CN117163751A

CN117163751A - High-efficient weaving yarn rolling equipment

Info

Publication number: CN117163751A
Application number: CN202311457918.4A
Authority: CN
Inventors: 辛俊杰; 辛辉跃
Original assignee: Taixin Chemical Fiber China Co ltd
Current assignee: Taixin Chemical Fiber China Co ltd
Priority date: 2023-11-04
Filing date: 2023-11-04
Publication date: 2023-12-05
Anticipated expiration: 2043-11-04
Also published as: CN117163751B

Abstract

The invention relates to the field of textile winding equipment, in particular to high-efficiency textile yarn winding equipment, which comprises an integrated supporting vertical frame, a twisting machine and a winding mechanism, wherein the twisting machine and the winding mechanism are fixedly arranged on the supporting vertical frame; the twisting machine can twist various bulk fibers according to actual demands to form finished yarn, then the finished yarn directly enters the winding mechanism to perform winding operation of the yarn, manual intervention is not needed, production efficiency is higher, and meanwhile the technical problems that the existing yarn winding equipment is easy to laminate due to the fact that the rolling speed and the back-and-forth movement speed of a winding roller or the yarn outlet speed of a spinning machine is not matched with the winding roller in the yarn winding process, further follow-up winding operation is directly affected, and bumps appear on the surface of a coiled yarn are solved.

Description

High-efficient weaving yarn rolling equipment

Technical Field

The invention relates to the field of winding equipment in textile industry, in particular to efficient textile yarn winding equipment.

Background

The winding equipment is used as a material collecting part of a coil material processing production line, the raw materials are mechanically wound into coil materials, the winding equipment is widely applied to paper rolls, cloth rolls, plastic rolls, yarn rolls and metal coil material processing production lines, the winding equipment is designed variously according to actual process requirements, a simple winding machine is commonly used, a hydraulic winding machine is used, and the winding machine generally has strict requirements on the inner diameter of a coil, the outer diameter of the coil, the thickness and the width of the coil material.

The winding device is widely applied in the textile field, and is mainly applied to winding treatment of finished yarn after spinning and twisting, so that the finished yarn is coiled and is convenient to transport and sell. One of the most easily occurring problems of winding equipment in the textile industry is that a winding roller is prone to lamination phenomenon due to mismatching between the rolling speed and the back-and-forth movement speed of the winding roller or the yarn outlet speed of a spinning machine and the winding roller in the winding process, so that subsequent winding operation is directly affected, and protruding blocks appear on the surface of a rolled yarn, and the problem not only appears in the yarn winding process, but also appears in the textile field such as cloth winding.

The invention patent with the Chinese patent application number of 202211301622.9 discloses an intelligent spinning winding system for preventing textiles from being stacked, which comprises a transmission module, a winding module, a detection module, a leveling module and a winding control module, wherein fabrics spun by a textile machine are transmitted to the winding module through the transmission module, the detection module is used for detecting the flatness of the fabrics in the fabric transmission process to determine whether the fabrics are wrinkled, and the leveling module is controlled to work so as to adjust the fabrics to the preset flatness when the fabrics are wrinkled, so that the fabric rolls after being wound by the winding module meet the winding flatness standard and the size standard, the winding system can effectively ensure that the fabrics can be kept flat to avoid the wrinkled during winding, and ensure that the fabric rolls wound by the intelligent spinning winding system for preventing textiles from being stacked are flat. However, the technical scheme provided by the invention is only matched with the cloth winding suitable for forming sheets, and is difficult to adapt to the filiform yarns, and compared with the textile fabric formed by forming sheets, the yarn winding speed is higher, the contact area between the yarns in the winding process is small, and once the partial winding is disordered and folded, the yarns are continuously stacked in the subsequent winding, so that the quality of the whole finished product is reduced.

Disclosure of Invention

Therefore, aiming at the problems, the invention provides high-efficiency textile yarn winding equipment, which solves the technical problems that the existing yarn winding equipment is easy to cause lamination phenomenon due to the mismatching between the rolling speed and the back-and-forth movement speed of a winding roller or the yarn outlet speed of a spinning machine and the winding roller in the yarn winding process, so that the subsequent winding operation and the protruding blocks on the surface of a coiled yarn are directly influenced.

In order to achieve the above purpose, the present invention adopts the following technical scheme: an efficient textile yarn winding device comprises an integrated supporting vertical frame, a twisting machine and a winding mechanism, wherein the twisting machine and the winding mechanism are fixedly arranged on the supporting vertical frame;

the twisting machine comprises a first working platform, an unreeling mechanism and a twisting mechanism, wherein the unreeling mechanism and the twisting mechanism are arranged on the first working platform, the unreeling mechanism comprises a first supporting shaft and a first rotating disc arranged on the first supporting shaft, the first supporting shaft and the first rotating disc are perpendicular to the first working platform, at least two second supporting shafts are arranged on the first rotating disc, and the second supporting shafts are perpendicular to the first rotating disc; each second supporting shaft is uniformly arranged along the circle center of the first rotating disk, an unreeling roller is sleeved on each second supporting shaft, and the first rotating disk can rotate 360 degrees along the axis direction of the first rotating disk under the drive of a motor;

the twisting mechanism comprises a third supporting shaft and a second rotating disc arranged on the third supporting shaft, the third supporting shaft is perpendicular to the first working platform, the tail end of the free end of the third supporting shaft is provided with an extending shaft, the extending shaft and the third supporting shaft are integrally formed and are perpendicular to each other, the tail end of the free end of the extending shaft is sleeved with a joint bearing, the second rotating disc is sleeved on the joint bearing, through the joint bearing, the second rotating disc can take the axis of the second rotating disc as a rotation center line to present deflection with an included angle on a vertical surface, and the second rotating disc is provided with positioning holes, and the number and the positions of the positioning holes are mutually corresponding to those of the second supporting shaft;

the first working platform is also provided with a collecting mechanism, the collecting mechanism comprises a collecting plate and a collecting hole formed in the collecting plate, and the collecting plate can move up and down along the vertical direction on the first working platform;

the winding mechanism comprises a second working platform, a movable base arranged on the second working platform and a winding roller arranged on the movable base, wherein a movable guide rail is arranged on the second working platform, and the movable base is mutually matched with the movable guide rail to move back and forth on the movable guide rail.

Further, through the knuckle bearing, the included angle between the second rotating disk and the vertical surface is 3 degrees to 5 degrees.

Further, the first guide portion and the second guide portion are fixedly arranged on the second working platform, the first guide portion and the second guide portion are both arranged between the collecting mechanism and the moving base, the first guide portion is close to the collecting mechanism, the second guide portion is close to the moving base, and the first guide portion comprises a guide plate and a guide hole formed in the guide plate.

Further, an annular brush part is arranged on the inner circumferential surface of the guide hole, the annular brush part is made of flexible rubber, and the annular brush part is directly adhered to the inner circumferential surface of the guide hole in a hot melting mode.

Further, the aperture of the guide hole can be varied between 1mm and 3mm by self-deformation of the annular brush portion.

Further, a vibration motor is integrally arranged in the guide plate, the vibration mode of the vibration motor is circular vibration, and the vibration frequency of the vibration motor is 16-18 times/second.

Further, the second guiding part is a guiding roller, the vertical section of the second guiding part along the axial direction of the second guiding part is an arc shape which is recessed towards the center from top to bottom, guiding bulges are arranged on the outer circumferential surface of the second guiding part, the guiding bulges are densely arranged on the outer circumferential surface of the second guiding part, and the guiding bulges are arc-shaped bulges with semicircular vertical sections.

Further, the movable base comprises a U-shaped clamping groove, a first connecting surface and a second connecting surface are oppositely arranged in the U-shaped clamping groove, a third rotating disk is arranged on the first connecting surface, a fourth rotating disk is arranged on the second connecting surface, a first clamping hole is arranged on the third rotating disk, a second clamping hole is arranged on the fourth rotating disk, the first clamping hole and the second clamping hole are eccentrically arranged, projections of the first clamping hole and the second clamping hole on the vertical surface are mutually overlapped, and two ends of the winding roller are respectively clamped in the first clamping hole and the second clamping hole.

Furthermore, the outer circumferential surface of the wind-up roll is uniformly provided with positioning rings, the spacing between every two adjacent positioning rings is the same, and the spacing between every two adjacent positioning rings is 0.3mm-0.5mm.

Further, the vertical section of the positioning ring is triangular.

By adopting the technical scheme, the invention has the beneficial effects that:

1. compared with the existing winding equipment, the winding equipment has the advantages that the winding equipment can directly perform winding operation after twisting a plurality of single yarns to form finished yarns through structural improvement, the whole-course automatic production is realized, manual intervention is avoided, the working efficiency is greatly improved, and meanwhile, the technical problems that the existing yarn winding equipment is easy to cause lamination phenomenon due to mismatching between the rolling speed and the back-and-forth movement speed of a winding roller or the yarn outlet speed of a spinning machine and the winding roller in the yarn winding process, so that the subsequent winding operation is directly influenced, and the convex blocks appear on the surface of a coiled yarn are solved.

Drawings

Other features, objects and advantages of the present invention will become more apparent upon reading of the detailed description of non-limiting embodiments, given with reference to the accompanying drawings in which:

FIG. 1 is a schematic diagram of the overall structure of the present invention;

FIG. 2 is a schematic perspective view of the unreeling mechanism and twisting mechanism of the present invention;

FIG. 3 is a schematic diagram of the front structure of the unreeling mechanism and twisting mechanism of the present invention;

FIG. 4 is a schematic perspective view of a mobile base according to the present invention;

FIG. 5 is a schematic view of the front structure of the mobile base (with wind-up roller) according to the present invention;

FIG. 6 is an enlarged view of FIG. 5 at A;

FIG. 7 is a schematic top view of a second work platform according to the present invention;

FIG. 8 is a schematic diagram of the front structure of a guide plate according to the present invention;

fig. 9 is an enlarged view at B in fig. 8.

Detailed Description

The invention is further described in connection with the following detailed description, in order to make the technical means, the creation characteristics, the achievement of the purpose and the effect of the invention easy to understand.

Referring to fig. 1-9, the invention provides a high-efficiency textile yarn winding device, which comprises an integrated supporting stand 1, a twisting machine and a winding mechanism, wherein the twisting machine and the winding mechanism are fixedly arranged on the supporting stand;

the twisting machine comprises a first working platform 2, an unreeling mechanism and a twisting mechanism, wherein the unreeling mechanism and the twisting mechanism are arranged on the first working platform 2, the unreeling mechanism comprises a first supporting shaft 21 and a first rotating disc 22 which is arranged on the first supporting shaft 21, the first supporting shaft 21 and the first rotating disc 22 are perpendicular to the first working platform 2, three second supporting shafts 23 are arranged on the first rotating disc 22, and the second supporting shafts 23 are perpendicular to the first rotating disc 22; the second supporting shafts 23 are uniformly arranged along the circle centers of the first rotating disk 22, the included angles between the connecting lines of the three second supporting shafts 23 and the circle centers of the first rotating disk 22 are 120 degrees, the unreeling roller 8 is sleeved on the second supporting shafts 23, and the first rotating disk 22 can rotate 360 degrees along the axis direction under the drive of a motor;

the twisting mechanism comprises a third supporting shaft 24 and a second rotating disk 27 arranged on the third supporting shaft 24, the third supporting shaft 24 is perpendicular to the first working platform 2, the tail end of the free end of the third supporting shaft 24 is provided with an extending shaft 25, the extending shaft 25 and the third supporting shaft 24 are integrally formed and are perpendicular to each other, the tail end of the free end of the extending shaft 25 is sleeved with a joint bearing 26, the second rotating disk 27 is sleeved on the joint bearing 26, the second rotating disk 27 can take the axis of the second rotating disk 27 as a rotation center line to form deflection with a vertical surface by an included angle (refer to fig. 3), so that the joint bearing 26 is added between the two, in order to ensure that the second rotating disk 27 is not always kept perpendicular to a horizontal plane in the rotation process, but is offset rotation with a certain included angle with the vertical surface, the second rotating disk 27 is provided with a positioning hole 271, the number and the position of the positioning hole 271 are three corresponding to the second supporting shaft 23, the joint bearing 26 is not known, and the joint bearing 26 is not a redundant part; through the knuckle bearing 26, the second rotating disc 27 has an included angle of 3 ° -5 ° with the vertical plane in the vertical direction, wherein 3 ° -5 ° is an adjustable range, and the specific angle can be adjusted according to the actual situation, and the included angle is 5 ° in the embodiment; the second rotating disc 27 is deflected to rotate, so that the first step of surface flocculation removal is performed on the scattered yarns, and the principle is that the number and positions of the positioning holes 271 and the second supporting shafts 23 arranged on the second rotating disc 27 correspond to each other, namely, the distance between the scattered yarns when transported from the second supporting shafts 23 to the position passing through the positioning holes 271 is kept parallel to the horizontal plane, and the scattered yarns can lean against the lower edge of the positioning holes 271 due to the guiding action of the subsequent collecting mechanism, and the second rotating disc 27 rotates in a manner of deflection and vertical surface at the moment, so that the scattered yarns passing through the positioning holes 271 can be rubbed back and forth in unit time, and the flocks on the surface of the scattered yarns can be removed for the first time at the moment.

The first working platform 2 is further provided with a collecting mechanism, the collecting mechanism comprises a collecting plate 4 and a collecting hole 41 formed in the collecting plate 4, the collecting plate 41 can move up and down on the first working platform 2 along the vertical direction, and the moving mode is that the collecting plate is driven by a motor to lift up and down, and the collecting hole is lifted up and down along with the lifting up and down; the collecting mechanism is arranged on the first working platform 2, and can collect scattered yarns separated from each other into a whole, so that the scattered yarns are matched with the twisting mechanism, and the function of the collecting mechanism is that the scattered yarns can be collected between a certain distance from the winding mechanism, so that finished spinning is formed, and the surface flocculation cleaning operation of the finished spinning in the transportation of the certain distance is facilitated.

The winding mechanism comprises a second working platform 3, a movable base arranged on the second working platform 3 and a winding roller 9 arranged on the movable base, wherein a movable guide rail 31 is arranged on the second working platform 3, the movable base is mutually matched with the movable guide rail 31 to move back and forth on the movable guide rail 31, winding operation is facilitated, and the problem that yarns are wound locally or laminated locally on the winding roller 9 is avoided to a certain extent.

The second working platform 3 is fixedly provided with a first guide part and a second guide part 6, the first guide part and the second guide part 6 are both arranged between the collecting mechanism and the moving base, the first guide part is close to the collecting mechanism, the second guide part 6 is close to the moving base, the first guide part comprises a guide plate 5 and a guide hole 51 which is arranged on the guide plate 5, the inner circumferential surface of the guide hole 51 is provided with an annular brush part 52, the annular brush part 52 is made of flexible rubber, the annular brush part 52 is directly adhered to the inner circumferential surface of the guide hole 51 in a hot melting mode, and the aperture of the guide hole 51 can be changed between 1mm and 3mm through self deformation of the annular brush part 52; the guide plate 5 is internally provided with a vibration motor 53 in an integrated manner, the vibration mode of the vibration motor 53 is circular vibration, the vibration frequency of the vibration motor is 16-18 times/second, and the vibration motor is a working parameter range of the vibration motor 53, and can be specifically adjusted in the range according to actual needs; the second guiding part 6 is a guiding roller, the vertical section of the second guiding part 6 along the axial direction is in an arc shape which is concave towards the center from top to bottom, so that the situation that the movement is close to the center when the spinning is pulled is ensured, meanwhile, the concave arc-shaped design can bring a gathering effect to the twisted spinning in the working process, the finished spinning moving to the second guiding part 6 can move back and forth along the axial direction of the second guiding part 6, the movement is brought by vibration in the previous working, the back and forth movement is matched with the arc-shaped concave structure of the second guiding part 6, the twisting effect to the finished spinning can be achieved, the finished spinning is more compact, the guiding bulge 61 is arranged on the outer circumferential surface of the second guiding part 6, the guiding bulge 61 is in an arc-shaped bulge with a semicircular vertical section, the guiding bulge 61 plays a role in shaking the spinning, the principle of the spinning can be similar to that the cotton is beaten, and the finished spinning can be removed under the action of the bulge, and the third step is carried out under the action of guiding bulge;

by providing the first guide part and the second guide part 6, wherein the first guide part comprises the guide plate 5 and the guide hole 51 arranged on the guide plate 5, the first guide part is close to the collecting mechanism, the guide hole 51 and the collecting hole 41 are mutually matched to work, so that scattered yarns can be transported to the guide hole 51 from the collecting hole 41 in a finished yarn state after being twisted by the twisting mechanism matched with the collecting hole 41, the structure of the first guide part and the effect are provided at the position, on one hand, the annular brush part 52 is used for carrying out the second flock removal on the finished yarn after the first flock removal and twisting, because single scattered yarns rub each other in the twisting process even after the first flock removal, new flocks are generated in the rubbing process, and the annular brush part 52 is used for removing the flocks on the outer circumferential surface of the finished yarn; on the other hand, because the specification of the multi-strand loose yarn is difficult to be kept consistent, small bumps can be formed by partial piling and extrusion in the twisting process, and the multi-strand loose yarn can be smoothed out smoothly through the brush on the annular brush part 52;

through being provided with vibrating motor 53 in the guide board 5 is integrated, vibrating motor 53's setting aim at works with the annular brush portion 52 cooperation in the guide hole 51 to perfect the operation of clearing away the second time batting, this vibrating motor 53 adopts circular vibration, its vibration orbit is the projection on the vertical face for circular, can understand through this vibrating motor 53 guide hole 51 can carry out extremely small degree circular motion on the vertical face, and the effect of the operation of clearing away the second time batting has been promoted from both sides to the circular motion that produces, firstly shake off the batting on finished product spinning surface through the vibration, secondly make annular brush portion 52 carry out the circular motion in vertical direction, can make annular brush portion 52 more high-efficient more comprehensive clear away the batting on finished product spinning surface, and the vibration that vibrating motor 53 brought also can make annular brush portion 52 more easily smooth the loose yarn heap that finished product spinning surface exists and squeeze out.

The movable base comprises a U-shaped clamping groove 7, a first connecting surface 71 and a second connecting surface 74 are oppositely arranged in the U-shaped clamping groove 7, a third rotating disc 72 is arranged on the first connecting surface 71, a fourth rotating disc 75 is arranged on the second connecting surface 74, a first clamping hole 73 is arranged on the third rotating disc 72, a second clamping hole 76 is arranged on the fourth rotating disc 75, the first clamping hole 73 and the second clamping hole 76 are eccentrically arranged, the winding roller 9 has a continuously circulated backward and gently pulled traction force in the winding process in an eccentric rotation mode, the traction force is matched with the rotation of the winding roller 9, the finished spinning can be more compact in the winding process, the winding is more compact, the situation that lamination or disorder occurs due to local loosening is avoided, projections of the first clamping holes 73 and the second clamping holes 76 on a vertical surface are overlapped with each other, two ends of the winding roller 9 are respectively clamped in the first clamping holes 73 and the second clamping holes 76, positioning rings 91 are uniformly arranged on the outer circumferential surface of the winding roller 9, the spacing between two adjacent positioning rings 91 is the same, the spacing between two adjacent positioning rings 91 is 0.5mm, and the vertical section of each positioning ring 91 is triangular; the setting purpose of retainer plate 91 is guaranteeing the initial stage of rolling of finished yarn, and first layer yarn can cooperate the wind-up roll 9 of round trip movement to carry out the rolling operation at the rolling in-process promptly, and the retainer plate 91 can play the positioning action to the yarn roll, guarantees the steady of basic unit's yarn roll, provides the bedding for subsequent range upon range of rolling operation, and the vertical cross-section of retainer plate 91 adopts triangle-shaped, including two hypotenuses of mutual symmetry promptly, can separate adjacent two yarns and respectively fix a position in the recess between two retainer plates 91.

While the fundamental and principal features of the invention and advantages of the invention have been shown and described, it will be apparent to those skilled in the art that the invention is not limited to the details of the foregoing exemplary embodiments, but may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are, therefore, to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present disclosure describes embodiments, not every embodiment is provided with a separate embodiment, and that this description is provided for clarity only, and that the disclosure is not limited to the embodiments described in detail below, and that the embodiments described in the examples may be combined as appropriate to form other embodiments that will be apparent to those skilled in the art.

Claims

1. High-efficient weaving yarn rolling equipment, its characterized in that: comprises an integrated supporting vertical frame, a twisting machine and a winding mechanism, wherein the twisting machine and the winding mechanism are fixedly arranged on the supporting vertical frame;

2. The high-efficiency textile yarn winding apparatus of claim 1 wherein: and through the knuckle bearing, the included angle between the second rotating disk and the vertical surface is 3-5 degrees.

3. The high-efficiency textile yarn winding apparatus of claim 2 wherein: the first guide part and the second guide part are fixedly arranged on the second working platform, the first guide part and the second guide part are both arranged between the collecting mechanism and the movable base, the first guide part is close to the collecting mechanism, the second guide part is close to the movable base, and the first guide part comprises a guide plate and a guide hole formed in the guide plate.

4. A high efficiency textile yarn winding apparatus as claimed in claim 3 wherein: the guide hole is characterized in that an annular brush part is arranged on the inner circumferential surface of the guide hole, the annular brush part is made of flexible rubber, and the annular brush part is directly adhered to the inner circumferential surface of the guide hole in a hot melting mode.

5. The high-efficiency textile yarn winding apparatus of claim 4 wherein: the aperture of the guide hole can be varied between 1mm and 3mm by self-deformation of the annular brush portion.

6. The high-efficiency textile yarn winding apparatus of claim 5 wherein: the guide plate is internally integrated with a vibrating motor, the vibrating motor vibrates in a circular mode, and the vibrating frequency of the vibrating motor is 16-18 times/second.

7. The high-efficiency textile yarn winding apparatus of claim 6 wherein: the second guide part is a guide roller, the vertical section of the second guide part along the axial direction of the second guide part is an arc shape which is recessed towards the center from top to bottom, guide bulges are arranged on the outer circumferential surface of the second guide part, the guide bulges are densely arranged on the outer circumferential surface of the second guide part, and the guide bulges are arc-shaped bulges with semicircular vertical sections.

8. The high-efficiency textile yarn winding apparatus of claim 7 wherein: the movable base comprises a U-shaped clamping groove, a first connecting surface and a second connecting surface are oppositely arranged in the U-shaped clamping groove, a third rotating disk is arranged on the first connecting surface, a fourth rotating disk is arranged on the second connecting surface, a first clamping hole is arranged on the third rotating disk, a second clamping hole is arranged on the fourth rotating disk, the first clamping hole and the second clamping hole are eccentrically arranged, projections of the first clamping hole and the second clamping hole on the vertical surface are mutually overlapped, and two ends of the wind-up roll are respectively clamped in the first clamping hole and the second clamping hole.

9. The high-efficiency textile yarn winding apparatus of claim 8 wherein: the outer circumferential surface of the wind-up roll is uniformly provided with positioning rings, the spacing between every two adjacent positioning rings is the same, and the spacing between every two adjacent positioning rings is 0.3mm-0.5mm.

10. The high-efficiency textile yarn winding apparatus of claim 9 wherein: the vertical section of the positioning ring is triangular.