CN112859241A - Optical fiber equipment with fiber cores rapidly corrected and butted - Google Patents

Abstract

The invention provides optical fiber equipment for quickly correcting and butting fiber cores, which comprises a reference box, a cable pipe and an optical fiber cable, wherein the cable pipe is transversely penetrated and connected in a rotating way in the reference box, the optical fiber cable is penetrated and arranged in the cable pipe, an installation cavity is arranged in the left side of the reference box, a linkage pipe is sleeved in the installation cavity and positioned outside the cable pipe, the outside of the linkage pipe is rotatably connected in the installation cavity, a cutting mechanism is horizontally penetrated and arranged on the front side and the rear side of the inside of the linkage pipe outside the cable pipe, a butting pipe which is positioned on the same horizontal line with the cable pipe is fixedly arranged on the right side of a blanking cavity in the reference box, a correcting box is fixedly connected on the left side of the butting pipe, rotatable baffles are movably arranged at the upper end and the lower end of the correcting box, and correcting plates capable of correcting the optical fiber cable are arranged at the upper ends of the baffles, the invention provides the optical fiber equipment, and the removed skin is not easy to recycle.

Description

Optical fiber equipment with fiber cores rapidly corrected and butted

Technical Field

The invention relates to the technical field of network optical fibers, in particular to optical fiber equipment with a fiber core capable of being rapidly corrected and butted.

Background

With the rapid development of power grid construction and the continuous improvement of the automation degree of power system equipment, an optical fiber power communication network is also developed unprecedentedly, the optical fiber network is a basic carrying network for optical fiber communication transmission, and the operation and maintenance of the optical fiber network usually need to manually carry out fiber jumping operation on site to realize butt-joint exchange among different optical fibers, but the manual operation method is time-consuming and labor-consuming due to the influence of various external factors, the complexity of manual switching operation and other factors.

Based on the above description, a chinese invention patent, publication (publication) No.: CN110989084B, which relates to an optical fiber device for fast correction and butt joint of fiber cores, comprising a reference box, a cable cavity, a cutting mechanism, a peeling mechanism and an independent correction mechanism, wherein the front and the back of the bottom of the reference box are provided with support legs, the cable cavity is arranged in the middle of the right side of the reference box, the cutting mechanism is arranged on the front of the inner cavity of the cable cavity, the peeling mechanism is arranged at the middle position of the inner cavity of the cable cavity, the independent correction mechanism is arranged on the back of the inner cavity of the cable cavity, the fiber core fast correction and butt joint optical fiber device adopts a complete peeling mode, the tightness of the sheath is properly adjusted in the peeling process, so that the sheath can be reused, namely, the cable can be wrapped in a mode after welding is completed, the peeling operation is carried out by adopting a mode of ensuring the integrity of the outermost protective sheath, and the sheath after peeling can be reused, at the same time, the inner core is sometimes prevented from being damaged during long stripping operations.

Through retrieval and analysis, the fact that the optical fiber is easy to rub by the peeling component in the process that the optical fiber is directly operated to enter the peeling mechanism results in damage of the optical fiber cable, and meanwhile, the cut cable skin is not easy to recover, so that the optical fiber equipment which is in butt joint with the fiber core and needs to be quickly corrected is further researched, and the problem is solved by providing the optical fiber equipment which is in butt joint with the fiber core and can be quickly corrected.

Disclosure of Invention

Technical problem to be solved

The invention aims to solve the problems that in the prior art, the optical fiber cable is easy to damage in the peeling process, and the removed skin is not easy to recover.

(II) technical scheme

The invention relates to a purpose and an effect of optical fiber equipment with a fiber core capable of being rapidly corrected and butted, which are achieved by the following specific technical means: an optical fiber device for rapid correction and butt joint of fiber cores comprises a reference box, a cable tube and an optical fiber cable, wherein the cable tube is transversely arranged in the reference box in a penetrating mode and is rotatably connected, the optical fiber cable is arranged in the cable tube in a penetrating mode, an installation cavity is arranged in the left side of the reference box, a linkage tube is sleeved in the installation cavity on the outer side of the cable tube, the linkage tube is rotatably connected in the installation cavity on the outer side of the linkage tube, a cutting mechanism is horizontally arranged in the linkage tube on the front side and the rear side of the outer side of the cable tube in a penetrating mode, a first ejector block for extruding the cutting mechanism is fixedly connected on the front side and the rear side of the cable tube in the linkage tube, a fixing box is fixedly connected on the upper end and the lower end of the outer side of the cable tube in the linkage tube, a first chute extending along the outer arc of the cable tube is arranged in, the utility model provides a spout one is interior to run through to be provided with the supporting rod that one end extends to cable pipe center, the inner wall center that cable pipe is located the installation cavity right side is equipped with the hollow groove of annular form, upper and lower end movable mounting has the movable plate that can control about in the hollow inslot, the benchmark case is located cable pipe right side and is equipped with the blanking chamber, blanking chamber bottom is equipped with the blanking breach, it has the butt joint pipe that is in same water flat line with cable pipe to be located blanking chamber right side fixed mounting in the benchmark case, butt joint pipe left side fixedly connected with corrects the box, it has rotatable baffle to correct the equal movable mounting of lower extreme on the box, the board of correcting of correctable optical fiber cable is installed.

Preferably, linking pipe outside fixedly connected with driven gear, drive gear rotate to be connected in the installation cavity, and the benchmark case is located the installation cavity upper end and is equipped with the breach, rotates between the breach left and right sides and is connected with drive gear one, and drive gear one is connected with driven gear transmission, and the benchmark incasement is installed servo motor, servo motor output shaft and a drive gear center pin fixed connection.

Preferably, shutdown mechanism is including the connecting block, cut into slices, the push rod runs through the cable pipe, the push rod is located the inboard one end fixedly connected with connecting block of cable pipe, the push rod is located the cable pipe outside and rotates and be connected with the gyro wheel, the gyro wheel diameter is greater than the push rod diameter, the push rod upper end is located the cable pipe outside and has cup jointed reset spring, the connecting block is close to cable pipe center one side and is equipped with V type opening, the equal fixedly connected with triangle-shaped section of lower extreme on the V type opening, the section is isosceles triangle-shaped, section base and the inboard fixed connection of V type opening, V type opening inboard is tangent with the optic fibre cable, tie point between the section waist limit is unanimous with optic fibre cable outside foreskin thickness to.

Preferably, the first ejector block is arc-shaped, the thickness of the first ejector block sequentially increases according to the rotation of the homeotropic needle, the clockwise extending tail end of the first ejector block is provided with a protruding stop block, a roller at the upper end of the push rod is connected with the first ejector block in a sliding mode, and the roller and the clockwise tail end protruding stop block of the first ejector block are cut into the deepest part of the outer sheath of the optical fiber cable when being connected.

Preferably, two cross-sections of kicking block are three horn shapes at right angle, two bottoms of kicking block are the hypotenuse face, two bottoms of kicking block equidistance rotates in proper order and is connected with the roller bearing, the supporting rod is located the extrusion piece of three horn shapes at fixedly connected with right angle in spout one, the supporting rod is located the intraductal one end fixedly connected with arc form clamp plate of cable, the equidistant movable mounting in proper order in arc clamp plate bottom has flexible universal ball, fixed box prolongs the terminal inside cavity that is equipped with of clockwise extension, the supporting rod runs through the cavity, and the supporting rod upper end is located fixedly connected with stripper plate in the cavity, the spring has been cup jointed between stripper plate and the cavity is close to cable pipe center one side, the extrusion piece hypotenuse face sets.

Preferably, the cable tube is provided with notch grooves parallel to the cable tube at the upper and lower ends thereof in the hollow groove, the cable tube is provided with three sliding grooves parallel to the cable tube at the upper and lower ends thereof in the center positions of the front and rear sides of the hollow groove, the movable plate is arc-shaped, the top of the movable plate is fixedly connected with gear teeth in sequence from left to right at equal intervals, the front and rear ends of the right side of the movable plate are fixedly connected with ejector rods parallel to the cable tube, the front and rear ends of the inner side of the movable plate are fixedly connected with sliders, the sliders are slidably connected with the inner parts of the three sliding grooves, the bottom of the movable plate is fixedly connected with an arc-shaped peeling plate, the peeling plate is slidably connected with the notch grooves correspondingly, a second driving gear is arranged on the outer side of the cable tube correspondingly to the right side of the movable plate, shaft seat plates are fixedly connected with the outer side of the cable tube correspondingly to the second, the upper end and the lower end of the front side of the cable tube are rotatably connected with a shifting roller through a shaft seat plate, the upper end and the lower end of the shifting roller are fixedly connected with conical gears, and the conical gears at the upper ends of the shifting roller are in meshed clamping connection with the conical gears at the upper ends of the two rotating shafts of the driving gear.

Preferably, the baffle is "L" form, set up relatively between the baffle, the baffle articulates in correcting the box inboard through hinge page or leaf, the vertical portion of baffle is close to blanking chamber one side fixedly connected with and corrects the board, the vertical portion of baffle is located and corrects the board front and back side and be equipped with the spout two that corrects the board parallel, terminal meeting between the vertical portion of baffle, the right side of baffle horizontal part is kept away from and is corrected the equal fixedly connected with arc siphunculus in box center one side, it all is equipped with the arc form spacing groove to correct the interior upper and lower extreme of box, fixedly connected with extends to the arc guide arm in the arc siphunculus in the arc form spacing groove, the horizontal part of baffle extends the guide arm around the rotatory arc siphunculus of.

Preferably, the correcting plate comprises a hollow groove, a first rotating shaft, a friction wheel, a second rotating shaft, a cam, a shifting plate, a push-pull rod assembly, a hinge rod and a push rod, an arc-shaped hollow groove is formed in the correcting plate, the left side and the right side of the center position of the top part far away from the center position of the correcting box in the hollow groove are sequentially and fixedly connected with shaft seats from front to back in an equidistant manner, the first rotating shaft is rotatably connected between the shaft seats, the friction wheel is fixedly connected at the upper end of the first rotating shaft, the tail end of the friction wheel close to one side of the center of the correcting box penetrates through the hollow groove and extends into the correcting box, a group of shaft seats are fixedly connected at the left side and the right side of the friction wheel in the hollow groove, the second rotating shaft is rotatably connected between the shaft seats, the second rotating shaft and the first rotating shaft in the same, the left side and the right side of the center of the inner side of the correction plate are sequentially hinged with arc-shaped shifting plates at equal intervals from front to back, the shifting plates positioned on the left side and the right side of the correction plate are in an eight-shaped shape, a moving groove is arranged on the outer side of the cam, a push-pull rod assembly is connected in the moving groove in a sliding mode, and the tail end of the push-pull rod assembly is hinged with the shifting plates through hinges.

Preferably, the cam is oval, and the push-and-pull rod subassembly is including hinge rod and push rod, push rod one end and shifting chute sliding connection, and the push rod other end articulates there is the hinge rod, and the hinge rod other end is articulated with the striking plate.

Preferably, vertical supporting legs are fixedly connected to the periphery of the bottom of the reference box.

Has the advantages that:

1. thereby drive gear through the motor and rotate and drive driven gear clockwise rotation, kicking block one is followed linkage pipe and is removed and make the push rod push up cable pipe, thereby make the connecting block top move the section and insert in optical fiber cable's the outsourcing, and linkage pipe clockwise rotation is followed to the linkage rod, thereby linkage rod removes the end that fixes box inside spout one and drives cable pipe rotation, optical fiber cable is pinned through the hand, thereby make optical fiber cable motionless, the section then follows linkage pipe rotation and cuts, sliced waist carries out better cutting at the in-process that removes, the spur of triangle-shaped is better to be inserted.

2. The linkage rod follows the linkage pipe and rotates clockwise, and the linkage rod removes to the end of fixed box inside spout one, and kicking block two can extrude the extrusion piece upper end inclined plane through the bottom inclined plane to make the supporting rod promote the clamp plate and push down the optical fiber cable, the universal ball of clamp plate bottom makes linkage pipe and cable pipe pivoted in-process remove more smoothly, and the in-process clamp plate that carries out the desquamation simultaneously through the board of skinning can further centre gripping optical fiber cable again.

3. The second driving gear can be driven to rotate by poking the poking roller, so that the moving plate is driven to move, the stripping plate can strip the outer coating of the optical fiber cable cut by the section in the moving process, thereby falling into the blanking cavity and then falling out from the blanking gap at the bottom of the blanking cavity, being convenient for collection, the ejector rod is inserted into the second sliding groove correspondingly during the moving process of the moving plate, the moving plate rotates along the second sliding groove and the ejector baffle, the moving plate which is moved out forms a gap bridge channel, meanwhile, a circular channel is formed between the correction plates, the optical fiber cable is manually pushed to enter between the correction plates through the channel formed between the movable plates, the fiber core inside the optical fiber cable is in friction with the friction wheel, the friction wheel rotates to drive the first rotating shaft to rotate, the first rotating shaft rotates to drive the second rotating shaft to rotate, the second rotating shaft drives the cam to rotate, and the cam circularly pushes the push-pull rod assembly to enable the shifting plate to circularly shift the fiber core, so that the fiber core is neatly pushed into the butt joint pipe and is not prone to scattering.

Description of the drawings:

fig. 1 is a schematic view of an overall front view and partial cross-sectional structure of the present invention.

Fig. 2 is a schematic side view of the cable tube of the present invention.

Fig. 3 is an enlarged schematic view of a portion a in fig. 2 according to the present invention.

Fig. 4 is a schematic cross-sectional view of the rectification box of the present invention.

Fig. 5 is a schematic view of the structure of the baffle plate of the present invention.

FIG. 6 is a schematic view showing the inner structure of the correction plate of the present invention.

Fig. 7 is a schematic structural diagram of the fixing box of the present invention.

Fig. 8 is a schematic view of the internal structure of the hollow tank of the present invention.

FIG. 9 is a side view of the movable plate of the present invention.

In FIGS. 1-9: the device comprises a reference box 1, an installation cavity 101, a blanking cavity 102, a first driving gear 103, a cable tube 2, a hollow groove 201, a notch groove 202, a third sliding groove 203, a driven gear 3, a linkage tube 4, a first ejector block 41, a shifting roller 5, a correcting box 6, a baffle plate 61, a butt joint tube 7, a fixing box 8, a first sliding groove 81, a cavity 82, a cutting mechanism 9, a connecting block 91, a slice 92, a push rod 93, an optical fiber cable 10, a linkage rod 11, a second ejector block 111, a clamping rod 12, an extrusion block 121, an extrusion plate 122, an arc-shaped through tube 13, a limiting groove 14, a guide rod 15, a second sliding groove 16, a correcting plate 17, a hollow groove 171, a first rotating shaft 172, a friction wheel 173, a second rotating shaft 174, a cam 175, a shifting plate 176, a push-pull rod assembly 177, a hinge rod 1771, a push rod 1772, a movable plate 18, an ejector.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying 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, rather than all embodiments, and all other embodiments obtained by a person of ordinary skill in the art without creative efforts based on the embodiments of the present invention belong to the protection scope of the present invention.

As shown in figures 1 to 9: the invention provides a technical scheme, and provides optical fiber equipment for quickly correcting and butting fiber cores, which comprises a reference box 1, a cable tube 2 and an optical fiber cable 10, wherein the cable tube 2 is transversely arranged in the reference box 1 in a penetrating manner and is rotatably connected, the optical fiber cable 10 is arranged in the cable tube 2 in a penetrating manner, an installation cavity 101 is arranged in the left side of the reference box 1, a linkage tube 4 is sleeved in the installation cavity 101 at the outer side of the cable tube 2, the outer side of the linkage tube 4 is rotatably connected in the installation cavity 101, a cutting mechanism 9 is horizontally arranged at the front side and the rear side of the outer side of the cable tube 2 in the linkage tube 4 in a penetrating manner, a first top block 41 for extruding the cutting mechanism 9 is fixedly connected at the front side and the rear side of the cable tube 2 in the linkage tube 4, a fixing box 8 is fixedly connected at the upper end and the lower end of the outer side of the cable tube 2 in the linkage tube 4, the upper end and the lower end of the inner wall of the linkage pipe 4 are fixedly connected with a linkage rod 11, the other end of the linkage rod 11 extends to a first sliding groove 81, a second ejection block 111 is fixedly connected inside the first sliding groove 81, a clamping rod 12 with one end extending to the center of the cable pipe 2 is arranged in the first sliding groove 81 in a penetrating mode, an annular hollow groove 201 is formed in the center of the inner wall, located on the right side of the installation cavity 101, of the cable pipe 2, a movable plate 18 capable of moving left and right is movably installed at the upper end and the lower end of the hollow groove 201, a blanking cavity 102 is arranged on the right side of the cable pipe 1, a blanking notch is formed in the bottom of the blanking cavity 102, a butt joint pipe 7 which is located on the same horizontal line with the cable pipe 2 is fixedly installed on the right side of the blanking cavity 102 in the reference box 1, a correction box 6 is fixedly connected to the left.

Wherein: a driven gear 3 is fixedly connected to the outer side of the linkage pipe 4, the driving gear 3 is rotatably connected in the installation cavity 101, a notch is formed in the upper end, located at the installation cavity 101, of the reference box 1, a first driving gear 103 is rotatably connected between the left side and the right side of the notch, the first driving gear 103 is in transmission connection with the driven gear 3, a servo motor is installed in the reference box 1, an output shaft of the servo motor is fixedly connected with a central shaft of the first driving gear 103, the first driving gear 103 is driven by the motor to rotate, the first driving gear 103 drives the driven gear 3 to rotate, so that the linkage tube 4 can rotate in the installation cavity 101, the first ejector block 41 moves along with the linkage tube 4 to enable the push rod 93 to eject into the cable tube 2, so that the connecting block 91 pushes the slice 92 to be inserted into the outer sheath of the optical fiber cable 10 without the slice 92 contacting the outside of the optical fiber cable 10 in the initial state, thereby being not easily damaged in the process of pushing the optical fiber cable 10 into the cable tube 2.

Wherein: the cutting mechanism 9 comprises a connecting block 91, a cutting blade 92 and a push rod 93, the push rod 93 penetrates through the cable tube 2, one end of the push rod 93, which is positioned at the inner side of the cable tube 2, is fixedly connected with the connecting block 91, the push rod 93, which is positioned at the outer side of the cable tube 2, is rotatably connected with a roller, the diameter of the roller is larger than that of the push rod 93, the upper end of the push rod 93, which is positioned at the outer side of the cable tube 2, is sleeved with a return spring, one side of the connecting block 91, which is close to the center of the cable tube 2, is provided with a V-shaped opening, the upper end and the lower end of the V-shaped opening are fixedly connected with a triangular cutting blade 92, the cutting blade 92 is in an isosceles triangle shape, the bottom edge of the cutting blade 92 is fixedly connected with the inner side of the V-shaped opening, the inner side of the V-shaped opening is tangent with the optical fiber cable 10, the optical fiber cable 10 is pressed by hand, so that the optical fiber cable is fixed, the slice 92 rotates along with the linkage tube 4 to be cut, the waist edge of the slice 92 is better cut in the moving process, and the triangular top thorn is better inserted.

Wherein: one 41 of kicking blocks is the arc form, and one 41 of kicking blocks increases progressively according to the rotatory thickness that extends of homeotropic needle in proper order, a 41 clockwise extension end of kicking block is equipped with protruding dog, push rod 93 upper end gyro wheel meets with a 41 slip of kicking block, when the gyro wheel meets with a 41 clockwise terminal protruding dog of kicking block, section 92 is cut to the outer skin deepest of optical fiber cable 10, a 41 clockwise rotation's of kicking block in-process, thereby increase progressively through thickness and extrude push rod 93, thereby make section 92 insert in the outer skin of optical fiber cable 10, section 92 does not contact with the fibre core in the optical fiber cable 10 simultaneously, be difficult to cause the fibre core to damage.

Wherein: the section of the second top block 111 is in a right triangle shape, the bottom of the second top block 111 is a bevel face, the bottoms of the second top blocks 111 are sequentially and rotatably connected with rollers at equal intervals, a clamping rod 12 is fixedly connected with a right triangle-shaped extrusion block 121 in a first chute 81, one end of the clamping rod 12 in a cable tube 2 is fixedly connected with an arc-shaped pressing plate, elastic universal balls are sequentially and movably installed at the bottoms of the arc-shaped pressing plates at equal intervals, a cavity 82 is formed in the end of the fixing box 8 extending clockwise, the clamping rod 12 penetrates through the cavity 82, an extrusion plate 122 is fixedly connected with the upper end of the clamping rod 12 in the cavity 82, a spring is sleeved between the extrusion plate 122 and the cavity 82 close to the center of the cable tube 2, the bevel face of the extrusion block 121 is arranged upwards, the clamping rod 12 is arranged in a vertically inclined manner, the linkage rod 11 rotates clockwise along with the linkage tube 4, the linkage rod 11 moves to, the first jacking block 41 can extrude the upper end inclined plane of the extrusion block 121 through the inclined plane at the bottom, so that the clamping rod 12 pushes the pressing plate to press the optical fiber cable 10, the universal ball at the bottom of the pressing plate enables the linkage pipe 4 and the cable pipe 2 to move more smoothly in the rotating process, and the upward and downward inclined relative clamping can enable the pressing plate to further clamp the optical fiber cable 10 in the peeling process through the peeling plate 21.

Wherein: the cable tube 2 is positioned in the hollow groove 201, the upper end and the lower end of the cable tube 2 are both provided with a notch groove 202 parallel to the cable tube 2, the cable tube 2 is positioned in the hollow groove 201, the upper end and the lower end of the central position of the front side and the rear side are both provided with a third sliding groove 203 parallel to the cable tube 2, the movable plate 18 is arc-shaped, the top of the movable plate 18 is fixedly connected with gear teeth from left to right in sequence at equal intervals, the front end and the rear end of the right side of the movable plate 18 are both fixedly connected with a top rod 19 parallel to the cable tube 2, the front end and the rear end of the inner side of the movable plate 18 are both fixedly connected with a sliding block 22, the sliding block 22 is connected with the third sliding groove 203 in a sliding manner, the bottom of the movable plate 18 is fixedly connected with an arc-shaped peeling plate 21, the peeling plate 21 is correspondingly connected with the notch groove 202 in a sliding manner, the rotating shaft extends to the outer side of the shaft seat plate located on the front side of the cable tube 2 and is fixedly connected with a conical gear, the upper end and the lower end of the front side of the cable tube 2 are rotatably connected with a shifting roller 5 through the shaft seat plate, the upper end and the lower end of the shifting roller 5 are fixedly connected with the conical gear, the conical gear at the upper end of the shifting roller 5 is meshed and clamped with the conical gear at the upper end of the rotating shaft of the second driving gear 20, the second driving gear 20 can be driven to rotate through shifting the shifting roller 5, so that the moving plate 18 is driven to move, in the moving process, the peeling plate 21 can peel off the outer skin of the optical fiber cable 10 cut off by the slice 92, so that the outer skin falls into the blanking cavity 102, then falls out from a blanking notch at the bottom of the blanking cavity 102 and is convenient to collect, in the moving process.

Wherein: baffle 61 is "L" form, set up relatively between the baffle 61, baffle 61 articulates at correction box 6 inboardly through the hinge page or leaf, baffle 61's vertical portion is close to blanking chamber 102 one side fixedly connected with and corrects board 17, baffle 61's vertical portion is located and corrects board 17 front and back side and be equipped with two 16 of the spout that corrects board 17 is parallel, terminal meeting between baffle 61's the vertical portion, the right side of baffle 61 horizontal part is kept away from and is corrected 6 center one side equal fixedly connected with arc siphunculus 13, it all is equipped with arc form spacing groove 14 to correct the interior upper and lower extreme of box 6, fixedly connected with extends to arc guide arm 15 in the arc siphunculus 13 of arc form spacing groove 14, baffle 61's horizontal part extends guide arm 15 around the rotatory arc siphunculus 13 of hinge page or leaf tie point and removes to spacing groove.

Wherein: the correcting plate 17 comprises a hollow groove 171, a first rotating shaft 172, a friction wheel 173, a second rotating shaft 174, a cam 175, a shifting plate 176, a push-pull rod assembly 177, a hinged rod 1771 and a push rod 1772, wherein the correcting plate 17 is internally provided with an arc-shaped hollow groove 171, the left side and the right side of the center position of the top part far away from the center position of the correcting box 6 in the hollow groove 171 are fixedly connected with shaft seats in sequence from front to back at equal intervals, the first rotating shaft 172 is rotatably connected between the shaft seats, the upper end of the first rotating shaft 172 is fixedly connected with the friction wheel 173, the tail end of the friction wheel 173 close to the center side of the correcting box 6 penetrates through the hollow groove 171 and extends into the correcting box 6, a group of shaft seats are fixedly connected in the left side and the right side of the friction wheel 173 in the hollow groove 171, the second rotating shaft 174 is rotatably connected between the shaft seats, the first rotating shaft 174 and the rotating shaft 172 in the same row are movably installed through universal cleaning, the left side and the right side of the center of the inner side of the correction plate 17 are sequentially hinged with arc-shaped shifting plates 176 at equal intervals from front to back, the shifting plates 176 positioned on the left side and the right side of the correction plate 17 are in an eight-shaped shape, a moving groove is arranged on the outer side of the cam 175, a push-pull rod assembly 177 is connected in the moving groove in a sliding mode, and the tail end of the push-pull rod assembly 177 is hinged with the shifting plates 176 through hinges.

Wherein: the cam 175 is in an oval shape, the push-pull rod assembly 177 comprises a hinge rod 1771 and a push rod 1772, one end of the push rod 1772 is connected with the moving groove in a sliding mode, the other end of the push rod 1772 is hinged with the hinge rod 1771, the other end of the hinge rod 1771 is hinged with the poking plate 176, a circular channel is formed between the straightening plates 17 when the push rod 19 pushes the baffle plate 61, the optical fiber cable 10 is pushed manually to enter the straightening plates 17 through the channel formed between the moving plates 18, the fiber core inside the optical fiber cable 10 is rubbed with the friction wheel 173, the friction wheel 173 rotates to drive the first rotating shaft 172 to rotate, the first rotating shaft 172 rotates to drive the second rotating shaft 174 to rotate, the second rotating shaft 174 drives the cam 175 to rotate, and the cam 175 circularly pushes the push-pull rod assembly 177 to enable the poking plate 176 to.

Wherein: vertical supporting legs are fixedly connected to the periphery of the bottom of the reference box 1.

The working principle is as follows:

firstly, an optical fiber cable 10 is penetrated by aligning with a cable tube 2, when the tail end of the optical fiber cable 10 stops at the inlet of a blanking cavity 102, then the outer side of the optical fiber cable 10 is pressed, a starting motor drives a driving gear 103 to rotate, the driving gear 103 drives a driven gear 3 to rotate, so that a linkage tube 4 can rotate in an installation cavity 101, a first jacking block 41 moves along with the linkage tube 4 so that a push rod 93 jacks into the cable tube 2, so that a connecting block 91 jacks a slice 92 to be inserted into an outer sheath of the optical fiber cable 10, a linkage rod 11 rotates clockwise along with the linkage tube 4, the linkage rod 11 moves to the tail end of a first sliding groove 81 in a fixed box 8, the first jacking block 41 can extrude an inclined surface at the upper end of an extrusion block 121 through an inclined surface at the bottom, so that a clamping rod 12 pushes a pressing plate to press the optical fiber cable 10, the motor continues to rotate so as to, after cutting, the motor is turned off, the poking roller 5 can drive the second driving gear 20 to rotate, so as to drive the moving plate 18 to move, the peeling plate 21 can peel off the outer coating of the optical fiber cable 10 cut by the slice 92 in the moving process, so as to fall into the blanking cavity 102, and then fall out from a blanking gap at the bottom of the blanking cavity 102, so as to be convenient for collection, the ejector rod 19 is inserted corresponding to the second sliding groove 16 in the moving process of the moving plate 18, the baffle 61 is pushed to rotate along the second sliding groove 16, the moving plate 18 which is moved out forms a gap bridge passage, the ejector rod 19 pushes the baffle 61 and simultaneously forms a circular passage between the correction plates 17, the optical fiber cable 10 is manually pushed to enter between the correction plates 17 through the passage formed between the moving plates 18, the fiber core inside the optical fiber cable 10 rubs with the friction wheel 173, the friction wheel 173 rotates to drive the first rotating, the second rotating shaft 174 drives the cam 175 to rotate, and the cam 175 circularly pushes the push-pull rod assembly 177 to make the shifting plate 176 circularly shift the fiber cores, so that the fiber cores are regularly pushed into the butt-joint pipe 7 and are not easy to scatter.

Claims (10)

1. The utility model provides a quick optical fiber equipment of rectifying butt joint of fibre core, includes benchmark case (1), cable pipe (2) and optical fiber cable (10), its characterized in that: the optical fiber cable cutting device is characterized in that a rotatably connected cable tube (2) transversely penetrates through the inside of the reference box (1), an optical fiber cable (10) penetrates through the inside of the cable tube (2), an installation cavity (101) is arranged inside the left side of the reference box (1), a linkage tube (4) is sleeved in the installation cavity (101) and positioned outside the cable tube (2), the outside of the linkage tube (4) is rotatably connected inside the installation cavity (101), cutting mechanisms (9) horizontally penetrate through the front side and the rear side of the inside of the linkage tube (4) and positioned outside the cable tube (2), a first ejector block (41) for extruding the cutting mechanisms (9) is fixedly connected to the front side and the rear side of the cable tube (2) inside the linkage tube (4), a fixing box (8) is fixedly connected to the upper end and the lower end of the outside of the cable tube (2) inside the linkage tube (4), and a first sliding groove (81) extending along the outer arc of the cable tube (2) is arranged in the center of, the upper end and the lower end of the inner wall of the linkage pipe (4) are fixedly connected with linkage rods (11), the other end of each linkage rod (11) extends into a first sliding groove (81) and is fixedly connected with a second ejector block (111), a clamping rod (12) with one end extending to the center of the cable pipe (2) is arranged in the first sliding groove (81) in a penetrating mode, an annular hollow groove (201) is formed in the center of the inner wall of the cable pipe (2) on the right side of the installation cavity (101), a movable plate (18) capable of moving left and right is movably installed at the upper end and the lower end in the hollow groove (201), a blanking cavity (102) is formed in the right side of the cable pipe (2) of the reference box (1), a blanking notch is formed in the bottom of the blanking cavity (102), a butt joint pipe (7) which is located on the same horizontal line with the cable pipe (2) is fixedly installed on the right side of the blanking cavity (102) in the reference box (1, rotatable baffles (61) are movably mounted at the upper end and the lower end of the correction box (6), and correction plates (17) capable of correcting optical fiber cables are mounted at the upper ends of the baffles (61).

2. A fiber optic apparatus having a core for rapid corrective butt joint according to claim 1, wherein: linkage pipe (4) outside fixedly connected with driven gear (3), drive gear (3) rotate to be connected in installation cavity (101), reference case (1) are located installation cavity (101) upper end and are equipped with the breach, rotate between the breach left and right sides and are connected with drive gear (103), drive gear (103) are connected with driven gear (3) transmission, install servo motor in reference case (1), servo motor output shaft and drive gear (103) center pin fixed connection.

3. A fiber optic apparatus having a core for rapid corrective butt joint according to claim 1, wherein: shutdown mechanism (9) is including connecting block (91), section (92), push rod (93) run through cable pipe (2), push rod (93) are located cable pipe (2) inboard one end fixedly connected with connecting block (91), push rod (93) are located cable pipe (2) outside and rotate and are connected with the gyro wheel, the gyro wheel diameter is greater than push rod (93) diameter, reset spring has been cup jointed in push rod (93) upper end is located cable pipe (2) outside, connecting block (91) are close to cable pipe (2) center one side and are equipped with V type opening, and the equal fixedly connected with triangle-shaped section (92) of lower extreme on the V type opening, section (92) are isosceles triangle-shaped, section (92) base and the inboard fixed connection of V type opening, V type opening inboard is tangent with optic fibre cable (10), perpendicular line between section (92) waist limit is to the length and optic cable (10) outside package of V type opening inboard The skin thickness was consistent.

4. The optical fiber apparatus of claim 1, wherein: the top block I (41) is arc-shaped, the thickness of the top block I (41) is sequentially increased according to the rotation extension of the clockwise needle, the clockwise extending tail end of the top block I (41) is provided with a protruding stop block, the roller at the upper end of the push rod (93) is connected with the top block I (41) in a sliding mode, and the section (92) is cut into the deepest part of the outer sheath of the optical fiber cable (10) when the roller is connected with the clockwise tail protruding stop block of the top block I (41).

5. A fiber optic apparatus having a core for rapid corrective butt joint according to claim 1, wherein: the section of the second ejector block (111) is in a right-angled triangle shape, the bottom of the second ejector block (111) is a bevel face, the bottoms of the second ejector blocks (111) are connected with rollers in a rotating mode in sequence at equal intervals, the clamping rod (12) is located in the first sliding groove (81) and fixedly connected with a right-angled triangle-shaped extrusion block (121), one end of the clamping rod (12) located in the cable tube (2) is fixedly connected with an arc-shaped pressing plate, elastic universal balls are sequentially and movably installed at the bottoms of the arc-shaped pressing plates in an equal interval mode, a cavity (82) is formed in the end, extending clockwise, of the fixing box (8), the clamping rod (12) penetrates through the cavity (82), the upper end of the clamping rod (12) is located in the cavity (82) and fixedly connected with an extrusion plate (122), and a spring is sleeved between one side, close to the center of the cable tube (2), of the, the bevel edge face of the extrusion block (121) is arranged upwards, and the clamping rods (12) are arranged oppositely and obliquely up and down.

6. A fiber optic apparatus having a core for rapid corrective butt joint according to claim 1, wherein: the cable tube (2) is positioned in the hollow groove (201), the upper end and the lower end of the cable tube (2) are respectively provided with a notch groove (202) parallel to the cable tube (2), the upper end and the lower end of the cable tube (2) positioned in the hollow groove (201) at the center position of the front side and the lower end of the hollow groove (201) at the front side and the rear side are respectively provided with a third sliding groove (203) parallel to the cable tube (2), the movable plate (18) is arc-shaped, the top of the movable plate (18) is fixedly connected with gear teeth in sequence at equal intervals from left to right, the front end and the rear end of the right side of the movable plate (18) are respectively and fixedly connected with a top rod (19) parallel to the cable tube (2), the front end and the rear end of the inner side of the movable plate (18) are respectively and fixedly connected with a sliding block (22), the sliding block (22) is in sliding connection with the, two drive gears (20) are worn to be equipped with on the corresponding movable plate (18) right side in cable pipe (2) outside, the equal fixedly connected with axle bed board in two (20) front sides of drive gear is corresponded in cable pipe (2) outside, and two (20) of drive gear rotate through the pivot and connect between the axle bed board, and the pivot extends to the axle bed board outside fixedly connected with conical gear who is located cable pipe (2) front side, and the lower extreme rotates through the axle bed board on cable pipe (2) front side to be connected with dials roller (5), dial the equal fixedly connected with conical gear of lower extreme on roller (5), dial the conical gear meshing joint of roller (5) upper end conical gear and two (20) pivot upper ends of drive gear.

7. A fiber optic apparatus having a core for rapid corrective butt joint according to claim 1, wherein: the baffle plates (61) are L-shaped, the baffle plates (61) are oppositely arranged, the baffle plates (61) are hinged to the inner side of the correction box (6) through hinges, one side, close to the blanking cavity (102), of the vertical part of each baffle plate (61) is fixedly connected with a correction plate (17), the vertical parts of the baffle plates (61) are positioned on the front side and the rear side of the correction plate (17) and are provided with two sliding grooves (16) parallel to the correction plates (17), the vertical parts of the baffle plates (61) are connected with each other at tail ends, one side, far away from the center of the correction box (6), of the right side of the horizontal part of each baffle plate (61) is fixedly connected with an arc-shaped through pipe (13), the upper end and the lower end in the correction box (6) are respectively provided with an arc-shaped limiting groove (14), an arc-shaped guide rod (15) extending into the arc-shaped through pipe (13) is fixedly connected in the arc-shaped limiting groove (14), the horizontal part of each baffle plate (61, the upper end of the guide rod (15) is sleeved with a spring.

8. A fiber optic apparatus having a core for rapid corrective butt joint according to claim 7, wherein: the correcting plate (17) comprises a hollow groove (171), a first rotating shaft (172), a friction wheel (173), a second rotating shaft (174), a cam (175), a shifting plate (176), a push-pull rod assembly (177), a hinge rod (1771) and a push rod (1772), wherein the correcting plate (17) is internally provided with the arc-shaped hollow groove (171), the left side and the right side of the center position of the top part far away from the center position of the correcting box (6) in the hollow groove (171) are sequentially and fixedly connected with shaft seats from front to back in an equidistant manner, the first rotating shaft (172) is rotatably connected between the shaft seats, the upper end of the first rotating shaft (172) is fixedly connected with the friction wheel (173), the tail end of one side of the friction wheel (173) close to the center of the correcting box (6) penetrates through the hollow groove (171) and extends into the correcting box (6), a group of shaft seats are fixedly connected to the left side and the right side of the friction, the correcting device is characterized in that a second rotating shaft (174) and a first rotating shaft (172) in the same row are movably mounted in a universal mode, cams (175) are fixedly connected to the upper ends of the second rotating shaft (174), the end, close to the center of the correcting box (6), of each cam (175 penetrates through a hollow groove (171) and extends into the correcting box (6), arc-shaped shifting plates (176) are sequentially hinged to the left side and the right side of the center of the inner side of the correcting plate (17) from front to back at equal intervals, the shifting plates (176) located on the left side and the right side of the correcting plate (17) are eight-shaped, moving grooves are formed in the outer sides of the cams (175), push-pull rod assemblies (177) are connected in the moving grooves in a sliding mode, and the tail ends of the push-pull rod assemblies.

9. A fiber optic apparatus having a core for rapid corrective butt joint according to claim 8, wherein: the cam (175) is oval, the push-pull rod assembly (177) comprises a hinge rod (1771) and a push rod (1772), one end of the push rod (1772) is connected with the moving groove in a sliding mode, the other end of the push rod (1772) is hinged with the hinge rod (1771), and the other end of the hinge rod (1771) is hinged with the poking plate (176).

10. A fiber optic apparatus having a core for rapid corrective butt joint according to claim 1, wherein: vertical supporting legs are fixedly connected to the periphery of the bottom of the reference box (1).

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