CN113608309B - Wrapping equipment for optical cable production - Google Patents

Abstract

The utility model relates to an optical cable production is with wrapping equipment, include the frame of carrying the optical cable and set up the spiral that twines fibre gauze to the optical cable in the frame around the package device, frame fixedly connected with mounting panel, spiral are worn to locate the mounting panel including rotating around the package device and pass the rotating tube in order to supply the optical cable, fixed cover locates the rotation seat of rotating tube, drive rotating tube pivoted a actuating mechanism and cover and locate the rotating tube in order to supply the fibre gauze around the reel of rolling up, and the reel rotates with the rotating tube relatively, rotates the seat and is provided with and supplies the fibre gauze around the cloth post of leading of establishing, leads the cloth post and is provided with a plurality ofly and revolute the axis distribution of rotating tube. This application has the effect that reduces staff's intensity of labour.

Description

Wrapping equipment for optical cable production

Technical Field

The application relates to the technical field of cable processing, in particular to a wrapping device for optical cable production.

Background

The application of optical cable in current communication network has been very extensive, when needs optical cable communication in occasions such as strong electric field, thunder and lightning intensive area, requires it not to possess the conductor property, prevents to be punctured by strong current or high voltage or damage, generally can adopt nonmetal as optical cable reinforcement, and materials such as glass fiber gauze, aramid fiber gauze are generally used around package to strengthen to general nonmetal optical cable at present.

With respect to the related art among the above, the inventors consider that the following drawbacks exist: the fiber gauze or the aramid gauze is wound manually mostly when the optical cable is spirally wound, and the manual winding increases the labor intensity of workers, so that the further improvement is needed.

Disclosure of Invention

In order to reduce staff's intensity of labour, the purpose of this application provides an optical cable production is with wrapping equipment.

The application provides a pair of optical cable production adopts following technical scheme with lapping equipment:

the utility model provides an optical cable production is with wrapping equipment, includes the frame of carrying the optical cable and sets up in the frame with the spiral of fibre gauze winding to the optical cable around the package device, frame fixedly connected with mounting panel, spiral are worn to locate the mounting panel including rotating and are passed the rotating tube, fixed cover is located the rotation seat of rotating tube, drive rotating tube pivoted a actuating mechanism and cover in order to supply the fibre gauze around the reel of rolling up, reel and rotating tube rotate relatively, rotate the seat and be provided with and supply the fibre gauze around the cloth post of leading of establishing, lead the cloth post and be provided with a plurality ofly and revolute the axis distribution of rotating tube around the optical cable.

Through adopting above-mentioned technical scheme, on being fixed in the optical cable with the initiating terminal of fibre gauze earlier, the optical cable is constantly in the process of carrying forward, starts the spiral around the package device, and a actuating mechanism drives the rotating tube and rotates to drive and rotate the seat rotation, fibre gauze is through leading drawing of cloth spare and reel self circumferential direction rotation twine the fibre gauze on the optical cable evenly, and mechanized operation has effectively reduced staff's intensity of labour.

Preferably, the rotating pipe is coaxially inserted with a stranded wire pipe, the stranded wire pipe and the rotating pipe are arranged in a rotating mode, a stranded wire pipe is coaxially and fixedly connected with a stranding seat, a first through hole for an optical cable to pass through is formed in the stranding seat, the first through hole is provided with a plurality of axial lines distributed around the stranded wire pipe, a wire gathering die head is detachably connected to one end of the stranded wire pipe, a second through hole for the optical cable harness after the stranded wire to pass through is formed in the wire gathering die head, and the rack is provided with a second driving mechanism for driving the stranded wire pipe to rotate.

Through adopting above-mentioned technical scheme, second actuating mechanism drives the stranded conductor pipe and rotates, realizes carrying out the stranded conductor operation to many optical cables, makes it assemble and is an optical cable pencil.

Preferably, the rotation seat includes that coaxial fixed cover locates the fixed disk and the fixed connection of rotating-tube in the installation slat of fixed disk, and the installation slat is provided with a plurality ofly and distributes around the axis of fixed disk, and the length direction of installation slat is on a parallel with the radial of fixed disk, lead the cloth post and install in the installation slat, the axis of leading the cloth post is on a parallel with the axis of rotating-tube.

Through adopting above-mentioned technical scheme, rotate the seat and include fixed disk and installation slat, lead the cloth post and set up in installation slat, be convenient for lead the fibre gauze book, reduce fibre gauze book and take place the possibility of rolling off.

Preferably, the first driving mechanism comprises a first belt wheel coaxially and fixedly sleeved on the rotating pipe, a second belt wheel rotatably connected to the frame, a first motor driving the second belt wheel to rotate, and a first synchronous belt wound on the first belt wheel and the second belt wheel, the first motor is fixedly connected to the frame, and an output shaft of the first motor is coaxially and fixedly connected to the second belt wheel.

Through adopting above-mentioned technical scheme, first motor drives the second band pulley and rotates, rotates through first hold-in range drive first band pulley to realize the rotating-tube and rotate.

Preferably, the second driving mechanism comprises a third belt wheel coaxially fixed and sleeved on the stranded wire pipe, a fourth belt wheel rotationally connected to the frame, a second motor driving the fourth belt wheel to rotate, and a second synchronous belt wound on the third belt wheel and the fourth belt wheel, the second motor is fixedly connected to the frame, and an output shaft of the second motor is coaxially and fixedly connected to the fourth belt wheel.

Through adopting above-mentioned technical scheme, the second motor drives the fourth band pulley and rotates, rotates through second hold-in range drive third band pulley to realize that the stranded conductor pipe rotates.

Preferably, the cloth guide column is provided with a through groove for the fiber gauze to pass through, and the rotating base is provided with a gluing mechanism for gluing the surface of the fiber gauze.

By adopting the technical scheme, the cloth guide column is provided with the through groove for the fiber gauze to pass through, so that the possibility of unwinding of the fiber gauze roll is further reduced; be provided with rubber coating mechanism, carry out the rubber coating operation to the surface of fibre gauze, fibre gauze is when carrying out the spiral around the package, and on the one hand, glue can fill the gap between two adjacent rings of fibre gauze and seal, improves the leakproofness between two adjacent rings of fibre gauze, and on the other hand improves the firm in connection nature between fibre gauze and the optical cable, reduces fibre gauze and the optical cable and takes place the possibility that breaks away from the phenomenon.

Preferably, the rubber coating mechanism including set up in the stock solution box, the one end that rotate the seat and supply to deposit the glue solution connect in the feed tube of stock solution box, install in the rubber coating seat of rotating the seat and set up in the feed tube in order to pump the liquid in the stock solution box to the transfer pump of feed tube, the rubber coating seat is provided with the gluey cotton body, the rubber coating seat has the flowing liquid passageway and communicates in the first flowing liquid through-hole of flowing liquid passageway, the other end of feed tube communicates in the flowing liquid passageway, the glue solution of feed tube liquid outlet department loops through flowing liquid passageway and first flowing liquid through-hole and flows to the gluey cotton body, gluey cotton body surface and fibre gauze surface butt.

By adopting the technical scheme, the glue solution in the liquid storage box sequentially flows to the gluing cotton body through the liquid supply pipe and the first liquid through hole, so that the gluing cotton body is kept in a wet state and is abutted against the surface of the fiber gauze, and the gluing operation of the gluing cotton body on the surface of the fiber yarn is realized.

Preferably, the gluing seat is provided with a sliding cavity, the gluing cotton body is fixedly connected with a sliding strip, the sliding strip is connected to the sliding cavity in a sliding mode, the sliding strip is provided with a second fluid through hole in a penetrating mode, one end of the second fluid through hole is communicated with the first fluid through hole, and the other end of the second fluid through hole is communicated with the gluing cotton body.

By adopting the technical scheme, the sliding type assembling of the gluing cotton body and the gluing seat is realized by arranging the sliding cavity and the sliding strip, the gluing cotton body is convenient to replace, glue liquid of the glue storage box sequentially passes through the liquid supply pipe, the first flow through hole and the second flow through hole to flow onto the gluing cotton body, so that the gluing cotton body is kept in a wet state and is in contact with the surface of fiber gauze, the gluing operation of the gluing cotton body on the surface of fiber yarns is realized, a worker can change the sliding position of the sliding strip and the gluing seat by sliding the sliding strip, so that the aperture size of the second flow through hole is changed, the flow of the glue is controlled, the sliding strip can also be slid, the first through hole and the second through hole are in staggered distribution, the plugging of the first flow through hole is realized, and the opening and closing of the first flow through hole are controlled.

Preferably, the gluing base is provided with a limiting piece for limiting the sliding of the sliding strip.

Through adopting above-mentioned technical scheme, fix the position of sliding of draw runner through the locating part to reduce the draw runner and rotate the possibility that the in-process takes place to slide rotating the seat.

Preferably, still include to the winding carry out the drying device who dries around the optical cable after the package, drying device is including being located the spiral around the stoving frame of package device low reaches, fixed connection in the stoving frame for the stoving sleeve pipe that the optical cable passed and fixed connection in the heating member of stoving sleeve pipe inner wall.

Through adopting above-mentioned technical scheme, dry the optical cable after the spiral is lapped through the heating member, the solidification of the glue solution with higher speed.

In summary, the present application includes at least one of the following beneficial technical effects:

the starting end of the fiber gauze is fixed on the optical cable, the spiral wrapping device is started in the process that the optical cable is continuously conveyed forwards, the first driving mechanism drives the rotating pipe to rotate, so that the rotating seat is driven to rotate, the fiber gauze is uniformly wound on the optical cable through traction of the cloth guide piece and circumferential rotation of the winding drum, mechanical operation is realized, and the labor intensity of workers is effectively reduced;

the cloth guide column is provided with a through groove for the fiber gauze to pass through, so that the possibility of unwinding of the fiber gauze roll is further reduced; the fiber gauze wrapping machine is provided with a gluing mechanism, gluing operation is carried out on the surface of the fiber gauze, and when the fiber gauze is spirally wrapped, on one hand, glue can fill and seal a gap between two adjacent circles of fiber gauze, so that the sealing performance between the two adjacent circles of fiber gauze is improved, on the other hand, the connection firmness between the fiber gauze and an optical cable is improved, and the possibility of separation between the fiber gauze and the optical cable is reduced;

staff's accessible slip draw runner changes the slide position of draw runner and rubber coating seat to change the aperture size of second class flow liquid through-hole, and then the flow of control glue, the draw runner that also can slide makes first through-hole and second through-hole be the distribution of misplacing, thereby realizes the shutoff of first class flow liquid through-hole, controls opening and close of flow liquid through-hole.

Drawings

Fig. 1 is a schematic view of the overall structure of the wrapping device for producing an optical cable in embodiment 1.

Fig. 2 is a schematic structural view of a rotating base and a rotating pipe in embodiment 1.

Fig. 3 is a schematic structural view of the first drive mechanism and the second drive mechanism in embodiment 1.

FIG. 4 is a schematic diagram of the configuration of a manifold die and a strand tube as in example 1.

Fig. 5 is a schematic structural diagram of the wrapping device for producing the optical cable according to embodiment 2.

Fig. 6 is a schematic structural view of the glue application mechanism in embodiment 2.

FIG. 7 is a schematic view showing the structure of the applicator and the slide in example 2.

Fig. 8 is a schematic structural view of a drying sleeve and an electric heating wire in embodiment 2.

Description of reference numerals: 1. a frame; 11. a wire holder; 12. mounting a plate; 13. a second drive mechanism; 131. a third pulley; 132. a fourth pulley; 133. a second motor; 134. a second synchronous belt; 2. a spiral wrapping device; 21. rotating the tube; 22. a rotating seat; 221. fixing the disc; 222. installing a batten; 23. a first drive mechanism; 231. a first pulley; 232. a second pulley; 233. a first motor; 234. a first synchronization belt; 24. a reel; 25. a stranded wire pipe; 251. a twisting seat; 252. a first through hole; 26. a converging die head; 261. installing a bolt; 262. a second through hole; 27. a cloth guide column; 271. penetrating a groove; 28. a limiting disc; 281. a hexagon socket head cap screw; 3. a winding machine; 4. a gluing mechanism; 41. a liquid storage box; 42. a liquid supply tube; 43. gluing a base; 431. a sliding cavity; 432. a fluid passage; 433. a first flowthrough; 434. a limit bolt; 44. an infusion pump; 45. a slide bar; 451. a second flow through hole; 46. coating a rubber cotton body; 5. a drying device; 51. a drying rack; 52. drying the sleeve; 53. an electric heating wire.

Detailed Description

The present application is described in further detail below with reference to figures 1-8.

The embodiment of the application discloses optical cable production is with wrapping equipment.

Example 1:

referring to fig. 1, an optical cable production is with wrapping equipment, include frame 1 that carries the optical cable and set up in frame 1 with the spiral of fibre gauze winding to the optical cable around packing apparatus 2, one side of frame 1 is provided with and is located the spiral and carries out the rolling machine 3 of rolling around packing apparatus 2 low reaches in order to carrying out the optical cable after the package around, is provided with the wire seat 11 that supplies many optical cables to pass on the frame 1, and wire seat 11 is provided with a plurality ofly and distributes along the length direction of frame 1.

Referring to fig. 2 and 3, the mounting plate 12 is fixedly connected to the frame 1, the spiral wrapping device 2 includes a rotating tube 21, a rotating seat 22, a first driving mechanism 23 and a winding drum 24, the rotating tube 21 is rotatably disposed through the mounting plate 12, the rotating seat 22 is fixed to the rotating tube 21, the winding drum 24 is coaxially sleeved on the rotating tube 21 for winding the fiber gauze, and the winding drum 24 and the rotating tube 21 rotate relatively. The rotating seat 22 comprises a fixed disk 221 and an installation strip plate 222, wherein the fixed disk 221 and the installation strip plate 222 are coaxially and fixedly sleeved on the rotating tube 21, the installation strip plate 222 is provided with a plurality of installation strip plates and distributed around the axis of the fixed disk 221, the length direction of the installation strip plate 222 is parallel to the radial direction of the fixed disk 221, the installation strip plate 222 is fixedly connected with a cloth guide column 27, the axis of the cloth guide column 27 is parallel to the axis of the rotating tube 21, the cloth guide column 27 is arranged in a concave manner in the middle, and the middle of the cloth guide column 27 is in smooth transition to two ends.

The first driving mechanism 23 includes a first belt wheel 231, a second belt wheel 232, a first motor 233 and a first synchronous belt 234, the first belt wheel 231 is coaxially fixed on the rotating tube 21, the second belt wheel 232 is rotatably connected to the second belt wheel 232 of the frame 1, the second belt wheel 232 is located below the first belt wheel 231, the first motor 233 is fixedly connected to the frame 1, an output shaft of the first motor 233 is coaxially and fixedly connected to the second belt wheel 232, and the first synchronous belt 234 is wound around the first synchronous belt 234 which is arranged on the first belt wheel 231 and the second belt wheel 232.

Referring to fig. 2 and 4, the rotating tube 21 is coaxially sleeved with a limiting disc 28, the limiting disc 28 is provided with an inner hexagon bolt 281 in threaded connection with the rotating tube 21, and the winding drum 24 is located between the rotating seat 22 and the limiting disc 28. The rotating pipe 21 is coaxially inserted with a stranded wire pipe 25, the stranded wire pipe 25 and the rotating pipe 21 are arranged in a relatively rotating mode, a stranded seat 251 is coaxially and fixedly connected in the stranded wire pipe 25, a first through hole 252 for an optical cable to penetrate through is formed in the stranded seat 251, and the first through hole 252 is provided with a plurality of axial lines which are distributed around the stranded wire pipe 25. One end of the stranded wire pipe 25 is detachably connected with a wire collecting die head 26, one end of the wire collecting die head 26, which is far away from the mounting plate 12, is arranged in a conical manner, the small end of the wire collecting die head 26 is coaxially provided with a second through hole 262 through which an optical cable harness after stranded wires passes, and the outer side wall of the large end of the wire collecting die head 26 is provided with a mounting bolt 261 which is in threaded connection with the stranded wire pipe 25 in a penetrating manner.

Referring to fig. 3, the frame 1 is provided with a second driving mechanism 13 for driving the cable tube 25 to rotate, the second driving mechanism 13 includes a third pulley 131, a fourth pulley 132, a second motor 133 and a second timing belt 134, the third pulley 131 is coaxially fixed on the cable tube 25, the fourth pulley 132 is rotatably connected to the frame 1, and the fourth pulley 132 is located below the third pulley 131. The second motor 133 is fixedly connected to the frame 1, an output shaft of the second motor 133 is coaxially and fixedly connected to the fourth pulley 132, and the second timing belt 134 is wound around the second timing belt 134 disposed on the third pulley 131 and the fourth pulley 132.

The implementation principle of the embodiment 1 is as follows: the second motor 133 drives the fourth pulley 132 to rotate, and the third pulley 131 is driven to rotate by the second synchronous belt 134, so that the stranded tube 25 rotates in the forward direction, and a plurality of optical cables are stranded to be gathered into an optical cable harness; on being fixed in the optical cable pencil behind the stranded conductor with the initiating terminal of fibre gauze, the end of optical cable pencil is fixed in rolling machine 3, rotate the in-process at rolling machine 3, provide traction force, make the optical cable pencil constantly carry forward, first motor 233 drives second band pulley 232 and rotates simultaneously, rotate through first band pulley 231 of first hold-in range 234 drive, thereby realize rotating-tube 21 antiport, fibre gauze is through leading drawing of cloth spare and reel 24 self circumferential direction rotation twine fibre gauze on the optical cable evenly, mechanized operation, staff's intensity of labour has effectively been reduced.

Example 2:

referring to fig. 5 and 6, the present embodiment is different from embodiment 1 in that a groove 271 for passing the fiber gauze is formed through the cloth guide column 27, and the rotating base 22 is provided with a glue applying mechanism 4 for applying glue to the wound surface of the fiber gauze.

The glue coating mechanism 4 comprises a liquid storage box 41, a liquid supply pipe 42, a glue coating seat 43 and an infusion pump 44, wherein the liquid storage box 41 is fixedly arranged on one of the installation laths 222, glue solution is stored in the liquid storage box 41, and the glue coating seat 43 is fixedly connected to the installation laths 222. The gluing seat 43 is provided with a sliding cavity 431, a liquid flow channel 432 and a first liquid flow through hole 433 which is communicated between the liquid flow channel 432 and the sliding cavity 431. One end of the liquid supply tube 42 is connected to the liquid storage box 41, the other end of the liquid supply tube 42 is connected to the liquid flow passage 432, and the liquid pump 44 supplies the liquid in the liquid storage box 41 to the liquid supply tube 42 by supplying the liquid supply pressure.

Referring to fig. 6 and 7, the gluing base 43 is provided with a sliding bar 45 slidably connected to the sliding cavity 431, the sliding bar 45 is fixedly connected with a glued cotton body 46, specifically, the glued cotton body 46 is a sponge, and the surface of the glued cotton body 46 is abutted against the surface of the wound fiber gauze. The slide bar 45 is provided with a second fluid through hole 451 in a penetrating manner, one end of the second fluid through hole 451 is communicated with the first fluid through hole 433, the other end of the second fluid through hole 451 is communicated with the adhesive cotton body 46, and the adhesive liquid at the liquid outlet of the liquid supply pipe 42 sequentially flows to the adhesive cotton body 46 through the fluid passage 432 and the first fluid through hole 433. The gluing base 43 is provided with a limiting part for limiting the sliding of the sliding strip 45, the limiting part is a limiting bolt 434 which is threaded through the gluing base 43, and the end part of the limiting bolt 434 is tightly abutted against the sliding strip 45 in a working state.

Referring to fig. 5 and 8, the optical cable production is with still including being located the drying device 5 that dries to the optical cable after the winding is wrapped to the winding between rolling machine 3 and the frame 1, drying device 5 is including being located spiral winding device 2 low reaches and being located the stoving frame 51 of frame 1 one side, fixed connection in stoving frame 51 for the stoving sleeve pipe 52 that the optical cable pencil after the winding passes and fixed connection in the heating member of stoving sleeve pipe 52 inner wall, the heating member is spiral winding locate the electric heating wire 53 of stoving sleeve pipe 52 inner wall.

The implementation principle of the embodiment 2 is as follows: glue solution in the liquid storage box 41 sequentially passes through the liquid supply pipe 42, the first liquid through hole 433 flows to the gluing cotton body 46, thereby keep the gluing cotton body 46 to be in a wet state, the gluing cotton body 46 is abutted to the surface of a winding roll of fiber gauze, thereby realizing that the gluing cotton body 46 carries out gluing operation on the surface of the fiber yarn, when the fiber gauze is spirally wound, on one hand, the glue can fill and seal the gap between two adjacent circles of fiber gauze, the sealing performance between two adjacent circles of fiber gauze is improved, on the other hand, the connection firmness between the fiber gauze and the optical cable is improved, the possibility that the fiber gauze and the optical cable are separated from each other is reduced, the optical cable after the spirally wound is dried through a heating element, and the solidification of the accelerated glue solution.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (7)

1. The utility model provides an optical cable production is with wrapping equipment which characterized in that: including frame (1) that carries the optical cable and set up in frame (1) with the spiral that fibre gauze twined to the optical cable around package device (2), frame (1) fixedly connected with mounting panel (12), the spiral is around package device (2) including rotating to wear to locate mounting panel (12) in order to supply the rotating tube (21) that the optical cable passed, fix the rotation seat (22) of locating rotating tube (21), drive rotating tube (21) pivoted first actuating mechanism (23) and overlap locate rotating tube (21) in order to supply the reel (24) that the fibre gauze wound up, reel (24) and rotating tube (21) rotate relatively, rotating seat (22) are provided with the cloth guide post (27) that supplies the fibre gauze to wind up, cloth guide post (27) are provided with a plurality ofly and revolve the axis distribution of rotating tube (21); the optical cable stranding machine is characterized in that a stranding pipe (25) is coaxially inserted into the rotating pipe (21), the stranding pipe (25) and the rotating pipe (21) are arranged in a relative rotating mode, a stranding seat (251) is coaxially and fixedly connected in the stranding pipe (25), a first through hole (252) for an optical cable to penetrate through is formed in the stranding seat (251), a plurality of second through holes (262) for an optical cable harness to pass through are formed in the first through hole (252) and distributed around the axis of the stranding pipe (25), one end of the stranding pipe (25) is detachably connected with a wire collecting die head (26), a second through hole (262) for the optical cable harness to pass through after stranding is formed in the wire collecting die head (26), and a second driving mechanism (13) for driving the stranding pipe (25) to rotate is arranged on the rack (1); the cloth guide column (27) is provided with a through groove (271) for the fiber gauze to pass through, and the rotating seat (22) is provided with a gluing mechanism (4) for gluing the surface of the fiber gauze; the gluing mechanism (4) comprises a liquid storage box (41) arranged on a rotating seat (22) and used for storing glue, a liquid supply pipe (42) with one end connected to the liquid storage box (41), a gluing seat (43) arranged on the rotating seat (22) and an infusion pump (44) arranged on the liquid supply pipe (42) and used for pumping liquid in the liquid storage box (41) to the liquid supply pipe (42), wherein a gluing sponge body (46) is arranged on the gluing seat (43), the gluing seat (43) is provided with a liquid flow channel (432) and a first liquid flow through hole (433) communicated with the liquid flow channel (432), the other end of the liquid supply pipe (42) is communicated with the liquid flow channel (432), the glue at a liquid outlet of the liquid supply pipe (42) sequentially flows to the gluing sponge body (46) through the liquid flow channel (432) and the first liquid flow through hole (433), and the surface of the gluing sponge body (46) is abutted to the surface of a fiber gauze.

2. The wrapping equipment for producing the optical cable according to claim 1, wherein: rotate seat (22) and locate fixed disk (221) and fixed connection in installation slat (222) of fixed disk (221) of rotating tube (21) including coaxial fixed cover, installation slat (222) are provided with a plurality ofly and distribute around the axis of fixed disk (221), and the length direction of installation slat (222) is on a parallel with the radial of fixed disk (221), lead cloth post (27) and install in installation slat (222), the axis of leading cloth post (27) is on a parallel with the axis of rotating tube (21).

3. The wrapping equipment for producing the optical cable according to claim 1, wherein: first actuating mechanism (23) including coaxial fixed cover locate first band pulley (231) of rotating tube (21), rotate and connect in second band pulley (232) of frame (1), drive second band pulley (232) pivoted first motor (233) and around locating first band pulley (231) and first synchronous belt (234) of second band pulley (232), first motor (233) fixed connection in frame (1), the coaxial fixed connection in second band pulley (232) of output shaft of first motor (233).

4. The wrapping equipment for producing the optical cable according to claim 1, wherein: the second driving mechanism (13) comprises a third belt wheel (131) coaxially fixed and sleeved on the cable pipe (25), a fourth belt wheel (132) rotatably connected to the rack (1), a second motor (133) driving the fourth belt wheel (132) to rotate and a second synchronous belt (134) wound on the third belt wheel (131) and the fourth belt wheel (132), the second motor (133) is fixedly connected to the rack (1), and an output shaft of the second motor (133) is coaxially and fixedly connected to the fourth belt wheel (132).

5. The lapping equipment for producing the optical cable according to claim 1, characterized in that: the gluing device is characterized in that a sliding cavity (431) is formed in the gluing seat (43), the gluing cotton body (46) is fixedly connected with a sliding strip (45), the sliding strip (45) is connected to the sliding cavity (431) in a sliding mode, a second flow through hole (451) is formed in the sliding strip (45) in a penetrating mode, one end of the second flow through hole (451) is communicated with the first flow through hole (433), and the other end of the second flow through hole (451) is communicated with the gluing cotton body (46).

6. The lapping equipment for producing the optical cable according to claim 5, characterized in that: the gluing seat (43) is provided with a limiting piece for limiting the sliding of the sliding strip (45).

7. The wrapping equipment for producing the optical cable according to claim 1, wherein: still include to the winding carry out drying device (5) of drying around the optical cable after the package, drying device (5) are including being located spiral around drying frame (51) of package device (2) low reaches, fixed connection in drying frame (51) drying sleeve pipe (52) and the heating member of fixed connection in drying sleeve pipe (52) inner wall that the optical cable passed.

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