CN112173840A - Yarn divider and yarn dividing system - Google Patents

Abstract

This paper provides a yarn separator and yarn separating system, relates to the yarn separating field, and wherein, the yarn separator includes: the rolling mechanism comprises a base, at least two transverse rolling rods and at least two vertical rolling rods, wherein the at least two transverse rolling rods and the at least two vertical rolling rods are arranged on the base, and the axial directions of the transverse rolling rods and the arrangement direction of the vertical rolling rods are the same; the transverse rolling rod is used for penetrating through the fiber yarns, and the fiber yarns are tightly attached to the transverse rolling rod; the vertical rolling rod is used for dividing the fiber yarns transmitted by the transverse rolling rod. The paper can prevent the fiber yarns from knotting, avoid the problems of abrasion, folding and overturning of the fiber yarns in the threading process, and improve the uniformity of the structural strength of the composite layer.

Description

Yarn divider and yarn dividing system

Technical Field

The document belongs to the field of yarn dividers, and particularly relates to a yarn divider and a yarn dividing system.

Background

In the prior art, fibers are unwound from a fiber shaft to an aluminum liner and pass through three main parts of a creel, a glue dipping tank and a winding device, one of yarn dividing tools on a yarn threading path of the existing winding device is a round ceramic eye yarn divider, and the yarn dividing tools mainly play roles in preventing tows from knotting and guiding the fiber trend. However, the existing round ceramic eye yarn divider has the following defects:

under the action of the tension of the large tow fiber, the tow is tightly attached to the circumferential inner wall of the ceramic eye, and the fiber is folded or overturned under the action of the circumferential curvature, so that the fiber is poor in yarn spreading, uneven in gum dipping and insufficient. And the fiber is abraded, so that the quantity of broken filaments of the fiber is increased.

The second yarn dividing tool on the yarn threading path of the existing winding equipment is a round upright post yarn divider which mainly plays the roles of dividing yarn and guiding the trend of fibers. However, the existing round upright post yarn divider has the following defects:

the circular column yarn divider has smaller cylinder diameter, and has larger abrasion to the fiber when the fiber has larger angle direction change. And the abraded fiber broken filaments can be wound on the upright posts, so that the fiber broken filaments are more and more.

Disclosure of Invention

The fiber bundle folding and overturning device is used for solving the technical problems of abrasion of fibers on a yarn divider tool and folding and overturning of fiber bundles in the prior art.

In order to solve the above technical problem, a first aspect herein provides a yarn splitter, including: the rolling mechanism comprises a base, at least two transverse rolling rods and at least two vertical rolling rods, wherein the at least two transverse rolling rods and the at least two vertical rolling rods are arranged on the base, and the axial directions of the transverse rolling rods and the arrangement direction of the vertical rolling rods are the same;

the transverse rolling rod is used for penetrating through the fiber yarns, and the fiber yarns are tightly attached to the transverse rolling rod;

the vertical rolling rod is used for dividing the fiber yarns transmitted by the transverse rolling rod.

In a further embodiment herein, the yarn divider further comprises: a cross bar adjustment assembly;

the transverse rod adjusting assembly is arranged on the base and used for fixing the position of the transverse rolling rod and adjusting the height of the transverse rolling rod.

In a further embodiment herein, the crossbar adjustment assembly comprises: the height adjusting rods are provided with first hollows;

and two ends of the transverse rolling rod respectively penetrate through the first hollow parts on the height adjusting rods and then are fixed on the height adjusting rods.

In a further embodiment herein, the yarn divider further comprises: a vertical rod adjusting component;

the vertical rod adjusting assembly is arranged on the base and used for fixing the position of the vertical rolling rods and adjusting the distance between the vertical rolling rods.

In a further embodiment herein, the stem adjustment assembly comprises: the second hollow is arranged on the base, and the vertical rolling rod penetrates through the second hollow and then is fixed on the base.

In a further embodiment of the present disclosure, the yarn divider further comprises a plurality of vertical rod adjusting components, wherein one vertical rod adjusting component is provided with the vertical rolling rod;

the vertical rod adjusting components are arranged on the base at equal intervals or non-equal intervals and used for adjusting the interval between the vertical rolling rods and the transverse rolling rods.

In a further embodiment of the present disclosure, the horizontal roller bar and the vertical roller bar are provided with a plating layer.

In further embodiments herein, the diameter of each of the transverse roller and the vertical roller is greater than the spread of the fiber tow.

In a further embodiment of the present disclosure, the arrangement direction of the lateral rollers is in a range of 45 ° to 145 °.

A second aspect herein provides a yarn splitting system comprising: the yarn separating device comprises a creel, a dipping component, a winding component and two yarn distributors in any one of the two embodiments. And the fiber yarn on the creel is subjected to yarn splitting by one of the yarn splitters and enters the impregnation component for impregnation, and after the impregnation treatment of the impregnation component, the fiber yarn is subjected to yarn splitting by the other yarn splitter and enters the winding component for winding.

According to the yarn divider and the yarn dividing system provided by the invention, the yarn divider is designed to comprise a base, and at least two transverse rolling rods and at least two vertical rolling rods which are arranged on the base, wherein the axial directions of the transverse rolling rods and the arrangement direction of the vertical rolling rods are the same in trend; the transverse rolling rod is used for penetrating the fiber yarns, and the fiber yarns are tightly attached to the transverse rolling rod; the vertical rolling rod is used for dividing the fiber yarns conveyed by the transverse rolling rod. The yarn divider replaces the existing round ceramic eye yarn divider and the round upright post yarn divider, so that the knotting of the fiber yarns can be prevented, the problems of abrasion, folding and overturning of the fiber yarns in the yarn threading process are avoided, and the structural strength uniformity of the composite layer is improved.

In order to make the aforementioned and other objects, features and advantages of the present invention comprehensible, preferred embodiments accompanied with figures are described in detail below.

Drawings

In order to more clearly illustrate the embodiments or technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to the drawings without creative efforts.

FIG. 1 shows a first configuration of a yarn divider according to embodiments herein;

FIG. 2 shows a second block diagram of the yarn divider according to the embodiment of the present disclosure;

FIG. 3 shows a third structural pattern of the yarn splitter of the embodiments herein;

FIG. 4 shows a first configuration diagram of the yarn divider system of the embodiments herein;

FIG. 5 shows a second block diagram of the yarn splitting system of the embodiments herein.

Description of the symbols of the drawings:

110. a base;

120. a transverse rolling rod;

130. a vertical roll bar;

140. a cross bar adjustment assembly;

150. a vertical rod adjusting component;

141. a height adjustment lever;

142. a first hollow out;

151. second hollowing out;

410. a creel;

420. a first splitter;

430. a glue dipping component;

440. a second splitter;

450. a winding assembly;

411. a fiber reel;

412. a fiber axis;

431. a glue dipping tank guide roller;

432. a glue limiting plate;

433. a glue dipping roller;

434. a glue scraping rod;

435. a suspension roller;

451. a yarn guide comb;

452. a T-shaped frame;

453. and D-shaped rings.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments herein without making any creative effort, shall fall within the scope of protection.

In one embodiment herein, as shown in FIG. 1, FIG. 1 shows a first configuration of the yarn splitter of the embodiments herein. The technical problems of abrasion of fibers on the existing yarn divider tool and folding and overturning of fiber tows in the prior art can be solved by the aid of the embodiment.

Specifically, as shown in fig. 1, the yarn divider includes: the roller device comprises a base 110, and at least two transverse roller bars 120 and at least two vertical roller bars 130 which are arranged on the base 110, wherein the transverse roller bars 120 and the vertical roller bars 130 are arranged side by side, that is, the transverse roller bars 120 and the vertical roller bars 130 are respectively in a plane and have the same arrangement direction, and the axial direction of the transverse roller bars 120 and the arrangement direction of the vertical roller bars 130 have the same tendency.

The transverse rolling rods 120 are fixed on the base 110 through a fixing bracket and are used for passing through the fiber threads, and the fiber threads are tightly attached to the transverse rolling rods, specifically, a gap between every two transverse rolling rods 120 is used for passing through the fiber threads. Taking fig. 1 as an example, the fiber yarn threaded from above at a certain angle is closely attached to the lower surface of the upper horizontal roller, and the yarn threaded from below at a certain angle is closely attached to the lower surface of the lower horizontal roller.

The vertical rolling rods 130 are directly fixed on the base 110 (specifically, clamping and bolt fastening can be used for realizing), and are used for dividing the fiber yarns conveyed by the transverse rolling rods 120, and specifically, a gap between every two vertical rolling rods 130 is used for allowing the fiber yarns to pass through.

In detail, the yarn divider in fig. 1 is only an exemplary illustration, the transverse direction described herein refers to a direction parallel to the base 110 or at a first predetermined angle (e.g., 0 ° to 15 °), the longitudinal direction refers to a direction perpendicular to or at a second predetermined angle (e.g., an angle between plus or minus 75 ° and 90 °), and the axial direction of the transverse roller 120 is the same as the arrangement direction of the vertical roller 130, and the axial direction of the transverse roller 120 is 0 ° to plus or minus 15 ° with respect to the arrangement direction of the vertical roller 130. The transverse roller 120 and the vertical roller 130 are only different in size and installation direction, and have similar structures.

In order to ensure the tight fit of the fiber yarns on the transverse rolling rods, the gap between the transverse rolling rods ranges from 15mm to 30 mm. The divider that this embodiment provided at first hugs closely the conveying of horizontal roll bar with the cellosilk, and the cellosilk gets into the conveying of vertical roll bar after that, can prevent that the cellosilk from knoing, avoids appearing the problem that the cellosilk is wearing and tearing, folding and upset at the threading in-process, improves composite bed structural strength's homogeneity.

In one embodiment of the present disclosure, the number of the lateral rollers is 2, and the number of the vertical rollers is 6, as shown in fig. 2. In other embodiments, the number of the transverse rolling rods can also be 3, and the number of the vertical rolling rods is 8. The specific number of the horizontal rolling rods and the vertical rolling rods can be adjusted according to the actual situation, and the specific number is not limited in this document.

In one embodiment, in order to further reduce the abrasion of the roller to the fiber, prevent the fiber from winding around the roller after the fiber is broken, and improve the fiber strength transfer rate, a coating is disposed on the horizontal roller 120 and the vertical roller 130. The material of the coating is, for example, chromium, nickel, etc., and any material capable of increasing the surface smoothness can be used as the material of the coating, which is not limited herein

In one embodiment, the diameter of the horizontal roller 120 and the vertical roller 130 is larger than the width of the fiber tow to further reduce the direction change and abrasion of the fiber. The widening of the fiber tows refers to the width of the fibers under stress of the fiber tows, and is generally 16 to 18 mm.

In one embodiment, the arrangement direction of the lateral rollers 120 is in a range of 45 ° to 145 ° with respect to the base 110. Preferably, the arrangement direction of the transverse rollers 120 is 90 ° to the base 110.

In one embodiment of the present disclosure, in order to be able to apply the yarn splitting of various tow (e.g., large tow, multi-tow) fiber filaments, as shown in fig. 2, on the basis of the yarn splitter, the yarn splitter further includes: a cross bar adjustment assembly 140 and a vertical bar adjustment assembly 150.

The cross bar adjusting assembly 140 is disposed on the base 110 for fixing the position of the lateral roller 120 and adjusting the height of the lateral roller 120.

The vertical rod adjusting assembly 150 is disposed on the base 110, and is used for fixing the position of the vertical roller 130 and adjusting the distance between the vertical rollers 130.

In one embodiment, the crossbar adjustment assembly 140 includes: two height adjustment rods 141, each height adjustment rod 141 is provided with a first hollow 142. Two ends of the transverse roller 120 respectively pass through the first hollow 142 of each height adjustment rod 141 and then are fixed on the height adjustment rods 141.

In detail, the height adjustment rod 141 is generally made of a metal material in order to ensure the strength of the height adjustment rod 141. The first hollow 142 is an opening penetrating through the middle region of the height adjustment rod 141, and the specific size thereof may be determined according to the diameters of the two ends of the transverse roller 120, which is not particularly limited herein. After both ends of the transverse rolling rod 120 pass through the first hollow 142 of the height adjustment rod 141, the transverse rolling rod is fastened to the height adjustment rod by nuts. When the position of the transverse rolling rod 120 needs to be adjusted, the nut on the height adjusting rod 141 is loosened and tightened, the transverse rolling rod 120 is arranged at a desired position on the first hollow 142, and the nut is fastened on the height adjusting rod after the position is set, so that the height of the transverse rolling rod 120 is adjusted.

In one embodiment, the stem adjustment assembly 150 includes: the second hollow 151 is disposed on the base 110, and the vertical roller 130 is fixed on the base 110 after passing through the second hollow 151.

In detail, the second hollow 151 is an opening penetrating through the base 110, and the specific size thereof may be determined according to the diameters of the two ends of the vertical roller 130, which is not limited in this disclosure. After the vertical roller 130 passes through the second hollow 151, it can be fixed on the base 110 by nut locking. When the distance between the vertical rolling rods 130 needs to be adjusted, the nuts on the vertical rolling rods 130 are loosened and tightened, and then the vertical rolling rods 130 are arranged at the expected positions of the second hollow-out 151, and the nuts are fastened on the base 110, so that the distance between the vertical rolling rods 130 is adjusted.

In specific implementation, the cross bar adjusting component 140 and the vertical bar adjusting component 150 may be designed into other structures, which are not specifically limited herein, and all the structures capable of fixing the transverse rolling bar 120 and adjusting the height belong to the protection range of the cross bar adjusting component 140 described herein, and all the structures capable of fixing the vertical rolling bar 130 and adjusting the distance belong to the protection range of the vertical bar adjusting component 150 described herein.

In some embodiments, to define the installation position of the cross-bar roller 120 in the cross-bar adjustment assembly 140, the diameter of the cross-bar roller 120 at both ends is smaller than the diameter of the cross-bar roller 120 at the middle position. In specific implementation, the transverse rolling rod 120 may be integrally formed, or may be separately formed, and specifically, the transverse rolling rod 120 includes: a roller and a sleeve, the sleeve is sleeved on the roller to form a transverse roller 120.

Also, to define the installation position of the vertical roller 130 in the vertical rod adjustment assembly 150, the diameters of both ends of the vertical roller 130 are smaller than the diameter of the middle position of the vertical roller 130. During specific implementation, vertical roll bar 130 can integrated into one piece, can also split into pieces, and is specific, vertical roll bar 130 includes: a rolling rod and a sleeve, wherein the sleeve is sleeved on the rolling rod to form a vertical rolling rod 130.

In one embodiment of the present disclosure, in order to improve the winding efficiency, the winding requirement of large tows and multiple tows is satisfied, as shown in fig. 3, the yarn divider includes a plurality of vertical rod adjusting assemblies 150 (for example, 3, the specific number can be set according to actual needs), wherein a vertical rod adjusting assembly 150 is provided with a vertical roller 130.

The vertical rod adjusting components 150 are disposed on the base 110 at equal intervals or at unequal intervals, and are used for adjusting the interval between the vertical rolling rods 130 and the horizontal rolling rods 120.

In detail, the distance between the vertical rod adjusting components 150 can be set according to actual requirements, and is not particularly limited herein. By arranging the vertical roller 130 on different vertical rod adjusting components 150 (i.e. arranging the vertical roller 130 on different second hollow positions), the distance between the vertical roller 130 and the horizontal roller 120 can be adjusted.

In one embodiment herein, as shown in fig. 4, a sand separating system is further provided to improve the uniformity of the fiber-impregnated resin by reducing the folding and turning of the fibers, thereby improving the uniformity of the structural strength of the composite layer. Specifically, the sand separating system includes a creel 410, a first yarn splitter 420, a gum dipping assembly 430, a second yarn splitter 440, and a winding assembly 450, wherein the first yarn splitter 420 and the second yarn splitter 440 have the same structure, and each of the first yarn splitter 420 and the second yarn splitter 440 includes a base, and at least two transverse rolling rods and at least two vertical rolling rods disposed on the base, and the specific structures of the first yarn splitter 420 and the second yarn splitter 440 refer to the structures of the yarn splitters shown in fig. 1 to 3, which are not described in detail herein.

The fiber filaments on the creel 410 are split by the first splitter 420 and enter the impregnation module 430 for impregnation, and are split by the second splitter 440 and enter the winding module 450 for winding after the impregnation treatment of the impregnation module 430.

In one embodiment, as shown in FIG. 5, the creel 410 includes a fiber spool 411 and a fiber spool 412. The fiber spool 411 has a tension system built into it for providing tension to the fiber on the fiber spool 411. The fiber shaft 412 is used to provide fiber steering.

The glue dipping assembly 430 includes: a glue dipping tank guide roller 431, a glue limiting plate 432, a glue dipping roller 433, a glue scraping rod 434 and a suspension roller 435. The dip tank guide roller 431 is used to guide the fiber filaments onto the dip roller 433 at an angle. The glue limiting plate 432 is used for scraping off redundant resin on the dipping roller 433, so that the resin amount on the dipping roller 433 is uniform and controllable. The dip roller 433 is used for sticking the resin in the glue tank to the circumference of the dip roller 433 through rotation, and the fiber yarns passing above the dip roller 433 can be used for continuously and uniformly soaking the resin. The doctor bar 434 is used to scrape off excess resin after the filaments have been impregnated with resin. The dancer 435 is used to keep the tension of the filaments constant.

The winding assembly 450 includes: a yarn guide comb 451, a T-shaped frame 452 and a D-shaped ring 453. The winding assembly is a tool close to the end of the product, and aims to wind the fiber yarns on the final product at a certain angle.

The yarn dividing system provided by the invention is characterized in that the yarn divider is designed to comprise a base, at least two transverse rolling rods and at least two vertical rolling rods, wherein the transverse rolling rods and the vertical rolling rods are arranged on the base, and the axial direction of each transverse rolling rod and the arrangement direction of each vertical rolling rod are in the same trend; the transverse rolling rod is used for penetrating the fiber yarns, and the fiber yarns are tightly attached to the transverse rolling rod; vertical roll bar is used for carrying out the dividing to the cellosilk of horizontal roll bar conveying, utilizes this article dividing yarn ware to replace current circular ceramic eye dividing yarn ware and circular stand dividing yarn ware, can prevent that the cellosilk from knoing, avoids appearing the problem that the cellosilk is wearing and tearing, folding and upset at the threading in-process, improves composite bed structural strength's homogeneity.

It should also be understood that, in the embodiments herein, the term "and/or" is only one kind of association relation describing an associated object, meaning that three kinds of relations may exist. For example, a and/or B, may represent: a exists alone, A and B exist simultaneously, and B exists alone. In addition, the character "/" herein generally indicates that the former and latter related objects are in an "or" relationship.

The illustrative embodiments and descriptions herein are presented for purposes of illustration and not of limitation. Additionally, the same or similar numbered elements/components used in the drawings and the embodiments are used to represent the same or similar parts.

As used herein, the terms "first," "second," and the like, do not denote any order or order, nor do they limit the present disclosure, but rather are used to distinguish one element from another or from another element or operation described in the same technical language. With respect to directional terminology used herein, for example: up, down, etc., with reference only to the orientation of the figures. Accordingly, the directional terminology used is intended to be illustrative and is not intended to be limiting of the present teachings. As used herein, the terms "comprising," "including," and the like are open-ended terms that mean including, but not limited to.

It is clear to those skilled in the art that, for convenience and brevity of description, the specific working processes of the above-described systems, apparatuses and units may refer to the corresponding processes in the foregoing method embodiments, and are not described herein again.

In the several embodiments provided herein, it should be understood that the disclosed system, apparatus, and method may be implemented in other ways. The units described as separate parts may or may not be physically separate, and parts displayed as units may or may not be physical units, may be located in one place, or may be distributed on a plurality of network units. Some or all of the units can be selected according to actual needs to achieve the purposes of the embodiments herein.

The principles and embodiments of this document are explained herein using specific examples, which are presented only to aid in understanding the methods and their core concepts; meanwhile, for the general technical personnel in the field, according to the idea of this document, there may be changes in the concrete implementation and the application scope, in summary, this description should not be understood as the limitation of this document.

Claims (10)

1. A yarn divider, comprising: the rolling device comprises a base (110), at least two transverse rolling rods (120) and at least two vertical rolling rods (130), wherein the transverse rolling rods (120) and the vertical rolling rods (130) are arranged on the base, and the axial direction of the transverse rolling rods is the same as the arrangement direction trend of the vertical rolling rods (130);

the transverse rolling rod (120) is used for passing through the fiber yarns, and the fiber yarns are tightly attached to the transverse rolling rod (120);

the vertical rolling rod (130) is used for dividing the fiber yarns transmitted by the transverse rolling rod (120).

2. The yarn divider of claim 1, further comprising: a crossbar adjustment assembly (140);

the cross bar adjusting assembly (140) is arranged on the base (110) and used for fixing the position of the transverse rolling rod (120) and adjusting the height of the transverse rolling rod (120).

3. The yarn splitter according to claim 2, wherein the cross-bar adjustment assembly (140) comprises: the height adjusting device comprises two height adjusting rods (141), wherein each height adjusting rod (141) is provided with a first hollow part (142);

two ends of the transverse rolling rod (120) respectively penetrate through the first hollow parts (142) on the height adjusting rods (141) and then are fixed on the height adjusting rods (141).

4. The yarn divider of claim 1, further comprising: a stem adjustment assembly (150);

the vertical rod adjusting component (150) is arranged on the base (110) and used for fixing the position of the vertical rolling rod (130) and adjusting the distance between the vertical rolling rods (130).

5. The yarn splitter according to claim 4, characterized in that the vertical bar adjustment assembly (150) comprises: the second hollow part (151) is arranged on the base (110), and the vertical rolling rod (130) penetrates through the second hollow part (151) and then is fixed on the base (110).

6. The yarn divider according to claim 4, further comprising a plurality of vertical rod adjusting assemblies (150), wherein one vertical rod adjusting assembly (150) is provided with the vertical roller (130);

the vertical rod adjusting components (150) are arranged on the base (110) at equal intervals or at unequal intervals and used for adjusting the interval between the vertical rolling rod (130) and the transverse rolling rod (120).

7. The yarn divider according to claim 1, characterized in that the transverse roller (120) and the vertical roller (130) are provided with a coating.

8. The yarn divider according to claim 1, characterized in that the diameter of the transverse roll bar (120) and the vertical roll bar (130) is larger than the spread of the fiber tows.

9. The yarn divider according to claim 1, characterized in that the arrangement direction of the transverse rollers (120) is in the range of 45 ° to 145 ° to the base (110).

10. A sand separation system, comprising: -a creel (410), a dipping assembly (430), a winding assembly (450) and two splitters according to any one of claims 1 to 9;

the fiber yarn on the creel (410) enters the impregnation component (430) for impregnation through yarn splitting of one yarn splitter, and enters the winding component (450) for winding through yarn splitting of the other yarn splitter after the impregnation treatment of the impregnation component (430).

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