CN109704137B - Automatic winding mechanism for leading-out end on optical cable winding device - Google Patents

Abstract

The invention discloses an automatic winding mechanism for a leading-out end on an optical cable winding device, which comprises a winding driving mechanism, a winding shaft, a winding balance mechanism, a winding movable disc compression spring, a sliding shaft, a winding baffle plate, a winding fixed disc, a winding movable disc, a tip cone, a winding shaft and a winding one-way bearing, wherein the winding driving mechanism is arranged on the winding shaft; the winding driving mechanism drives the winding shaft to rotate; the winding shaft is provided with a winding balance mechanism; the winding shaft is rotationally connected with the winding shaft; the winding shaft is provided with a top cone; a winding baffle is arranged on the tip cone; a winding fixing disc is arranged on the winding baffle plate; a winding moving disc is arranged on one side of the winding fixed disc; the winding fixed disc is connected with the winding movable disc in a sliding way through a sliding shaft and a winding movable disc compression spring. The invention has high speed and high efficiency; the quality of the leading-out end is ensured; the unidirectional bearing is adopted to meet the clutch function of the winding action, and the structure is simple, safe and reliable.

Description

Automatic winding mechanism for leading-out end on optical cable winding device

Technical Field

The invention relates to an automatic winding mechanism for a leading-out end on an optical cable winding device.

Background

The finished optical cable is wound on a wooden disk, and 2 meters of the inner end of the finished optical cable is reserved and penetrates out of the disk for detection. The traditional finished product winding work is finished by manual assistance, and in the automatic upgrading and reforming process of production equipment by an optical cable manufacturing enterprise, the automatic winding technology of the leading-out end is one of the necessary technologies for realizing full automation of the optical cable winding device.

Disclosure of Invention

The invention provides an automatic winding mechanism for a leading-out end on an optical cable winding device, which has high speed and high efficiency and ensures the quality of the leading-out end.

In order to solve the technical problems, the invention adopts the following technical scheme: an automatic winding mechanism for a leading-out end on an optical cable winding device comprises a winding driving mechanism, a winding shaft, a winding balance mechanism, a winding movable disc compression spring, a sliding shaft, a winding baffle plate, a winding fixed disc, a winding movable disc, a top cone, a winding shaft and a winding one-way bearing;

the winding driving mechanism drives the winding shaft to rotate; the winding shaft is provided with a winding balance mechanism;

the winding shaft is rotationally connected with the winding shaft; the winding shaft is provided with a top cone; a winding baffle is arranged on the tip cone; a winding fixing disc is arranged on the winding baffle plate; a winding moving disc is arranged on one side of the winding fixed disc; the winding fixed disc is connected with the winding movable disc in a sliding way through a sliding shaft and a winding movable disc compression spring.

Further, the winding driving mechanism comprises a winding motor, a driving sprocket, a transmission chain and a driven sprocket; the output end of the winding motor is provided with a driving sprocket; the driving sprocket is connected with the driven sprocket through a transmission chain; the driven chain wheel is fixedly arranged on the winding shaft.

Further, the driving chain wheel and the driven chain wheel are meshed with the transmission chain.

Further, an output shaft of the winding motor is provided with a driving wheel one-way bearing; the driving sprocket is arranged on the unidirectional bearing of the driving wheel.

Further, the winding balance mechanism comprises a winding arm, a winding shifting tooth pressing spring and a winding shifting tooth sliding bearing; the winding arm is fixedly arranged on the winding shaft; a winding shifting tooth sliding bearing is arranged on the winding shifting tooth; the winding shifting teeth realize the fine adjustment of the length of the winding shifting teeth through a winding shifting tooth pressing spring.

Further, four winding arms are arranged at equal intervals on the periphery of the winding shaft.

Further, the winding shifting teeth are in transition fit with the winding arms.

Further, a winding one-way bearing is arranged on the winding shaft, and a winding shaft is arranged on the winding one-way bearing.

Further, four sliding shafts are arranged on one side of the winding fixed disc; the sliding shaft is provided with a winding moving disc compression spring, and the end part of the sliding shaft is provided with a winding moving disc.

Further, the sliding shaft is in transition fit with the winding moving disc.

The invention has the beneficial effects that: the winding action of the invention is motor driving, which has high speed and high efficiency; the winding disc is of a fixed diameter, so that the bending radius requirement of a product is met, and the quality of the leading-out end is ensured; the unidirectional bearing is adopted to meet the clutch function of the winding action, and the automatic winding leading-out end technology of the optical cable winding device is realized.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings that are needed in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments described in the present invention, and other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a front view of the present invention;

FIG. 2 is a cross-sectional view of the present invention;

fig. 3 is a side view of the present invention.

Detailed Description

The technical scheme of the present invention will be clearly and completely described in the following detailed description.

1-3, an automatic winding mechanism for a leading-out end on an optical cable winding device of the present invention comprises a winding driving unit, a winding shaft 5, a winding arm I6, a winding arm II 7, a winding arm III 8, a winding arm IV 9, a winding pinion I10, a winding pinion II 11, a winding pinion III 12, a winding pinion IV 13, a winding pinion compression spring I14, a winding pinion compression spring II 15, a winding pinion compression spring III 16, a winding pinion compression spring IV 17, a winding pinion sliding bearing I18, a winding pinion sliding bearing II 19, a winding pinion sliding bearing III 20 and a winding pinion sliding bearing IV 21; the winding moving disc pressing spring I22, the winding moving disc pressing spring II 23, the winding moving disc pressing spring III 24, the winding moving disc pressing spring IV 25, the sliding shaft I26, the sliding shaft II 27, the sliding shaft III 28, the sliding shaft IV 29, the winding baffle 30, the winding fixed disc 31, the winding moving disc 32, the tip cone 33, the winding spool 34, the driving wheel one-way bearing 35 and the winding one-way bearing 36.

The winding drive unit of the present invention drives the winding shaft 5 to rotate. The winding driving unit comprises a winding motor 1, a driving sprocket 2, a transmission chain 3 and a driven sprocket 4; the output shaft of the winding motor 1 is provided with a driving wheel one-way bearing 35; the driving sprocket 2 is arranged on the driving wheel unidirectional bearing 35; the winding motor 1 drives the driving sprocket 2 to rotate; the driving chain wheel 2 is connected with the driven chain wheel 4 through the transmission chain 3, and the driving chain wheel 2 and the driven chain wheel 4 are meshed with the transmission chain 3; the driving sprocket 2 drives the driven sprocket 4 to rotate through the transmission chain 3. The driven sprocket 4 is fixedly mounted at one end of the winding shaft 5 by bolts, and the winding shaft 5 rotates in synchronization with the driven sprocket 4.

The winding shaft 5 of the present invention has four winding arms, i.e., winding arm i 6, winding arm ii 7, winding arm iii 8, and winding arm iv 9, respectively, along the circumferential direction thereof. Four winding arms are equally spaced on the winding shaft 5. The ends of the winding arm I6, the winding arm II 7, the winding arm III 8 and the winding arm IV 9 are respectively provided with a winding poking tooth I10, a winding poking tooth II 11, a winding poking tooth III 12 and a winding poking tooth IV 13. The winding shifting teeth I10, the winding shifting teeth II 11, the winding shifting teeth III 12 and the winding shifting teeth IV 13 are in transition fit with the winding arm I6, the winding arm II 7, the winding arm III 8 and the winding arm IV 9. The winding shifting teeth I10, the winding shifting teeth II 11, the winding shifting teeth III 12 and the winding shifting teeth IV 13 are provided with a winding shifting tooth pressing spring I14, a winding shifting tooth pressing spring II 15, a winding shifting tooth pressing spring III 16 and a winding shifting tooth pressing spring IV 17, and the winding shifting teeth I10, the winding shifting teeth II 11, the winding shifting teeth III 12 and the winding shifting teeth IV 13 are respectively provided with a winding shifting tooth sliding bearing I18, a winding shifting tooth sliding bearing II 19, a winding shifting tooth sliding bearing III 20 and a winding shifting tooth sliding bearing IV 21.

The winding shifting tooth is of a telescopic structure and comprises a fixed section, a movable section and a shifting tooth pressing spring; one end of the movable section is connected with the fixed section through a tooth-pulling compression spring, the other end of the movable section is provided with a winding tooth-pulling sliding bearing, and the fixed section is fixedly arranged on the winding arm.

The winding shaft 5 of the present invention is provided on the outer periphery of the take-up shaft 34 through a winding one-way bearing 36. The winding shaft 34 is provided with a tip cone 33 and a winding one-way bearing 36, the winding one-way bearing 36 is provided with a winding shaft 5, and the tip cone 33 is positioned on one side of the winding shaft 5. The winding baffle plate 30 is arranged on the tip cone 33, the winding baffle plate 30 is positioned between the tip cone 33 and the winding shaft 5, the winding baffle plate 30 is provided with a winding fixed disc 31 at one side away from the winding shaft 5, and a sliding shaft I26, a sliding shaft II 27, a sliding shaft III 28 and a sliding shaft IV 29 are arranged on the inner side of the winding fixed disc 31; the winding movable disc compression spring I22, the winding movable disc compression spring II 23, the winding movable disc compression spring III 24 and the winding movable disc compression spring 25 IV are respectively sleeved outside the sliding shaft I26, the sliding shaft II 27, the sliding shaft III 28 and the sliding shaft IV 29; the ends of the sliding shafts I26, II 27, III 28 and IV 29 are arranged on a winding moving disc 32. The sliding shafts I26, II 27, III 28 and IV 29 are in transition fit with the winding moving disc 32.

The sliding shaft of the invention is fixedly arranged on the inner side of the winding moving disc 32 through a screw, the winding fixed disc 31 is connected with the winding moving disc 32 in a sliding way, and a channel for the winding moving disc 32 to move is arranged in the winding fixed disc 31. The outside of the sliding shaft is sleeved with a winding moving disc compression spring, one end of the winding moving disc compression spring is fixed on the winding fixed disc 31, and the other end of the winding moving disc compression spring is fixed on the winding moving disc 32.

The winding driving unit drives the winding shaft to rotate, the winding shaft rotates to drive the winding arm and the winding shifting teeth to do circular motion around the center of the winding shaft, one end of the optical cable is wound on a winding disc formed by the winding moving disc and the winding fixed disc, and the other end of the optical cable is driven to wind on the winding disc by the circular motion of the winding shifting teeth.

The above embodiments are merely illustrative of the preferred embodiments of the present invention, and the present invention is not limited to the above embodiments, and various modifications and improvements made by those skilled in the art to the technical solutions of the present invention without departing from the design concept of the present invention should fall within the protection scope of the present invention, and the claimed technical content of the present invention is fully described in the claims.

Claims (7)

1. An automatic winding mechanism of leading-out end on optical cable coiling mechanism which characterized in that: comprises a winding driving mechanism, a winding shaft (5), a winding balance mechanism, a winding moving disc compression spring, a sliding shaft, a winding baffle plate (30), a winding fixed disc (31), a winding moving disc (32), a tip cone (34), a winding shaft (34) and a winding one-way bearing (36);

the winding driving mechanism drives the winding shaft (5) to rotate; a winding balance mechanism is arranged on the winding shaft (5);

the winding shaft (5) is rotationally connected with the winding shaft (34); the winding shaft (34) is provided with a tip cone (33); a winding baffle (30) is arranged on the tip cone (33); a winding fixed disc (31) is arranged on the winding baffle plate (30); a winding moving disc (32) is arranged on one side of the winding fixed disc (31); the winding fixed disc (31) and the winding movable disc (32) are connected with the winding movable disc compression spring in a sliding manner through a sliding shaft;

the winding balance mechanism comprises a winding arm, a winding shifting tooth pressing spring and a winding shifting tooth sliding bearing; the winding arm is fixedly arranged on the winding shaft (5); a winding shifting tooth sliding bearing is arranged on the winding shifting tooth; the winding shifting teeth realize the fine adjustment of the length of the winding shifting teeth through a winding shifting tooth pressing spring; four winding arms are arranged at equal intervals on the periphery of the winding shaft (5); the winding shifting teeth are in transition fit with the winding arms.

2. The automatic take-up mechanism for a pigtail on a fiber optic cable winder as claimed in claim 1, wherein: the winding driving mechanism comprises a winding motor (1), a driving sprocket (2), a transmission chain (3) and a driven sprocket (4); the output end of the winding motor (1) is provided with a driving sprocket (2); the driving chain wheel (2) is connected with the driven chain wheel (4) through a transmission chain (3); the driven chain wheel (4) is fixedly arranged on the winding shaft (5).

3. The automatic take-up mechanism for a pigtail on a cable take-up device of claim 2, wherein: the driving chain wheel (2) and the driven chain wheel (4) are meshed with the transmission chain (3).

4. The automatic take-up mechanism for a pigtail on a cable take-up device of claim 2, wherein: an output shaft of the winding motor (1) is provided with a driving wheel one-way bearing (35); a driving chain wheel (2) is arranged on the driving wheel unidirectional bearing (35).

5. The automatic take-up mechanism for a pigtail on a fiber optic cable winder as claimed in claim 1, wherein: the winding unidirectional bearing (36) is arranged on the winding spool (34), and the winding shaft (5) is arranged on the winding unidirectional bearing (36).

6. The automatic take-up mechanism for a pigtail on a fiber optic cable winder as claimed in claim 1, wherein: four sliding shafts are arranged on one side of the winding fixed disc (31); the sliding shaft is provided with a winding moving disc compression spring, and the end part of the sliding shaft is provided with a winding moving disc.

7. The automatic take-up mechanism for a pigtail on a fiber optic cable winder as claimed in claim 1, wherein: the sliding shaft is in transition fit with the winding moving disc.