CN217126500U - Special-shaped fiber tow pulling-proof winding device - Google Patents

Abstract

The winding device is prevented drawing by dysmorphism fibre silk bundle, including gear motor, the rolling pivot, rolling roller and cycloid ware, gear motor, the rolling pivot, rolling roller and cycloid ware are all along controlling the direction level setting, gear motor's right side is provided with two and controls spaced supports, gear motor's power shaft right-hand member passes through the left end that shaft coupling coaxial drive connects the rolling pivot, the left side portion of rolling pivot is rotated and is installed the cantilever axle structure that forms the right side cantilever on two supports, rolling roller concentric suit is at the right side portion of rolling pivot, be connected through key transmission between rolling roller and the rolling pivot, the cycloid ware sets up the preceding upside at the rolling roller, the cycloid slide of cycloid ware is left and right reciprocating motion under its power unit drive, be equipped with fibre silk bundle on the cycloid slide and prevent drawing actuating mechanism. The utility model discloses rolling dysmorphism fibre silk bundle can relax, it is swift convenient to change the rolling roller, labour saving and time saving, and has avoided the dysmorphism fibre silk bundle to draw the deformation at the rolling in-process.

Description

Special-shaped fiber tow pulling-proof winding device

Technical Field

The utility model relates to a wig goods processing machinery field, specific theory relates to a special-shaped fiber silk bundle prevents drawing coiling mechanism.

Background

The special-shaped fiber tows are usually bent and elastic wires, the special-shaped fiber tows need to be wound into a drum after being manufactured so as to be convenient to transport, the conventional winding device is troublesome in replacing the winding drum, time and labor are wasted, and when the special-shaped fiber tows are wound on the winding drum, the special-shaped fiber tows are easily pulled to deform, the performance change of the special-shaped fiber tows is caused, and the product quality is influenced.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a dysmorphism fibre silk bundle prevents drawing coiling mechanism, the utility model discloses rolling dysmorphism fibre silk bundle can relax, it is swift convenient to change the rolling roller, labour saving and time saving, and has avoided the dysmorphism fibre silk bundle to draw the deformation at the rolling in-process.

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

the winding device is prevented drawing by dysmorphism fibre silk bundle, including gear motor, the rolling pivot, rolling roller and cycloid ware, gear motor, the rolling pivot, rolling roller and cycloid ware are all along controlling the direction level setting, gear motor's right side is provided with two and controls spaced supports, gear motor's power shaft right-hand member passes through the left end that shaft coupling coaxial drive connects the rolling pivot, the left side portion of rolling pivot is rotated and is installed the cantilever axle structure that forms the right side cantilever on two supports, rolling roller concentric suit is at the right side portion of rolling pivot, be connected through key transmission between rolling roller and the rolling pivot, the cycloid ware sets up the preceding upside at the rolling roller, the cycloid slide of cycloid ware is left and right reciprocating motion under its power unit drive, be equipped with fibre silk bundle on the cycloid slide and prevent drawing actuating mechanism.

The fiber tow pulling-proof driving mechanism comprises a pulling-proof motor, two mounting plates which are arranged on a cycloid slide seat and spaced from each other at left and right are arranged on the cycloid slide seat, a driving friction wheel and a driven friction wheel are connected between the two mounting plates in a rotating mode, the driving friction wheel is located under the driven friction wheel, a gap is formed between the driving friction wheel and the driven friction wheel, a profiled fiber tow penetrates through the gap between the driving friction wheel and the driven friction wheel from front to back, a swinging coil located behind the driving friction wheel and below the upper surface of the cycloid slide seat is arranged on the rear side of the upper surface of the cycloid slide seat, the profiled fiber tow penetrates through the swinging coil backwards and downwards and is wound on a winding roller, a power shaft of the pulling-proof motor is in transmission connection with the driving friction wheel, and the driving friction wheel rotates in the direction from front to back on the upper side of the driving friction wheel.

The middle part of rolling pivot is fixed the cover and is equipped with spacing disc, and spacing disc embeds has a plurality of magnets, and the left end face of rolling roller contacts and passes through the magnet absorption together with the right flank contact of spacing disc.

The outer circumferences of the two ends of the rolling roller are integrally formed with annular end plates.

The key is fixedly arranged on the inner wall of the right end of the rolling roller, and a key groove matched and clamped with the key is formed in the outer circle of the right end of the rolling rotating shaft.

Compared with the prior art, the utility model has substantive characteristics and progress, in particular to a novel special-shaped fiber filament bundle conveying device, when the novel special-shaped fiber filament bundle conveying device works, an empty winding roller is concentrically sleeved at the right side part of a winding rotating shaft, the left end surface of the winding roller is in contact with the right side surface of a limiting disc 13 and is adsorbed together through a magnet 17, the special-shaped fiber filament bundle passes through a gap between a driving friction wheel 15 and a driven friction wheel 16 from front to back, then passes through a swinging coil backwards and downwards and is wound on the winding roller, then a speed reducing motor, a swinging device and an anti-pulling motor are started, a power shaft of the speed reducing motor coaxially drives the winding rotating shaft through a coupler, the winding rotating shaft drives the winding roller to rotate through key transmission, a sliding seat of the swinging device reciprocates left and right under the driving of the power mechanism, the power shaft of the anti-pulling motor drives the driving friction wheel to rotate, thereby the special-shaped fiber filament bundle can be conveyed from front to back under the driving of the driving friction wheel and the driven friction force of the driving friction wheel, the irregular fiber tows are ensured to pass through the swing coil in a loose state all the time and are driven by the swing coil to swing and wind on the rolling roller in a left-right reciprocating mode to be wound until the diameter of the outer circle of the irregular fiber tows wound on the rolling roller is the same as that of the annular end plate, the speed reducing motor is turned off to cut off the irregular fiber tows, a worker pulls the irregular fiber tows to prevent the irregular fiber tows from being continuously conveyed to generate stacking and scattering, meanwhile, another worker rapidly pulls the rolled rolling roller off from the rolling rotating shaft, and then another empty rolling roller is sleeved on the right side portion of the rolling rotating shaft in a concentric mode to enable the left end face of the rolling roller to be in contact with the right side face of the limiting disc and be adsorbed together through the magnet, the process is repeated, the irregular fiber tows rolling process can be completed once again, the operation can be performed easily, the irregular fiber tows can be rolled, and the rolling roller is convenient to replace, time and labor are saved, and tension deformation of the profiled fiber tows in the winding process is avoided.

The utility model discloses rolling dysmorphism fibre silk bundle can relax, it is swift convenient to change the rolling roller, labour saving and time saving, and has avoided the dysmorphism fibre silk bundle to draw the deformation at the rolling in-process.

Drawings

Fig. 1 is a schematic top view of the present invention.

Fig. 2 is a sectional view taken along line a-a in fig. 1.

Fig. 3 is a schematic diagram of the profiled fiber tow of the present invention wound around the anti-roping wheel and passing through the pendulum coil.

Detailed Description

The embodiments of the present invention will be further explained with reference to the drawings.

As shown in fig. 1-3, the pulling-proof rolling device for profiled fiber tows comprises a speed reducing motor 1, a rolling rotating shaft 2, a rolling roller 3, a cycloid device 4, a speed reducing motor 1, rolling pivot 2, rolling roller 3 and cycloid ware 4 all set up along left right direction level, gear motor 1's right side is provided with two and controls spaced support 5, gear motor 1's power shaft right-hand member passes through the left end that shaft coupling 6 coaxial drive connected rolling pivot 2, the left side portion of rolling pivot 2 rotates the cantilever axle structure of installing formation right side cantilever on two support 5, rolling roller 3 concentric suit is in the right side portion of rolling pivot 2, be connected through 7 transmissions of key between rolling roller 3 and the rolling pivot 2, cycloid ware 4 sets up the preceding upside at rolling roller 3, cycloid slide 8 of cycloid ware 4 is left right reciprocating motion under its power unit drive, it prevents drawing actuating mechanism to be equipped with the fibre silk bundle on the cycloid slide 8.

The fiber tow pulling-prevention driving mechanism comprises a pulling-prevention motor 9, two mounting plates 10 which are arranged on a cycloid slide 8 and spaced left and right are arranged, a driving friction wheel 15 and a driven friction wheel 16 are connected between the two mounting plates 10 in a rotating mode, the driving friction wheel 15 is located under the driven friction wheel 16, a gap is formed between the driving friction wheel 15 and the driven friction wheel 16, the special-shaped fiber tows penetrate through the gap between the driving friction wheel 15 and the driven friction wheel 16 from front to back, a swinging coil 11 located behind the driving friction wheel 11 is arranged on the rear side portion of the upper surface of the cycloid slide 8, the special-shaped fiber tows penetrate through the swinging coil 11 from back to back and are wound on a winding roller 3, a power shaft of the pulling-prevention motor 9 is in transmission connection with the driving friction wheel 15, and the rotating direction of the driving friction wheel 15 is that the upper side portion of the driving friction wheel 15 from front to back.

The middle part of the rolling rotating shaft 2 is fixedly sleeved with a limiting disc 13, a plurality of magnets 17 are arranged in the limiting disc 13, and the left end face of the rolling roller 3 is in contact with the right side face of the limiting disc 13 and is adsorbed together through the magnets 17.

The two ends of the winding roller 3 are integrally formed with an annular end plate 14.

The key 7 is fixedly arranged on the inner wall of the right end of the rolling roller 3, and the key groove matched and clamped with the key 7 is formed in the outer circle of the right end of the rolling rotating shaft 2.

Gear motor 1, cycloid ware 4 and prevent that act as go-between 9 is current conventional technology, and concrete structure and theory of operation are no longer repeated, and the power unit of cycloid ware 4 is ball screw drive mechanism or other linear motion mechanisms, the utility model relates to a control process does not relate to new computer program.

The utility model discloses during operation, cover the right side portion of rolling pivot 2 with an empty rolling roller 3 concentric, make the left end face of rolling roller 3 contact with the right flank of spacing disc 13 and adsorb together through magnet 17, pass the clearance between initiative friction pulley 15 and driven friction pulley 16 backward from the preceding back with dysmorphism fibre silk bundle 12 and pass pendulum coil 11 and twine on rolling roller 3 backward again, then start gear motor 1, cycloid ware 4 and prevent motor 9, the power shaft of gear motor 1 passes through shaft coupling 6 coaxial drive rolling pivot 2, rolling pivot 2 passes through key 7 transmission rolling roller 3 and rotates, cycloid slide 8 of cycloid ware 4 reciprocates from the left and right under its power unit drive simultaneously, the power shaft of preventing motor 9 drives initiative friction pulley 15 and rotates, thereby fibre silk bundle 12 can be carried forward and backward under the frictional force drive of initiative friction pulley 15 and driven friction pulley 16, ensuring that the profiled fiber tows 12 pass through the swing coil 11 in a loose state all the time and are wound on the winding roller 3 in a left-right reciprocating swing mode under the driving of the swing coil 11 until the diameter of the excircle of the profiled fiber tows 12 wound on the winding roller 3 is the same as that of the annular end plate 14, turning off the speed reduction motor 1, cutting off the profiled fiber tows 12, pulling the profiled fiber tows 12 by workers to prevent the profiled fiber tows 12 from being continuously conveyed to generate stacking and scattering, simultaneously rapidly pulling the wound winding roller 3 off the winding rotating shaft 2 by other workers, sleeving the other empty winding roller 3 on the right side part of the winding rotating shaft 2 concentrically, enabling the left end face of the winding roller 3 to be in contact with the right side face of the limiting disc 13 and be adsorbed together through the magnet 17, repeating the processes, and winding the profiled fiber tows 12 once again, by the operation, the profiled fiber tows 12 can be easily rolled, the rolling roller 3 is quickly and conveniently replaced, time and labor are saved, and tension deformation of the profiled fiber tows 12 in the rolling process is avoided.

The utility model provides a gear motor 1, cycloid ware 4 and support 5 all set up in the frame, and the frame is not illustrated on the picture.

The above embodiments are only used for illustrating but not limiting the technical solution of the present invention, and although the present invention is described in detail with reference to the above embodiments, those of ordinary skill in the art should understand that; the present invention may be modified or substituted with equivalents without departing from the spirit and scope of the invention, which should be construed as being limited only by the claims.

Claims (4)

1. The special-shaped fiber tow pulling-proof winding device is characterized in that: including gear motor, the rolling pivot, rolling roller and cycloid ware, gear motor, the rolling pivot, rolling roller and cycloid ware are all along controlling the direction level setting, gear motor's right side is provided with two supports of controlling the interval, gear motor's power shaft right-hand member passes through the left end of shaft coupling coaxial drive connection rolling pivot, the left side portion of rolling pivot is rotated and is installed the cantilever axle structure that forms the right side cantilever on two supports, rolling roller concentric suit is at the right side portion of rolling pivot, be connected through key drive between rolling roller and the rolling pivot, the cycloid ware sets up the preceding upside at rolling roller, the cycloid slide of cycloid ware is left right reciprocating motion under its power unit drive, it prevents drawing actuating mechanism to be equipped with the fibre silk bundle on the cycloid slide.

2. The profiled fiber tow pulling-proof winding device of claim 1, wherein: the fiber tow pulling-proof driving mechanism comprises a pulling-proof motor, two mounting plates which are arranged on a cycloid slide seat and spaced from each other at left and right are arranged on the cycloid slide seat, a driving friction wheel and a driven friction wheel are connected between the two mounting plates in a rotating mode, the driving friction wheel is located under the driven friction wheel, a gap is formed between the driving friction wheel and the driven friction wheel, a profiled fiber tow penetrates through the gap between the driving friction wheel and the driven friction wheel from front to back, a swinging coil located behind the driving friction wheel and below the upper surface of the cycloid slide seat is arranged on the rear side of the upper surface of the cycloid slide seat, the profiled fiber tow penetrates through the swinging coil backwards and downwards and is wound on a winding roller, a power shaft of the pulling-proof motor is in transmission connection with the driving friction wheel, and the driving friction wheel rotates in the direction from front to back on the upper side of the driving friction wheel.

3. The profiled fiber tow pulling-proof winding device of claim 1, wherein: the middle part of rolling pivot is fixed the cover and is equipped with spacing disc, and spacing disc embeds has a plurality of magnets, and the left end face of rolling roller contacts and passes through the magnet absorption together with the right flank contact of spacing disc.

4. The profiled fiber tow pulling-resistant winding device of claim 1, wherein: the outer circumferences of the two ends of the rolling roller are integrally formed with annular end plates.

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