CN114034710A

CN114034710A - Auxiliary detection device for optical fiber connector

Info

Publication number: CN114034710A
Application number: CN202111347973.9A
Authority: CN
Inventors: 龚洋洋; 毛天宇; 毛梦芸
Original assignee: YINGTAN HEXING FIBRE COMMUNICATION COMPONENTS CO LTD
Current assignee: YINGTAN HEXING FIBRE COMMUNICATION COMPONENTS CO LTD
Priority date: 2021-11-15
Filing date: 2021-11-15
Publication date: 2022-02-11
Anticipated expiration: 2041-11-15
Also published as: CN114034710B

Abstract

The invention relates to the technical field of communication, in particular to an auxiliary detection device for an optical fiber connector, which comprises a connector and optical fibers, wherein jacks are arranged on two sides of the connector, the diameter of each jack is larger than that of each optical fiber, a detection mechanism and a cooling mechanism are arranged in the connector, and the auxiliary detection device has the advantages that: through the detection mechanism who sets up, two sets of optic fibre are in the butt joint of the inside completion of connector, start positive and negative motor and drive the lead screw when needs joint department detect and rotate, later the lead screw drives nut linear motion, hollow block moves along with the motion of nut, later make the bottom that hollow block moved two sets of optical fiber joint departments, later first cylinder drives the apron and rises, camera this moment rises thereupon, later the camera can be recorded the state of joint department, later the staff watches the video recording, be favorable to detecting joint department through this method.

Description

Auxiliary detection device for optical fiber connector

Technical Field

The invention relates to the technical field of communication, in particular to an auxiliary detection device for an optical fiber connector.

Background

The optical fiber is a shorthand of optical fiber, is a fiber made of glass or plastic, can be used as a light conduction tool, and is divided into a single-mode optical fiber and a multimode optical fiber, wherein the central glass core of the single-mode optical fiber is very thin (the core diameter is generally 9 or 10 μm), and only one mode of optical fiber can be transmitted, so that the intermodal dispersion of the single-mode optical fiber is very small, and the single-mode optical fiber is suitable for remote communication.

The optical fiber connector is a device for detachable (movable) connection between optical fibers, and precisely butt-joints two end faces of the optical fibers so as to maximally couple light energy output by a transmitting optical fiber into a receiving optical fiber and minimize the influence on a system caused by the optical fiber connector intervening in an optical link, which is the basic requirement of the optical fiber connector.

The existing optical fiber connector is lack of a detection device inside, when the joint of two groups of optical fibers is damaged, the outside cannot know whether the inside of the optical fiber connector is damaged or not because the detection device is not available; and when the two groups of optical fibers are connected in the connector, the temperature of the joint of the two groups of optical fibers is higher than that of other positions, and a mechanism for cooling the joint is absent.

Disclosure of Invention

The invention aims to solve the defects in the prior art and provides an auxiliary detection device for an optical fiber connector.

In order to achieve the purpose, the invention adopts the following technical scheme:

the design is an auxiliary detection device for an optical fiber connector, which comprises a connector and optical fibers, wherein sockets are arranged on two sides of the connector, the diameter of each socket is larger than that of each optical fiber, and a detection mechanism and a cooling mechanism are arranged inside the connector.

Preferably, the detection mechanism comprises a positive and negative motor, a groove is formed in one side, located on the positive and negative motor, of an inner cavity of the connector, a lead screw is arranged on one side of the groove, an output end of the positive and negative motor is connected with the lead screw, a nut is connected to one side of the lead screw, a hollow block is connected to one side of the nut, first air cylinders are arranged on two sides of the inner cavity of the hollow block, a cover plate is connected to the top of the first air cylinder, a camera is mounted at the top of the cover plate, a connecting bin is arranged on one side, located on the camera, of the top of the cover plate, an electric push rod is mounted inside the connecting bin, a sliding chute is formed in the top of the connecting bin, a slide block is connected to one side of the electric push rod and located inside the sliding chute, a movable plate is connected to the top of the slide block, a second air cylinder is connected to the top of the movable plate, and a second air cylinder is rotatably connected to the middle position of the movable plate at the top of the movable plate, the top of second cylinder is connected with the brush, and the bottom in the second cylinder outside is provided with the gear, the inside of connecting the storehouse is fixed with the rack that mutually supports with the gear.

Preferably, one side of connecting the storehouse is provided with the bin outlet, one side that the top of connecting the storehouse is located the spout is provided with the through-hole, the figure of through-hole is the multiunit, the both sides of connecting the storehouse top are provided with the slope baffle.

Preferably, cooling mechanism is including being located the inside water tank of hollow block, the top of hollow block inner wall is provided with the hollow tube, the suction pump is installed at the top of water tank, the inside of water tank is provided with runs through the suction pump and extends to the inside hose of hollow block, the top of hollow block outer wall is provided with atomizer, one side of hollow tube is connected with the slope pipe, the end of slope pipe is located atomizer's inside, one side of hollow block bottom is connected with the motor storehouse, the internally mounted in motor storehouse has the motor, the top of motor is connected with the pivot, the top of pivot is connected with the fan, the top in motor storehouse is provided with the vent.

Preferably, the cameras are high-definition cameras, and the number of the cameras is three.

Preferably, one side that the inside of connector 1 is located socket 3 is provided with support frame 8, the figure of support frame 8 is two sets of, two sets of support frame 8 passes through hinge rotation and connects, and is two sets of the outside of support frame 8 is provided with the hasp, the inside of support frame 8 is provided with insertion groove 13, and the inner wall of insertion groove 13 is provided with electromagnetism spout 12, the inside sliding connection of electromagnetism spout 12 has electromagnetism slider 11, and one side of electromagnetism slider 11 is provided with flexible piece 14, and the inside of flexible piece 14 is provided with reset spring.

Preferably, the top of water tank is provided with the water inlet, the inside of water inlet is provided with the sealing plug, the sealing plug is the silica gel material.

Preferably, an electromagnetic valve is arranged outside the drain pipe, and antirust paint is coated outside the electromagnetic valve.

The auxiliary detection device for the optical fiber connector has the advantages that:

1. through the arranged detection mechanism, the two groups of optical fibers are butted in the connector, when the joint is required to be detected, the positive and negative motors are started to drive the screw rod to rotate, then the screw rod drives the nut to do linear motion, the hollow block moves along with the movement of the nut, then the hollow block moves to the bottom of the two groups of optical fiber joints, then the first air cylinder drives the cover plate to ascend, the camera at the moment ascends along with the cover plate, meanwhile, under the mutual matching action of the electromagnetic sliding block and the electromagnetic sliding groove, the optical fibers are rotated, then the state of the joint can be recorded by the camera, no dead angle camera shooting is formed, then a worker watches a video, the detection of the joint is facilitated through the method, but dust can be attached to the optical fibers in the connector, the second air cylinder is started to drive the hairbrush to ascend, the hairbrush is facilitated to be contacted with the joint, then the electric push rod is started to enable the sliding block to slide in the sliding groove, then make the brush in joint department round trip movement, meanwhile under the effect of gear and rack mutually supporting, when the brush removes, the gear drives the brush and rotates, improves the effect of clearance, is favorable to cleaning the dust of joint department, later the dust drops into the inside of being connected the storehouse through spout and through-hole, is favorable to collecting the dust.

2. Through the arranged cooling mechanism, water can be injected into the water tank through the water inlet when the cover plate rises, then the water pump is started to enable water in the water tank to enter the hollow pipe through the hose, then the water in the hollow pipe enters the atomizing nozzle along the inclined pipe, then the atomizing nozzle is started to facilitate atomizing and spraying of liquid water to cool the joint, then the electromagnetic valve is started to open the drain pipe, the water in the water tank enters the inside of the water squeezing chamber from the drain pipe, then the electric lifting column is started to drive the squeezing plate to rise rapidly, when the squeezing plate rises, the water in the water squeezing chamber can be squeezed, then the squeezed water is sprayed out from the spray pipe, the squeezed water has certain pressure, dust on the optical fibers can be washed away, water can be sprayed to other parts of the optical fibers except the joint, and then the sprayed water stain water is stored on the surfaces of the optical fibers for a short time (the sprayed residual water is discharged from a water outlet in the connector), the optical fiber cooling fan is beneficial to heat dissipation of optical fibers, then the motor is started to drive the rotating shaft to rotate, the rotating shaft drives the fan to rotate rapidly, water stains on the surfaces of the optical fibers are beneficial to evaporation, heat can be taken away by evaporation, and the cooling and heat dissipation effects of the optical fibers are further improved.

Drawings

FIG. 1 is a schematic view of the overall structure proposed by the present invention;

FIG. 2 is a schematic diagram of the internal structure of the groove according to the present invention;

FIG. 3 is a schematic view of the internal structure of the hollow block according to the present invention;

FIG. 4 is a schematic view of the structure at position A according to the present invention;

FIG. 5 is a schematic view of the internal structure of the motor chamber and the cylinder according to the present invention;

FIG. 6 is a schematic view of a partially enlarged structure of FIG. 5 according to the present invention;

fig. 7 is a schematic structural diagram of the support frame according to the present invention.

In the figure: 1. a connector; 2. an optical fiber; 3. a socket; 4. a positive and negative motor; 401. a groove; 402. a screw rod; 403. a nut; 404. a hollow block; 405. a first cylinder; 406. a cover plate; 407. a camera; 408. a connecting bin; 409. an electric push rod; 410. a chute; 411. a slider; 412. moving the plate; 413. a second cylinder; 414. a brush; 5. a water tank; 501. a hollow tube; 502. a water pump; 503. a hose; 504. an atomizing spray head; 505. an inclined tube; 506. a motor compartment; 507. a motor; 508. a cylinder; 509. a water squeezing chamber; 510. a nozzle; 511. a rotating shaft; 512. a fan; 513. an electric lifting column; 514. a pressing plate; 515. a drain pipe; 6. a through hole; 7. an inclined baffle plate; 8. a support frame; 9. a rack; 10. a gear; 11. an electromagnetic slider; 12. an electromagnetic chute; 13. inserting the groove; 14. a telescopic block.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc., indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance. In the description of the present invention, it should be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "disposed" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. Specific meanings of the above terms in the present invention will be understood as specific cases by those of ordinary skill in the art, and embodiments thereof will be described below based on the overall structure of the present invention.

Referring to fig. 1-6, an auxiliary detection device for an optical fiber connector comprises a connector 1 and an optical fiber 2, wherein two sides of the connector 1 are provided with sockets 3, the diameter of the sockets 3 is larger than that of the optical fiber 2, and a detection mechanism and a cooling mechanism are arranged inside the connector 1; by providing the insertion opening 3, it is possible to facilitate insertion of the optical fiber 2 into the interior of the connector 1 through the insertion opening 3 and to complete the mating inside the connector 1.

Wherein, the detection mechanism comprises a positive and negative motor 4, a groove 401 is arranged at one side of the positive and negative motor 4 in the inner cavity of the connector 1, a screw 402 is arranged at one side of the groove 401, the output end of the positive and negative motor 4 is connected with the screw 402, a nut 403 is connected with one side of the screw 402, a hollow block 404 is connected with one side of the nut 403, first air cylinders 405 are arranged at two sides of the inner cavity of the hollow block 404, a cover plate 406 is connected with the top of the first air cylinder 405, a camera 407 is installed at the top of the cover plate 406, a connecting bin 408 is arranged at one side of the camera 407 at the top of the cover plate 406, an electric push rod 409 is installed inside the connecting bin 408, a chute 410 is arranged at the top of the connecting bin 408, a slide block 411 is connected with one side of the electric push rod 409, the slide block 411 is arranged inside the chute 410, a movable plate 412 is connected with the top of the slide block 411, a second air cylinder 413 is connected with the top of the movable plate 412, and a second air cylinder 413 is rotatably connected with the middle position of the top of the movable plate 412, the top of the second cylinder 413 is connected with a brush 414, the bottom end of the outer side of the second cylinder 413 is provided with a gear 10, and a rack 9 matched with the gear 10 is fixed inside the connecting bin 408;

through the arranged detection mechanism, the two groups of optical fibers 2 are butted in the connector 1, when the joint part needs to be detected, the positive and negative motors 4 are started to drive the screw rod 402 to rotate, then the screw rod 402 drives the nut 403 to do linear motion, the hollow block 404 moves along with the movement of the nut 403, then the hollow block 404 moves to the bottom of the joint part of the two groups of optical fibers 2, then the first air cylinder 405 drives the cover plate 406 to ascend, the camera 407 ascends along with the cover plate, then the state of the joint part can be recorded by the camera 407, then a worker watches the video, the detection of the joint part is facilitated by the method, but dust can be attached to the optical fibers 2 in the connector 1, the second air cylinder 413 is started to drive the brush 414 to ascend, the brush 414 is facilitated to be contacted with the joint, then the electric push rod 409 is started to enable the sliding block 411 to slide in the sliding chute 410, and then the brush 414 moves back and forth at the joint part, meanwhile, under the mutual matching effect of the gear 10 and the rack 9, when the brush 414 moves, the gear 10 drives the brush 414 to rotate, the cleaning effect is improved, the cleaning of dust at the joint is facilitated, and then the dust drops into the interior of the connecting bin 408 through the chute 410 and the through hole 6, so that the dust collection is facilitated.

Wherein, one side of the connecting bin 408 is provided with a discharge outlet, one side of the top of the connecting bin 408, which is positioned on the chute 410, is provided with a plurality of groups of through holes 6, and two sides of the top of the connecting bin 408 are provided with inclined baffles 7; through the through-hole 6 that sets up, be favorable to making clear dust pass through-hole 6 and get into the inside of connecting storehouse 408, through the slope baffle 7 that sets up, be convenient for prevent that the dust from dropping other outsides outside connecting storehouse 408, through the bin outlet that sets up, be favorable to connecting the dust discharge of collecting in the storehouse 408.

The cooling mechanism comprises a water tank 5 positioned inside a hollow block 404, a hollow pipe 501 is arranged at the top of the inner wall of the hollow block 404, a water suction pump 502 is installed at the top of the water tank 5, a hose 503 which penetrates through the water suction pump 502 and extends into the hollow pipe 501 is arranged inside the water tank 5, an atomizing spray nozzle 504 is arranged at the top of the outer wall of the hollow block 404, an inclined pipe 505 is connected to one side of the hollow pipe 501, the tail end of the inclined pipe 505 is positioned inside the atomizing spray nozzle 504, a motor bin 506 is connected to one side of the bottom of the hollow block 404, a motor 507 is installed inside the motor bin 506, a rotating shaft is connected to the top of the motor 507, a fan 508 is connected to the top of the rotating shaft, and a vent 509 is arranged at the top of the motor bin 506;

through the arranged cooling mechanism, when the cover plate 406 rises, water can be injected into the water tank 5 through the water inlet, then the water pump 502 is started to enable water in the water tank 5 to enter the hollow pipe 501 through the hose 503, then the water in the hollow pipe 501 enters the atomizing spray head 504 along the inclined pipe 505, then the atomizing spray head 504 is started to facilitate the atomizing and discharging of liquid water to reduce the temperature of the joint, then the electromagnetic valve is started to open the drain pipe 515, the water in the water tank 5 enters the inside of the water squeezing chamber 509 from the drain pipe 515, then the electric lifting column 513 is started to drive the squeezing plate 514 to rise rapidly, when the squeezing plate 514 rises, the water in the water squeezing chamber 509 can be squeezed, then the squeezed water is sprayed out from the spray pipe 510, the squeezed water has certain pressure, not only dust on the optical fiber can be washed, but also water can be sprayed to other parts of the optical fiber except the joint, then the spun water stain is kept on the surface of the optical fiber for a short time (the spun residual water is discharged from a water outlet in the connector 1), so that the heat dissipation of the optical fiber is facilitated, then the motor 507 is started to drive the rotating shaft 511 to rotate, the rotating shaft 511 drives the fan 512 to rotate rapidly, the evaporation of the water stain on the surface of the optical fiber is facilitated, the heat can be taken away by the evaporation, and the cooling and heat dissipation effects on the optical fiber are further improved.

The cameras 407 are high-definition cameras, and the number of the cameras 407 is three; through setting up camera 407 into high definition digtal camera and set up the multiunit, be convenient for improve the shooting effect to optic fibre 2 joint department.

The connector comprises a connector 1, wherein support frames 8 are arranged on one side, located on a socket 3, of the interior of the connector 1, the number of the support frames 8 is two, the two support frames 8 are rotatably connected through hinges, lock catches are arranged on the outer sides of the two support frames 8, an insertion groove 13 is formed in the support frame 8, an electromagnetic sliding groove 12 is formed in the inner wall of the insertion groove 13, an electromagnetic sliding block 11 is connected to the interior of the electromagnetic sliding groove 12 in a sliding mode, a telescopic block 14 is arranged on one side of the electromagnetic sliding block 11, and a reset spring is arranged in the telescopic block 14;

pass insertion groove 13 through the optic fibre that sets up, later merge two sets of support frames 8 under the effect of hasp, meanwhile under reset spring's effect, cooperation flexible piece 14 is just fixed to the optic fibre, later under the effect of electromagnetism slider 11 and electromagnetism spout 12 mutually supporting, rotates the optic fibre, not only makes the cooling effect better, is 360 degrees no dead angles shooting simultaneously, and then has improved the accuracy that detects greatly.

Wherein, the top of the water tank 5 is provided with a water inlet, the inside of the water inlet is provided with a sealing plug, and the sealing plug is made of silica gel; water is convenient for add to the inside of water tank 5 through the water inlet that sets up, through the silica gel sealing plug that sets up, is convenient for block up the water inlet, prevents that the water in the water tank 5 from spilling.

Wherein, the outside of the drain pipe 515 is provided with an electromagnetic valve, and the outside of the electromagnetic valve is coated with antirust paint; the drain pipe 515 is opened and closed conveniently by the arranged electromagnetic valve.

The working principle is as follows: inserting the optical fiber 2 into the connector 1 through the socket 3, then completing the butt joint of the two groups of optical fibers 2 in the connector 1, when the joint detection is required, starting the positive and negative motor 4 to drive the screw rod 402 to rotate, then the screw rod 402 drives the nut 403 to move linearly, the hollow block 404 moves along with the movement of the nut 403, then moving the hollow block 404 to the bottom of the joint of the two groups of optical fibers 2, then driving the cover plate 406 to ascend by the first air cylinder 405, then driving the camera 407 to ascend, then recording the state of the joint by the camera 407, then watching the video by a worker, detecting the joint by the method, watching whether the joint has a fault, but the optical fiber 2 is also stained with dust after the internal time of the connector 1 is long, and solving the method is that starting the second air cylinder 413 to drive the brush 414 to ascend to make the brush 414 contact with the joint, then, an electric push rod 409 is started to enable a sliding block 411 to slide in a sliding groove 410, then a brush 414 is enabled to move back and forth at a joint to clean dust at the joint, the dust falls into a connecting bin 408 through the sliding groove 410 and a through hole 6 to collect the dust, water can be injected into the water tank 5 through a water inlet when a cover plate 406 rises, then a water pump 502 is started to enable water in the water tank 5 to enter the hollow pipe 501 through a hose 503, then the water in the hollow pipe 501 enters the atomizing nozzle 504 along an inclined pipe 505, then the atomizing nozzle 504 is started to atomize and spray liquid water to cool the joint, then an electromagnetic valve is started to open a drain pipe 515, the water in the water tank 5 enters the water squeezing chamber 509 from the drain pipe 515, then an electric lifting column 513 is started to drive the squeezing plate 514 to rise rapidly, and when the squeezing plate 514 rises, water in the water squeezing chamber 509 can be squeezed, later by the spun water blowout from spray tube 510, the extrusion spun water has certain pressure, not only can wash the dust on the optic fibre, and can to the optic fibre other positions except that connect the water spray, then spun water stain water is short-lived on the surface of optic fibre and is preserved, the spun surplus moisture is discharged from the outlet in connector 1, realize the heat dissipation to the optic fibre, later starter motor 507 drives pivot 511 and rotates, pivot 511 drives fan 512 fast rotation, make the water stain evaporation on optic fibre surface, the evaporation is taken away the heat and is further improved the cooling radiating effect to the optic fibre.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.

Claims

1. The utility model provides an optical fiber connector is with supplementary detection device, includes connector (1), optic fibre (2), its characterized in that: the both sides of connector (1) are provided with socket (3), the diameter of socket (3) is greater than the diameter of optic fibre (2), the inside of connector (1) is provided with detection mechanism and cooling mechanism.

2. The auxiliary detection device for the optical fiber connector according to claim 1, wherein the detection mechanism comprises a positive and negative motor (4), a groove (401) is arranged on one side of the positive and negative motor (4) in the inner cavity of the connector (1), a lead screw (402) is arranged on one side of the groove (401), the output end of the positive and negative motor (4) is connected with the lead screw (402), a nut (403) is connected with one side of the lead screw (402), a hollow block (404) is connected with one side of the nut (403), first air cylinders (405) are arranged on two sides of the inner cavity of the hollow block (404), a cover plate (406) is connected with the top of the first air cylinders (405), a camera (407) is mounted on the top of the cover plate (406), a connection bin (408) is arranged on one side of the cover plate (406) which is located on the camera (407), the utility model discloses a portable electronic device, including connection storehouse (408), the internally mounted of connection storehouse (408) has electric putter (409), the top of connecting storehouse (408) is provided with spout (410), one side of electric putter (409) is connected with slider (411), slider (411) are located the inside of spout (410), the top of slider (411) is connected with movable plate (412), the intermediate position department at movable plate (412) top rotates and is connected with second cylinder (413), the top of second cylinder (413) is connected with brush (414), and the bottom in second cylinder (413) outside is provided with gear (10), the inside of connecting storehouse (408) is fixed with rack (9) of mutually supporting with gear (10).

3. The auxiliary detection device for the optical fiber connector is characterized in that a discharge opening is formed in one side of the connecting bin (408), through holes (6) are formed in one side, located on the sliding groove (410), of the top of the connecting bin (408), the number of the through holes (6) is multiple, and inclined baffles (7) are arranged on two sides of the top of the connecting bin (408).

4. The auxiliary detection device for the optical fiber connector according to claim 1, wherein the cooling mechanism comprises a water tank (5) located inside a hollow block (404), a hollow pipe (501) is arranged at the top of the inner wall of the hollow block (404), a water pump (502) is installed at the top of the water tank (5), a hose (503) penetrating through the water pump (502) and extending to the inside of the hollow pipe (501) is arranged inside the water tank (5), an atomizing nozzle (504) is arranged at the top of the outer wall of the hollow block (404), an inclined pipe (505) is connected to one side of the hollow pipe (501), the tail end of the inclined pipe (505) is located inside the atomizing nozzle (504), a motor chamber (506) is connected to one side of the bottom of the hollow block (404), a motor (507) is installed inside the motor chamber (506), and a cylinder (508) is arranged at the top of the motor chamber (506), the inside of drum (508) is provided with crowded hydroecium (509), the both sides at crowded hydroecium (509) top are provided with spray tube (510), the top of motor (507) is connected with pivot (511), pivot (511) run through motor storehouse (506) and crowded hydroecium (509) and are connected with fan (512), the inner wall fixedly connected with diaphragm of motor storehouse (506), electronic lift post (513) are installed to the top of diaphragm, the output of electronic lift post (513) extends to the inside of crowded hydroecium (509) and is connected with stripper plate (514), one side of water tank (5) is connected with and runs through drum (508) and extends to inside drain pipe (515) of crowded hydroecium (509).

5. The auxiliary detection device for the optical fiber connector as claimed in claim 2, wherein the cameras (407) are high-definition cameras, and the number of the cameras (407) is three.

6. The auxiliary detection device for the optical fiber connector is characterized in that a support frame (8) is arranged on one side, located on the socket (3), of the interior of the connector (1), the number of the support frames (8) is two, the two support frames (8) are connected in a rotating mode through hinges, a lock catch is arranged on the outer side of each support frame (8), an insertion groove (13) is formed in the interior of each support frame (8), an electromagnetic sliding groove (12) is formed in the inner wall of each insertion groove (13), an electromagnetic sliding block (11) is connected to the interior of each electromagnetic sliding groove (12) in a sliding mode, a telescopic block (14) is arranged on one side of each electromagnetic sliding block (11), and a reset spring is arranged in the telescopic block (14).

7. The auxiliary detection device for the optical fiber connector is characterized in that a water inlet is formed in the top of the water tank (5), a sealing plug is arranged inside the water inlet, and the sealing plug is made of silica gel.

8. The auxiliary detection device for the optical fiber connector is characterized in that an electromagnetic valve is arranged outside the drain pipe (515), and antirust paint is coated on the outside of the electromagnetic valve.