CN213091943U - Optical fiber movable connector - Google Patents

Abstract

The utility model discloses an optical fiber connector, which comprises a micro optical cable component and an outer sleeve component, wherein the micro optical cable component is arranged inside the outer sleeve component; the miniature optical cable component comprises a conical end cap, a ferrule, a tail handle, a spring, a supporting tube, an inner corrugated tube and an optical cable which are sequentially arranged; the jacket assembly comprises a jacket, a rotating cover and an optical cable protection tube. The beneficial effects of the utility model reside in that, it is more convenient to compare the mode of pre-buried poling ware in the wiring scheme of traditional optic fibre to the home, and is simple, practices thrift the cost. The utility model discloses a miniature optical cable subassembly still can work as the poling ware and use, but the hand push is drawn, also can the machine lay, relative resources are saved. In addition, the miniature optical cable component and the outer sleeve component are convenient to disassemble and assemble and can be repeatedly used.

Description

Optical fiber movable connector

Technical Field

The utility model relates to an optical fiber connector that communication trade was put in the pipeline inner tube cloth, this product mainly used lay and enter the family in the miniature sub-pipe of pipeline that optic fibre arrived the family, or be used for FTTX to the use that the equipment side penetrated, replace traditional machinery to continue (cold joint) and the butt fusion to continue the one-tenth end scheme of (hot melt), belong to communication network equipment technical field.

Background

Prior application publication CN203117462U discloses that, at present, a similar solution in the market is to use a single-core optical cable for cold-splicing or hot-melting to connect the optical cable and the connector to the access device. The cold joint is an optical fiber pre-buried in a V groove of the optical fiber connector, an optical cable cut by an optical fiber cutting knife is butted in the V groove through matching fluid after being stripped, transmission is achieved, the quality of data is achieved by the matching fluid, however, the matching fluid can have the problem of volatilization along with the lapse of time, the optical fiber is a breakpoint in the connector, and hidden danger is very large. The hot melting is realized by welding the connector or the pigtail with the connector and the optical cable together by the welding machine to realize transmission, but the welding machine has extremely high requirements on the site and the use temperature, and the welding machine has higher cost and is limited in application. Although the end melting machine combined on the basis of the two is arranged behind the optical fiber connector, the optical fiber connector essentially adopts pre-embedded through quick connection (cold connection), only the processes of detecting and oxidizing the cut through end face are added, and the 3D requirement of the end face meets the end face requirement of the connector, but because the optical fiber cannot be fixed at one end of the inserting core, the optical fiber actually protrudes out of the end face of the inserting core by 0.5-1 mm, so that the inserting core is prevented from being butted during coupling, and the optical fiber retracts in one end of the inserting core, the scheme only improves the problem of the through quick connection end face, and slows down the scratching probability of the optical fiber at the coupling end.

In the market, there is also a pipe penetrating connector, which is assembled by using a pipe penetrating device in a reserved pipeline to penetrate a semi-finished connector into a pipe. The semi-finished product is a connector prefabricated in a factory, and the scheme is only suitable for pipe holes which are relatively thick and pipe penetrating devices are reserved in the pipe holes. In practical application, the fact that a pipe penetrating device frequently breaks a semi-finished connector in the pulling process due to the fact that a large number of cables are arranged in a pipeline leads to the fact that the open line is required to be changed sometimes, the outer diameter of the guide part of the smallest pipe penetrating device on the market is also 6mm, the length is increased, the length of the semi-finished connector is added, the whole length and the outer diameter are large, the diameter of an individual pipe hole is not lower than 14mm, the scheme is required to be found in post-processing practice to be suitable for being arranged in a newly-built individual pipe with the pipe penetrating device, and cost is relatively high.

Summarizing, above-mentioned technical solution all has common problem, lays in the pipeline and needs to reserve the poling ware and come the cable pulling or put the cable with the mode of air-blowing, needs special pipeline, and the tube hole is thick and big, is unfavorable for the miniaturization of distribution box, and corresponding utilization ratio that has also reduced public space.

The utility model discloses an optical fiber connector interface specification, because unified in order using, apply the interface standard of current conventional connector, especially the LC type, its size is very little, for being compatible, divide into overcoat subassembly and miniature optical cable subassembly with it, the interface of overcoat subassembly corresponds LC's overall dimension, miniature optical cable subassembly is with the lock pin, a spring, the optical cable combination is a whole together, miniature optical cable subassembly dress constitutes a complete LC interface in overcoat subassembly the inside, because LC type connector size is very little, miniature optical cable subassembly is corresponding littleer, this has increased the processing degree of difficulty of spare part, the adjustment all needs to be considered to the assembly degree of difficulty and original production technology and equipment, the intensity of hand push optical cable in addition, toughness and bend radius's problem.

Disclosure of Invention

Aiming at the defects of the prior art, the utility model aims at providing an optical fiber movable connector, aiming at the defects of the prior product, the working principle of the traditional cable tube penetrating device and the air-blowing optical cable tube penetrating device is used for reference, the connector is pulled by the original tube penetrating device or the tube penetrating device is pushed by hand to be conducted, the connector is miniaturized, the optical cable can be pushed by hand, the connector is divided into a micro optical cable component and an outer sleeve component, the micro optical cable component is penetrated by a micro sub-tube with the inner diameter of 5mm for the original air-blowing optical cable, only two hands are needed to be manually used at the input end, generally, the optical cable is pushed by the side of a distribution unit, the inner diameter of the micro sub-tube is distributed according to the standard of the air-blowing optical cable distribution and the bending radius of 300mm, and; or vice versa from the user side. The housing assembly is removable, reusable, and blind-mate, with the connector supporting APC, PC/UPC applications. The tubular product of wiring not only can be miniaturized like this, need not reserve the poling device in the tube hole, also need not the consumption of consumptive materials such as heat sealing machine, end melting machine, optic fibre cutting knife, corresponding reduction cost and later stage construction team equipment investment and labour cost, improvement work efficiency.

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

an optical fiber connector comprises a micro optical cable component and an outer sleeve component, wherein the micro optical cable component is arranged inside the outer sleeve component; the miniature optical cable component comprises a conical end cap, a ferrule, a tail handle, a spring, a supporting tube, an inner corrugated tube and an optical cable which are sequentially arranged; the jacket assembly comprises a jacket, a rotating cover and an optical cable protection tube.

As a preferred scheme, the front end of the outer side of the conical end cap is of a conical structure, the upper portion and the lower portion of the outer side of the conical end cap are provided with invagination grooves for inserting and pulling the conical end cap, a round blind hole is formed in the inner portion of the conical end cap, a single-sided third boss is arranged in the blind hole, and the size of the third boss and the size of the outermost side of the round blind hole are smaller than.

According to the preferable scheme, a cylindrical stepped hole is dug in the supporting tube, a tail handle is sleeved on a spring of the cylindrical hole at the front end, a circular inserting core is arranged in a circular hole in the front end conical surface of the tail handle, a conical end cap is sleeved outside the inserting core to protect the end surface of the inserting core, a boss at the tail end of the tail handle is assembled with a cylindrical sunken stepped hole in the middle of the supporting tube, the front end surface of the cylindrical sunken stepped hole in the middle is used for limiting the spring, the rear end surface of the cylindrical sunken stepped hole in the middle is used for limiting the inner surface of the boss at the tail end of the tail handle, a boss at the single surface of the front end of the tail handle is correspondingly assembled.

The lock pin is arranged at the front end of the tail handle, the spring is sleeved in the middle of the tail handle and placed in a cylindrical hole in the front of the supporting tube, the conical convex hull at the tail of the tail handle is buckled with the cylindrical hole in the middle of the supporting tube for limiting, and the cylindrical hole at the front end of the tail handle is provided with an extension boss matched with an upper open slot at the front end of the supporting tube for assembly.

As a preferred scheme, the front end of the outer sleeve is an external interface of the optical fiber connector, the tail part of the outer sleeve is a vertically thickened convex surface, the upper end surface of the outer side of the convex surface is provided with two bosses keeping a certain distance, the first boss is an oblique circular boss, the second boss is an arc transition boss, and the lower end surface of the outer sleeve is provided with a boss which is the same as the upper end surface of the outer sleeve; the convex surface is provided with an open slot with a certain size; the inclined circles of the upper sides and the lower sides of the four side surfaces of the convex surface and the first bosses corresponding to the upper sides and the lower sides are inclined planes.

Preferably, the rotating cover is in a C-shaped step shape and is of a large C structure and a small C structure, a first through hole and a second through hole are formed in the upper end surface and the lower end surface of the large C structure and correspond to each other from top to bottom, an inwards-concave trapezoidal groove is formed in the inner side of the first through hole, and the large trapezoidal surface faces outwards; the first through hole and the first boss form a rotating shaft, and the second through hole and the second boss are assembled in a limiting mode.

As a preferred scheme, a plurality of raised friction steps are arranged on two side faces of the small C-shaped structure and are in interference fit with the upper end and the lower end of the optical cable protection tube for assembly.

Preferably, the inside of the optical cable protection tube is a step through hole.

The beneficial effects of the utility model reside in that, in the principle of traditional poling ware, utilize current air-blown microtubule and lay the principle, with optic fibre connector as a poling ware and assemble again after passing through in the microtubule, it is more convenient, simple to compare the mode of pre-buried poling ware in the wiring scheme of traditional optic fibre to the home, practices thrift the cost. The utility model discloses a miniature optical cable subassembly still can work as the poling ware and use, but the hand push is drawn, also can the machine lay, relative resources are saved. In addition, the miniature optical cable component and the outer sleeve component are convenient to disassemble and assemble and can be repeatedly used.

Drawings

Fig. 1 is a sectional view of the structure of the present invention.

FIG. 2 is a schematic view of a micro fiber optic cable assembly.

Figure 3 is a cross-sectional view of a micro fiber optic cable assembly.

FIG. 4 is a schematic view of the outer sleeve and the rotary cap of the outer sleeve assembly.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

The general idea of the utility model is that on the principle of traditional poling device, utilize current air-blowing microtube and arrange the principle, with the optical fiber connector as a poling device and cross the technical solution who assembles again after in the microtube.

The head of traditional poling device comprises lead and cable, and the lead is sharp shape, and the centre has the through-hole to be convenient for the threading, crimping cable in the lead, and the cable is the metal or the plastic pipe that the pliability is good. The tube penetrating type multipurpose SC type connector in the prior art is characterized in that a traditional connector is made into a three-layer structure which comprises an outer shell, an inner sleeve and an optical cable assembly, an inserting core and the optical cable are used as the optical cable assembly, the inserting core and the optical cable are wrapped when the optical cable assembly penetrates through a tube, a tail sleeve is pulled to the tail end of the inserting core and is fixed at a certain distance, the inserting core and the optical cable assembly are sleeved in a through hole of a tube penetrating device and are fixed on the tube penetrating, a protective end cap is taken down after success, the optical cable assembly is pushed onto the tail sleeve to protect the optical cable, and then the protecting end cap is arranged. Due to the structural reason, the optical cable assembly cannot be miniaturized, the overall size is large due to the volume of the pulled pipe penetrating device, the tail sleeve cannot penetrate through the pipe after being mounted, and the phenomena that the outer sheath of the soft optical cable is broken due to friction or is damaged due to black grinding and the like occur in practical engineering application. And because this scheme compact structure causes and can't grind alone, can only pack into the inner race, shell, tail sleeve and grind the test, take off the shell after doing, pull out as the cover, destroy the inner race, the production link is very troublesome, the cost is also high, the on-the-spot use has the restriction to the sub-pipe size that passes through, still needs professional mounting tool, has restricted its application.

The utility model discloses a fibre-optical connector that describes utilizes current air-blowing microtubule and lays the principle in the principle of traditional poling ware, with fibre-optical connector as a poling ware and assemble again after passing through in the microtubule, compares the mode of pre-buried poling ware in the traditional optic fibre wiring scheme to the home more convenient, and is simple, practices thrift the cost. Including a miniature cable assembly 100 and an outer jacket assembly 200 that is internally mounted and is removable and reusable. The utility model discloses a miniature optical cable subassembly 100 still can work as the poling ware and use, but the hand push is drawn, also can the machine lay, relative resources are saved.

The miniature optical cable assembly integrates the functions of the optical fiber movable connector except for the external interface, and can be used for selecting and installing the inserting cores with different specifications according to requirements and matching the corresponding outer sleeve assembly for the external interface. The miniature optical cable assembly 100 consists of a conical end cap 101, a ferrule 102, a tail handle 103, a spring 104, a support tube 105, an inner corrugated tube 106 and an optical cable 107 in sequence; the outer sleeve assembly is composed of an outer sleeve 201, a rotary cover 202 and a cable protection tube 203 in sequence.

A cylindrical step hole is formed in the supporting tube 105 of the miniature optical cable assembly in a hollowed mode, a tail handle 103 is sleeved on a spring of the cylindrical hole at the front end, a circular hole is formed in the front end conical surface of the tail handle 103 and used for installing a circular insertion core 102, the insertion core 102 is sleeved with a conical end cap 101 to protect the end surface of the insertion core 102, a boss at the tail end of the tail handle 103 is assembled with a cylindrical sunken step hole in the middle of the supporting tube, the front end surface of the cylindrical sunken step hole in the middle is used for limiting a spring 104, the rear end surface of the cylindrical sunken step hole in the middle is used for limiting the inner surface of a boss at the tail end of the tail handle 103, a single-surface boss at the front end of the tail handle 103 is assembled with a groove.

The front end of the outer side of the conical end cap 101 is of a conical structure, the inner sunken grooves are formed in the outer side of the conical end cap up and down, the inner blind hole is a round blind hole, a single-side boss is arranged in the blind hole, the size of the boss and the size of the round hole on the outer side are smaller than that of the ferrule, the boss and the round hole on the outer side are used for locking the ferrule, and the inner sunken. The outer side of the insertion core arranged at the front end of the tail handle is provided with a single-side platform which is used for being matched with the single-side platform at the corresponding position of the outer sleeve side for use. The inner corrugated pipe is an inner straight through hole for placing optical fibers, the outer corrugated pipe is a large step circle, the inner surface of the large end is limited to the optical cable, the outer end surface is limited to be in contact with the limiting surface of the supporting pipe, and the small convex cylinder is provided with a plurality of concave bosses which are in contact with the inner wall of the optical cable. The optical cable is a round thickened reinforcing rib outer sheath, an extruded optical fiber or a coated optical fiber is arranged in the middle, and water-blocking ointment or other filling is filled between the extruded optical fiber and the coated optical fiber to form the optical cable similar to the traditional loose-tube optical fiber.

The jacket assembly 200 is comprised of a rotating cap 202 and a cable protection tube 203 mounted on a jacket 201. The front end of the outer sleeve 201 is an external interface of the optical fiber connector, the tail part of the outer sleeve is a vertically thickened convex surface, two bosses keeping a certain distance are arranged on the upper end surface of the outer side of each boss, the first boss 211 is an oblique circular boss, the second boss 212 is an arc transition boss, the lower end surface of each boss is provided with bosses which are the same as the upper end surface of each boss, and the bosses correspond to the bosses one to one; the two side surfaces are open slots 213 with a certain size, the upper side and the lower side of the four side surfaces and the inclined circles of the first bosses corresponding to the upper side and the lower side are inclined planes.

The rotary cover is in a C-shaped step shape and is of a large C structure and a small C structure, the rotary cover is hollowed and corresponds to each other, a first through hole 221 and a second through hole 222 are formed in the upper end face and the lower end face of the large C end, the upper end face and the lower end face correspond to each other, a sunken trapezoidal groove 223 is formed in the inner side of the first round hole, the large face of the trapezoidal groove faces outwards, the trapezoidal groove is in buffering transition with a first boss on the convex face of the tail portion of the outer sleeve, inclined faces at the two ends of the large trapezoidal face are convenient to mount in a blind mode, the first through hole and the first boss form a rotary shaft, the second through hole and a second boss are assembled in a limiting mode, the two end faces of the inner groove in the; and a plurality of raised friction steps are arranged on the two side surfaces of the small C end and are used as friction to be in interference fit with the upper end and the lower end of the large inner hole of the optical cable protection tube, and the planes at the transition positions of the large C end and the small C end limit the tail surface of the supporting tube of the micro optical cable assembly.

The inside step through-hole that is of optical cable protection tube 203, big hole and rotatory lid friction step assembly, little hole size is greater than the biggest overall dimension of miniature optical cable subassembly, uses when being convenient for final assembly, and optical cable protection tube exterior structure is with industry standard, and the connector afterbody bending protection shrink of being convenient for.

The utility model discloses a another advantage lies in, can be rapid pack into the overcoat subassembly with miniature optical cable subassembly and detain rotatory lid lock and pack into work such as grinding test in the connector grinding frock of corresponding specification, after the problem-free, open the rotatory lid and take out miniature optical cable subassembly and cover conical end cap protection connector terminal surface, the equal used repeatedly of each spare part, do not increase any equipment input, but rapid production.

After cutting the end face optical fiber of the core insert of the miniature optical cable assembly after curing, the miniature optical cable assembly is packed into a jacket assembly (without an optical cable protection tube) and pressed down a rotating cover to limit the end face of the tail part of a supporting tube of the miniature optical cable assembly, the rotating cover is provided with symmetrical round holes to be buckled and limited with the corresponding part of an arc surface of a shell, the joint limit position between the interior of the shell and the front end of a tail handle adopts an asymmetrical plane to limit, if the miniature optical cable assembly is reversely installed in the direction, the miniature optical cable assembly cannot be pushed to the bottom, the corresponding rotating cover cannot be covered, and the assembly is. And finally, putting the micro optical cable assembly into grinding equipment for grinding, after no problem is detected, propping against the front end of the shell, propping against the optical cable, turning over the rotary cover and opening the rotary cover, taking down the micro optical cable assembly, and sleeving the conical end cap on the rotary cover to finish the manufacture of the micro optical cable assembly.

During on-site construction, the top end of a miniature optical cable assembly is firstly placed into an air-blowing micro-tube with the outer diameter of 8mm and the inner diameter of 5mm, the micro optical cable assembly is placed in a laying environment according to the standard that the bending radius of the inner diameter of the air-blowing optical cable is 300mm, the optical cable is pushed manually to control the rhythm of hand pushing, the speed is slow and not fast, after the miniature optical cable assembly comes out from the other end, an optical cable protection tube is firstly sleeved and moved to the tail end, then an end cap at the position of an inserting core is pulled out from a symmetrical groove of a conical end cap, the miniature optical cable assembly is arranged in an outer sleeve assembly, the metal part of the miniature optical cable assembly is noticed to be provided with a long circular hole notch upwards, a spring sheet end or a lug at the front end of a. If the metal part of the micro optical cable assembly is not identified, the notch of the long circular hole is not related, the position of the connection limit between the inside of the shell in the outer sleeve assembly and the front end of the tail handle is limited by an asymmetric plane, if the micro optical cable assembly is reversely installed, the micro optical cable assembly cannot be pushed to the bottom, and the corresponding rotary cover cannot be covered, so that the assembly is suitable for blind installation, and the structure is generally applied to the end face connector of APC/PC/UPC. When the connector needs to be used repeatedly or a circuit is disassembled and assembled, the front end of the shell of the finished connector is only required to be propped against the position without the insertion core, the optical cable is propped, the outer sleeve component can be taken down, the conical end cap is sleeved to protect the end face of the insertion core, the optical cable protection tube is correspondingly taken down, the miniature optical cable component is pulled out of the original pipeline, and the step of penetrating the optical cable again is as described above.

Further, the utility model discloses an equal to change the guide head part of traditional cable type poling ware into miniature optic fibre connector, integrate together both, miniature optic fibre connector loading is as the metal head of poling ware at the front end of optical cable, the optical cable is the push-and-pull cable of similar poling ware, do not sacrifice cable intensity, toughness and optical cable curvature radius's prerequisite, draw the space in the middle of the circular shape cable of cross-section, endotheca extruded plastic optic fibre or coated optical fibre, optic fibre and sheath intussuseption are filled the oleamen that blocks water or other fillings, form similar traditional loose optical fibre, the thickness of oversheath is thicker than traditional soft optical cable, be convenient for protection optic fibre and protect the optic fibre as the enhancement original paper of optical cable. The tail of the supporting tube and the inner corrugated tube of the miniature optical fiber connector clamp the outer sheath of the optical cable from outside to inside and enable the outer sheath of the optical cable to be more tightly coated by the supporting tube and the inner corrugated tube through mechanical pressure, so that the mechanical performance of the optical cable is improved. When the insertion core is under coupling stress, the fiber is correspondingly retracted inwards, so that the problems of attenuation and enlargement or fiber breakage caused by stress bending of the optical fiber are avoided. Because the longest length from the wiring side to the user side of the optical fiber to the home is no more than dozens of meters, a pipe penetrating device does not need to be reserved in the cable for the wiring, and because the used micro sub-pipe for blowing air is used, the space is saved, the wiring cost is reduced, and the optical fiber cable has the advantages of being simple correspondingly during installation, low in cost and good in reliability compared with the traditional scheme. The miniature optical fiber movable connector can be used as a universal standard part, different inserting cores and jacket components can be selected according to different application scene requirements, and after the pipe penetration is successful, the corresponding connector jacket component is only required to be matched and installed according to requirements, for example, an LC connector uses an inserting core with the diameter of 1.25mm, and the jacket component uses an LC jacket component; the connector of the SC is an inserting core with 2.5mm, and the outer sleeve component is an outer sleeve component of the SC; but also can be repeatedly used, the assembly and disassembly are also convenient, and other specifications can be analogized.

Although the present invention has been described with reference to the embodiments, the embodiments are not intended to limit the present invention. Those skilled in the art can make various changes and modifications within the spirit of the present invention, but also within the scope of the invention. Therefore, the protection scope of the present invention should be defined by the claims of the present application.

Claims (8)

1. The optical fiber connector is characterized by comprising a miniature optical cable component and an outer sleeve component, wherein the miniature optical cable component is arranged in the outer sleeve component; the miniature optical cable component comprises a conical end cap, a ferrule, a tail handle, a spring, a supporting tube, an inner corrugated tube and an optical cable which are sequentially arranged; the jacket assembly comprises a jacket, a rotating cover and an optical cable protection tube.

2. The optical fiber connector according to claim 1, wherein the front end of the outer side of the conical end cap is of a conical structure, the upper and lower inner recessed grooves are formed in the outer side of the conical end cap for inserting and pulling the conical end cap, the inner part of the conical end cap is a circular blind hole, a single-sided third boss is arranged in the blind hole, and the outermost side of the third boss and the circular blind hole is smaller than the size of the ferrule for locking the ferrule.

3. An optical fiber connector according to claim 1, wherein the supporting tube is internally drawn to form a cylindrical stepped hole, a tail handle is sleeved on a spring of the cylindrical hole at the front end, a circular hole is formed in a conical surface at the front end of the tail handle to accommodate a circular ferrule, a conical end cap is sleeved outside the ferrule to protect the end face of the ferrule, a boss at the tail end of the tail handle is assembled with the cylindrical sunken stepped hole at the middle part of the supporting tube, the front end face of the cylindrical sunken stepped hole at the middle part limits the spring, the rear end face of the cylindrical sunken stepped hole at the middle part limits the inner face of the boss at the tail end of the tail handle, a boss at the front end of the tail handle is assembled corresponding to a groove formed in a single face of the supporting tube, and the.

4. The optical fiber connector according to claim 1, wherein the ferrule is mounted at the front end of the tail handle, the spring is sleeved in the middle of the tail handle and placed in a cylindrical hole at the front of the support tube, the conical convex hull at the tail of the tail handle is buckled with the cylindrical hole at the middle of the support tube for limiting, and the cylindrical hole at the front end of the tail handle is provided with an extension boss which is matched with an open slot at the upper part of the front end of the support tube for assembly.

5. The optical fiber connector as claimed in claim 1, wherein the front end of the outer sleeve is an external interface of the optical fiber connector, the tail part of the outer sleeve is a convex surface with an upper and a lower thickened parts, two bosses keeping a certain distance are arranged on the upper end surface of the outer side of the convex surface, the first boss is an oblique circular boss, the second boss is an arc transition boss, and the lower end surface of the first boss is provided with a boss the same as the upper end surface of the second boss; the convex surface is provided with an open slot with a certain size; the inclined circles of the upper sides and the lower sides of the four side surfaces of the convex surface and the first bosses corresponding to the upper sides and the lower sides are inclined planes.

6. The optical fiber connector as claimed in claim 1, wherein the rotating cover is in a C-shape step shape and has a large C-shaped structure and a small C-shaped structure, the upper end surface and the lower end surface of the large C-shaped structure are provided with a first through hole and a second through hole, the upper end surface and the lower end surface correspond to each other, the inner side of the first through hole is provided with an inward-recessed trapezoidal groove, and the large trapezoidal surface faces outwards; the first through hole and the first boss form a rotating shaft, and the second through hole and the second boss are assembled in a limiting mode.

7. The optical fiber connector as claimed in claim 6, wherein the small C-shaped structure has a plurality of raised friction steps on both sides for interference fit with the upper and lower ends of the cable protection tube.

8. The optical fiber connector of claim 1, wherein the cable protection tube has a stepped through hole inside.

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