting convex part (51) is further embedded into the first step groove (121), and a first sealing ring (501) arranged on the periphery of the front end of the opposite inserting convex part (51) is in abutting, pressing and sealing contact with the inner wall of the first step groove (121).

4. A fiber optic line connector as claimed in claim 3, wherein: the bottom of the first step groove (121) is also provided with a guide groove (122); the front end of the opposite inserting convex part (51) is also provided with a guiding convex part (502), and the guiding convex part (502) is embedded into the guiding groove (122).

5. A fiber optic line connector as claimed in any one of claims 1 to 4, wherein: the rear end of the insulator (5) is also provided with a secondary buckle seat (8) which can be pushed, pulled and slid back and forth and is used for jacking up the spring arm (52) so as to realize the formation of support for the spring arm (52).

6. A fiber optic line connector as set forth in claim 5 wherein: the front end of the secondary buckle seat (8) is provided with a secondary buckle (81), and the top surface of the front end of the secondary buckle (81) is provided with an inclined surface (811); the secondary buckle (81) is arranged in a guide groove (522) on the lower end surface of the spring arm (52), when the secondary buckle seat (8) is pushed forward, an inclined surface (811) of the secondary buckle (81) is contacted with the lower end surface of the spring arm (52), and the spring arm (52) is jacked upwards to form a support for the spring arm (52).

7. A fiber optic line connector as claimed in any one of claims 1 to 4, wherein: the insulator (5) is provided with a first stepped core hole (55) penetrating through the front end face along the rear end face of the insulator, the rear end of the first plastic core barrel (2) is provided with a first O-shaped ring (61) and a first positioning ring groove (63) positioned at the rear end of the first O-shaped ring (61), and the first plastic core barrel (2) is penetrated in the first stepped core hole (55) and is assembled with the inner wall of the first stepped core hole (55) in a sealing way through the first O-shaped ring (61); the lower end face of the insulator (5) is further provided with a first buckling groove (56) penetrating through the first step-shaped core hole (55) and being in a half square frame shape, a first limit seat (58) is fixedly buckled in the first buckling groove (56) of the lower end face of the insulator (5), and a first limit protruding part (581) formed in the first limit seat (58) is embedded into the first positioning annular groove (63) to position the first plastic core barrel (2).

8. A fiber optic line connector as defined in claim 7, wherein: first elastic buckling bodies (582) are formed on two sides of the first limiting seat (58), first buckling groove bodies (561) are formed on two sides of the first buckling groove (56), and the first elastic buckling bodies (582) are buckled and fixed with the first buckling groove bodies (561).

9. A fiber optic line connector as claimed in any one of claims 1 to 4, wherein: the plastic seat (1) is provided with a second step-shaped core hole (15) penetrating through the front end face along the rear end face of the plastic seat forwards, the rear end of the first plastic core barrel (2) is provided with a second O-shaped ring (21) and a second positioning ring groove (22) positioned at the rear end of the second O-shaped ring (21), and the first plastic core barrel (2) is penetrated in the second step-shaped core hole (15) and is assembled with the second step-shaped core hole (15) in a sealing way through the second O-shaped ring (21); the plastic seat (1) upper end face is also provided with a second buckling groove (16) which penetrates through the second step-shaped core hole (15) and is in a half square frame shape, a second limit seat (17) is also buckled and fixed in the second buckling groove (16) of the lower end face of the plastic seat (1), and a second limit convex part (171) formed in the second limit seat (17) is embedded into the second positioning ring groove (22) to position the first plastic core barrel (2).

10. A fiber optic line connector as claimed in claim 9, wherein: second elastic buckling bodies (172) are formed on two sides of the second limiting seat (17), second buckling groove bodies (161) are formed on two sides of the second buckling groove (16), and the second elastic buckling bodies (172) are buckled and fixed with the second buckling groove bodies (161).