CN211594576U - Optical fiber winding device - Google Patents

Abstract

The utility model discloses an optic fibre winding device in optic fibre technical field, include: a base assembly; the fixed cover plate assembly is arranged on the top of the base assembly through a bolt; the bottom of the rotating seat is in contact with the top of the fixed cover plate assembly; the four transmission assemblies are annularly and equidistantly arranged on the periphery of the outer side wall of the rotating seat; four winding pipe assemblies, four the winding pipe assembly is the cross and installs the top of roating seat, four winding pipe assembly and four drive assembly one-to-one, the winding pipe assembly with drive assembly links together, the base subassembly includes: a base; first installation piece, first installation piece sets up the outer wall top of base, the utility model discloses convenient operation is simple, can twine out the fiber coil of different diameters.

Description

Optical fiber winding device

Technical Field

The utility model relates to an optical fiber technology field specifically is an optic fibre winding device.

Background

Optical fibers are short for optical fibers, and are fibers made of glass or plastic that can be used as a light conducting means. The principle of transmission is "total reflection of light". The high roll, the university of chinese in shangkong, and georgea. hockham, first proposed the assumption that optical fibers can be used for communication transmission, and the high roll thus acquired the 2009 nobel prize for physics. The fine optical fiber is enclosed in a plastic sheath so that it can be bent without breaking. Generally, a Light Emitting Diode (LED) or a laser beam is used as a transmitter at one end of the optical fiber to transmit an optical pulse to the optical fiber, and a photosensor is used as a receiver at the other end of the optical fiber to detect the pulse. In daily life, optical fibers are used for long distance information transmission because the loss of light transmitted through optical fibers is much lower than the loss of electricity transmitted through electric wires. In general, the terms optical fiber and optical cable are to be confused. Most optical fibers must be covered by several layers of protective structures before use, and the covered cables are referred to as fiber optic cables. The protective layer and the insulating layer on the outer layer of the optical fiber can prevent the surrounding environment from damaging the optical fiber, such as water, fire, electric shock and the like. The optical cable is divided into: cable sheath, aramid fiber silk, buffer layer and optic fibre. Optical fibers are similar to coaxial cables except that the mesh shielding is not present. The center is the glass core through which the light propagates. In the multimode optical fiber, the core diameter is 50 μm and 62.5 μm, which are approximately equivalent to the thickness of human hair. Whereas the diameter of the single-mode fiber core is 8 μm to 10 μm, and 9/125 μm is generally used. The core is surrounded by a glass envelope, commonly referred to as a cladding, of lower refractive index than the core, which keeps the light rays within the core. Further on the outside is a thin plastic outer jacket, i.e. a coating, for protecting the cladding. The optical fibers are typically bundled and protected by an outer jacket. The core is usually a double-walled concentric cylinder of small cross-sectional area made of silica glass, which is brittle and easily broken, and therefore requires the addition of a protective layer.

The existing optical fiber needs to be wound in the production and manufacturing process, long-strip optical fiber is wound into a circle, the transportation of the optical fiber is convenient, the existing optical fiber winding is mostly wound through manual work, the efficiency is low, the coil diameters of the optical fiber after winding are different in size, a plurality of optical fiber coils are wound together easily when being placed together, and the optical fiber is easily damaged when being taken.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an optic fibre winding device to solve the current optic fibre that proposes in the above-mentioned background art and need wind the optic fibre in the manufacturing process, it is circular to twine rectangular optic fibre, the convenient transportation to optic fibre, but current optic fibre wire winding is mostly to wind through the manual work, inefficiency, and the coil diameter of the optic fibre after the wire winding is not of uniform size, place a plurality of fiber coil together easy winding, cause the problem of damage to optic fibre easily when the optic fibre of taking.

In order to achieve the above object, the utility model provides a following technical scheme: an optical fiber winding device comprising:

a base assembly;

the fixed cover plate assembly is arranged on the top of the base assembly through a bolt;

the bottom of the rotating seat is in contact with the top of the fixed cover plate assembly;

the four transmission assemblies are annularly and equidistantly arranged on the periphery of the outer side wall of the rotating seat;

the four winding pipe assemblies are installed on the top of the rotary seat in a cross mode, the four winding pipe assemblies correspond to the four transmission assemblies one to one, and the winding pipe assemblies are connected with the transmission assemblies together.

Preferably, the base assembly comprises:

a base;

the first mounting block is arranged at the top of the outer wall of the base and is flush with the top of the base;

the motor is installed in the groove in the top of the base through a bolt, and the top output shaft of the motor is arranged on the outer side of the top of the base.

Preferably, the fixed cover plate assembly includes:

fixing the cover plate;

the second mounting block is arranged at the bottom of the outer wall of the fixed cover plate, and the bottom of the second mounting block is flush with the bottom of the fixed cover plate;

the slot is arranged at the middle end of the top of the fixed cover plate and penetrates through the middle end of the bottom of the fixed cover plate.

Preferably, the rotary base includes:

a rotating base body;

the four sliding grooves are arranged on the front surface of the rotating seat body in a cross manner;

the four mounting holes are annularly formed in the periphery of the outer wall of the rotating seat body, correspond to the four sliding grooves one by one, and are communicated with the sliding grooves;

four fixed orificess, four the establishment of fixed orifices one-to-one is kept away from in the inboard of spout the one end of mounting hole, the axle center of fixed orifices with the axle center of mounting hole is on same straight line.

Preferably, the transmission assembly comprises:

rotating the handle;

the spring balls are annularly arranged at the bottom of the outer wall of the rotating handle;

and the screw rod is welded at the middle end of the bottom of the rotating handle.

Preferably, the winding tube assembly comprises:

winding the tube;

the sliding block is welded at the bottom of the winding pipe and is perpendicular to the winding pipe;

the threaded hole is formed in the middle end of the front surface of the sliding block, and the threaded hole penetrates through the middle end of the rear surface of the sliding block.

Compared with the prior art, the beneficial effects of the utility model are that: the utility model has the advantages of convenient and simple operation, can twine out the fiber coil of different diameters, the motor passes through the bolt and installs in the top recess of base, the top output shaft of motor is outside the top of base, the slot is seted up at the top middle-end of fixed cover plate, the slot runs through the bottom middle-end of fixed cover plate, the top output shaft of motor pegs graft in the inner chamber of slot and runs through the slot and pegs graft in the top outside of fixed cover plate, the bottom of roating seat body contacts with the top of fixed cover plate, the roating seat body is installed on the top output shaft of motor through the spline connection, it is rotatory to drive the roating seat body through the output shaft at the motor top, the winding pipe is installed perpendicularly at the top of roating seat body, the winding pipe is the cylinder, it is rotatory to drive the winding pipe through the roating seat body, fix the one end, it is rotatory to drive the winding pipe through the roating seat body, twine optic fibre on four winding pipes, convenient operation and simply, twist grip passes through the spring pearl and installs the inboard at the mounting hole, twist grip passes through the spring pearl and can be rotatory in the inboard of mounting hole, the inboard that the mounting hole inserted the spout is passed through to twist grip's one end is kept away from to the screw rod, and peg graft the fixed orifices, the inboard at the spout is installed through the fixed orifices to the screw rod, it is rotatory to drive the screw rod through twist grip, screw hole and screw rod phase-match, the slider passes through threaded connection and installs on the outer wall of screw rod, the removal of the rotatory drive slider of through the screw rod (screw drive principle), it removes to drive the winding pipe through the slider, thereby change the diameter of the optic fibre coil.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic structural view of the base assembly of the present invention;

FIG. 3 is a schematic structural view of the fixing cover plate assembly of the present invention;

FIG. 4 is a schematic view of the rotary base of the present invention;

FIG. 5 is a schematic view of the structure of the transmission assembly of the present invention;

fig. 6 is a schematic structural view of the winding pipe assembly of the present invention.

In the figure: 100 base assembly, 110 base, 120 first mounting block, 130 motor, 200 fixed cover plate assembly, 210 fixed cover plate, 220 second mounting block, 230 slot, 300 rotary seat, 310 rotary seat body, 320 sliding groove, 330 mounting hole, 340 fixed hole, 400 transmission assembly, 410 rotary handle, 420 spring ball, 430 screw rod, 500 winding pipe assembly, 510 winding pipe, 520 sliding block, 530 threaded hole.

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 some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

The utility model provides an optical fiber winding device, which is convenient and simple to operate and can wind optical fiber coils with different diameters, please refer to fig. 1, comprising a base assembly 100, a fixed cover plate assembly 200, a rotary seat 300, a transmission assembly 400 and a winding pipe assembly 500;

referring to fig. 1 and 2, the base assembly 100 includes:

a base 110;

the first mounting block 120 is arranged at the top of the outer wall of the base 110, the first mounting block 120 is flush with the top of the base 110, six first mounting holes are annularly and equidistantly formed in the top of the first mounting block 120, and the first mounting holes penetrate through the bottom of the first mounting block 120;

the motor 130 is installed in a top groove of the base 110 through a bolt, and a top output shaft of the motor 130 is arranged outside the top of the base 110;

referring to fig. 1 and 3, a fixed cover plate assembly 200 is mounted on the top of the base assembly 100 by bolts, the fixed cover plate assembly 200 including:

the fixed cover plate 210 covers the top of the base 110;

the second mounting block 220 is arranged at the bottom of the outer wall of the fixed cover plate 210, the bottom of the second mounting block 220 is flush with the bottom of the fixed cover plate 210, six second mounting holes are formed in the top of the second mounting block 220 in an annular and equidistant manner, the six second mounting holes correspond to the six first mounting holes one by one, the second mounting block 220 and the first mounting block 120 are fixed together through bolts penetrating through the second mounting holes and the first mounting holes and nuts, and the fixed cover plate 210 is fixedly mounted at the top of the base 110 through the matching of the second mounting holes 220 and the first mounting block 120;

the slot 230 is arranged at the middle end of the top of the fixed cover plate 210, the slot 230 penetrates through the middle end of the bottom of the fixed cover plate 210, and the top output shaft of the motor 130 is inserted into the inner cavity of the slot 230 and penetrates through the slot 230 to be inserted outside the top of the fixed cover plate 210;

referring to fig. 1 and 4, the bottom of the rotary base 300 contacts the top of the fixed cover plate assembly 200, and the rotary base 300 includes:

the bottom of the rotating base body 310 contacts with the top of the fixed cover plate 210, the rotating base body 310 is connected and installed on the output shaft at the top of the motor 130 through a spline, and the rotating base body 310 is driven to rotate through the output shaft at the top of the motor 130;

the four sliding grooves 320 are arranged on the front surface of the rotating base body 310 in a cross shape;

the four mounting holes 330 are annularly formed around the outer wall of the rotating base body 310, the four mounting holes 330 correspond to the four sliding chutes 320 one by one, and the mounting holes 330 are communicated with the sliding chutes 320;

the four fixing holes 340 are correspondingly arranged at one end of the inner sides of the four sliding grooves 320 far away from the mounting hole 330, and the axes of the fixing holes 340 and the axes of the mounting hole 330 are on the same straight line;

referring to fig. 1 and 5, four transmission assemblies 400 are annularly and equidistantly installed around the outer sidewall of the rotary base 300, and the transmission assemblies 400 include:

the rotating handle 410 is installed inside the installation hole 330;

a plurality of spring balls 420 are annularly installed at the bottom of the outer wall of the rotary handle 410, the rotary handle 410 is installed inside the installation hole 330 through the spring balls 420, and the rotary handle 410 can rotate inside the installation hole 330 through the spring balls 420;

the screw 430 is welded at the middle end of the bottom of the rotating handle 410, one end of the screw 430, which is far away from the rotating handle 410, is inserted into the inner side of the sliding chute 320 through the mounting hole 330 and is inserted into the fixing hole 340, the screw 430 is mounted on the inner side of the sliding chute 320 through the fixing hole 340, and the screw 430 is driven to rotate by the rotating handle 410;

referring to fig. 1, 4 and 6, four winding pipe assemblies 500 are installed on the top of the rotary base 300 in a cross shape, the four winding pipe assemblies 500 correspond to the four driving assemblies 400 one by one, the winding pipe assemblies 500 are connected to the driving assemblies 400, and the winding pipe assemblies 500 include:

the winding tubes 510 are vertically installed at the top of the rotary seat body 310, the winding tubes 510 are cylindrical, the rotary seat body 310 drives the winding tubes 510 to rotate, one end of an optical fiber is fixed on one of the winding tubes 510 through a transparent adhesive tape, the rotary seat body 310 is driven to rotate through an output shaft of the motor 130, the winding tubes 510 are driven to rotate through the rotary seat body 310, the optical fiber is wound on the four winding tubes 510, and the operation is convenient and simple;

the sliding block 520 is welded at the bottom of the winding pipe 510, the sliding block 520 is perpendicular to the winding pipe 510, the sliding block 520 is matched with the sliding groove 320, the winding pipe 510 is arranged at the top of the rotary seat body 310 through the matching of the sliding block 520 and the sliding groove 320, and the winding pipe 510 is used for moving at the top of the rotary seat body 310 through the matching of the sliding block 520 and the sliding groove 320;

screw hole 530 is seted up in the front surface middle-end of slider 520, and screw hole 530 runs through the rear surface middle-end of slider 520, and screw hole 530 and screw rod 430 phase-match, slider 520 pass through threaded connection and install on the outer wall of screw rod 430, and the removal (screw drive principle) of slider 520 is driven through the rotation of screw rod 430, drives the winding pipe through slider 520 and removes, thereby changes the diameter of the fiber coil after the winding through changing the distance between four sliders 520.

While the invention has been described above with reference to an embodiment, various modifications may be made and equivalents may be substituted for elements thereof without departing from the scope of the invention. In particular, as long as there is no structural conflict, the various features of the disclosed embodiments of the present invention can be used in any combination with each other, and the description of such combinations is not exhaustive in the present specification only for the sake of brevity and resource conservation. Therefore, it is intended that the invention not be limited to the particular embodiments disclosed, but that the invention will include all embodiments falling within the scope of the appended claims.

Claims (6)

1. An optical fiber winding device, characterized in that: the method comprises the following steps:

a base assembly (100);

a fixed cover plate assembly (200), the fixed cover plate assembly (200) being mounted on top of the base assembly (100) by bolts;

a rotary base (300), a bottom of the rotary base (300) being in contact with a top of the stationary cover plate assembly (200);

the four transmission assemblies (400) are annularly and equidistantly arranged on the periphery of the outer side wall of the rotating base (300);

the four winding pipe assemblies (500) are installed on the top of the rotating base (300) in a cross mode, the four winding pipe assemblies (500) correspond to the four transmission assemblies (400) in a one-to-one mode, and the winding pipe assemblies (500) are connected with the transmission assemblies (400).

2. An optical fiber winding device according to claim 1, wherein: the base assembly (100) comprises:

a base (110);

a first mounting block (120), wherein the first mounting block (120) is arranged on the top of the outer wall of the base (110), and the first mounting block (120) is flush with the top of the base (110);

the motor (130) is installed in a top groove of the base (110) through a bolt, and a top output shaft of the motor (130) is arranged on the outer side of the top of the base (110).

3. An optical fiber winding device according to claim 1, wherein: the stationary cover plate assembly (200) comprises:

a stationary cover plate (210);

the second mounting block (220), the second mounting block (220) is arranged at the bottom of the outer wall of the fixed cover plate (210), and the bottom of the second mounting block (220) is flush with the bottom of the fixed cover plate (210);

the slot (230) is arranged at the middle end of the top of the fixed cover plate (210), and the slot (230) penetrates through the middle end of the bottom of the fixed cover plate (210).

4. An optical fiber winding device according to claim 1, wherein: the rotary base (300) comprises:

a swivel base body (310);

the four sliding grooves (320) are arranged on the front surface of the rotating base body (310) in a cross manner;

the four mounting holes (330) are annularly formed in the periphery of the outer wall of the rotating base body (310), the four mounting holes (330) correspond to the four sliding grooves (320) one by one, and the mounting holes (330) are communicated with the sliding grooves (320);

four fixed orificess (340), four the offering of fixed orifices (340) one-to-one is four the inboard of spout (320) is kept away from the one end of mounting hole (330), the axle center of fixed orifices (340) with the axle center of mounting hole (330) is on same straight line.

5. An optical fiber winding device according to claim 1, wherein: the transmission assembly (400) comprises:

a rotating handle (410);

a plurality of spring beads (420), wherein the plurality of spring beads (420) are annularly arranged at the bottom of the outer wall of the rotating handle (410);

a screw (430), wherein the screw (430) is welded at the bottom middle end of the rotating handle (410).

6. An optical fiber winding device according to claim 1, wherein: the winding tube assembly (500) includes:

a winding tube (510);

the sliding block (520) is welded at the bottom of the winding pipe (510), and the sliding block (520) is perpendicular to the winding pipe (510);

the threaded hole (530), threaded hole (530) set up in the front surface middle-end of slider (520), threaded hole (530) run through the rear surface middle-end of slider (520).

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