CN114635204A

CN114635204A - Preparation facilities is used in vortex spun core-spun yarn production

Info

Publication number: CN114635204A
Application number: CN202210087586.4A
Authority: CN
Inventors: 徐轶娄; 王强; 崔小峰; 郑卫国
Original assignee: Suzhou City Xingjingze Fiber Technology Co ltd
Current assignee: Suzhou City Xingjingze Fiber Technology Co ltd
Priority date: 2022-01-25
Filing date: 2022-01-25
Publication date: 2022-06-17
Anticipated expiration: 2042-01-25
Also published as: CN114635204B

Abstract

The invention discloses a preparation device for producing vortex spinning covering yarns, and relates to the technical field of spinning. According to the U-shaped frame, the central position of the inner side surface of the U-shaped frame is connected with a winding mechanism through a lifting mechanism, the central position of the bottom end surface of the U-shaped frame is connected with a supporting mechanism, the central position of the lower part of the front end of the U-shaped frame is connected with a bearing mechanism, and the rear part of the upper end surface of the bearing mechanism is connected with an anti-overlapping mechanism; prevent knotting mechanism, prevent knotting mechanism interval connection in accepting mechanism up end front portion, and prevent that two sets of axle bed middle parts that knotting mechanism includes cup joint and be connected with the axostylus axostyle, the axostylus axostyle middle part cup joints and is connected with the take-up pulley, and the electric putter at accepting mechanism up end middle part goes up the output and is connected with the axle bed that is in the rear end. The anti-overlapping mechanism and the anti-knotting mechanism are arranged, so that the problems that knotting is easy to occur in the winding process of the core yarn in the existing winding device, and meanwhile, overlapping is easy to occur when winding operation of the core yarn is performed in a single direction are solved.

Description

Preparation facilities is used in vortex spun covering yarn production

Technical Field

The invention belongs to the technical field of spinning, and particularly relates to a preparation device for producing vortex spun core-spun yarns.

Background

The spinning idea is a general name taken from spinning and weaving, but with the continuous development and perfection of a spinning knowledge system and a subject system, the spinning idea also comprises a non-woven fabric technology, a modern three-dimensional weaving technology and a modern electrostatic nano-web forming technology, and a winding device for producing core yarns belongs to equipment for spinning.

Through retrieval, the China authorization publication number CN105858299A, the authorization publication date 2016.08.17, authorizes and discloses a winding device for spinning, the cleaning device can automatically complete the functions of cutting and locking cloth ends, and the working efficiency is improved. The structure of the winding device comprises a winding roller, wherein baffles are arranged on two sides of the winding roller, a large belt wheel is arranged on the outer side of each baffle, the large belt wheel is connected with a small belt wheel through a belt, the small belt wheel is arranged on a motor, and a static electricity remover is arranged below the left side of the winding roller; the left side of the static electricity remover is provided with a cutter, the cutter comprises a sliding group, a cutter rest is arranged above the sliding group, a cutting knife is arranged above the cutter rest, and the sliding group is arranged on a guide rail; the left side of the cutting device is provided with a fixed roller, the left side of the fixed roller is provided with a movable roller, the movable roller is installed on a fixed frame, and the fixed frame is provided with a track for the movable roller to move. The winding device for spinning is simple to operate, convenient to use and suitable for various places.

However, the following disadvantages still exist in the practical use:

1. in the existing winding device, when core yarns are wound, the core yarns are directly wound, so that knotting is easy to happen, or the core yarns are tensioned, but the tensioning degree of a tensioning structure is difficult to adjust, so that the use effect is influenced;

2. the existing winding device can easily cause the overlapping phenomenon in the winding operation of core yarns in a single direction in the winding process of the core yarns, so that the use degree of a winding roller is greatly reduced.

Therefore, the existing preparation device for producing the vortex spun core-spun yarn cannot meet the requirements in practical use, so that an improved technology is urgently needed in the market to solve the problems.

Disclosure of Invention

The invention aims to provide a preparation device for producing vortex spinning core-spun yarns, which solves the problems that in the existing winding device, when core yarns are wound, the core yarns are directly wound, knotting is easily caused, or the core yarns are tensioned, but the tensioning degree of the tensioning structure is difficult to adjust, the use effect is influenced, meanwhile, when core yarn winding operation is carried out in a single direction, overlapping is easily caused, and the use degree of a winding roller is greatly reduced by arranging an anti-knotting mechanism and an anti-overlapping mechanism.

In order to solve the technical problems, the invention is realized by the following technical scheme:

the invention relates to a preparation device for producing vortex spun core-spun yarns, which comprises:

the central position of the inner side surface of the U-shaped frame is connected with a winding mechanism through a lifting mechanism, the central position of the bottom end surface of the U-shaped frame is connected with a supporting mechanism, the central position of the lower part of the front end of the U-shaped frame is connected with a bearing mechanism, and the rear part of the upper end surface of the bearing mechanism is connected with an anti-overlapping mechanism;

the anti-knotting mechanism is connected to the front portion of the upper end face of the bearing mechanism at intervals, the middle portions of two sets of shaft seats of the anti-knotting mechanism are connected with shaft rods in a sleeved mode, the middle portions of the shaft rods are connected with tensioning wheels in a sleeved mode, and the upper output end of an electric push rod in the middle portion of the upper end face of the bearing mechanism is connected with the shaft seat at the rear end.

Furthermore, the end part of the shaft rod is arranged in an adjustable limiting block, and the middle parts of the lower ends of the two sides of the shaft seat penetrate through the bearing mechanism and are connected with fastening bolts; the limiting block limits the end part of the sleeved shaft rod, and the fastening bolt connects and fixes the shaft base.

Furthermore, two side surfaces of the U-shaped frame are provided with penetrating movable grooves, and a clamping groove formed in the lower end part of the front surface of the U-shaped frame is connected with a clamping block at the rear end part of the bearing mechanism in a clamping manner; the movable groove provides a lifting movable space for the winding mechanism, and the clamping block is clamped with the clamping groove to fix the bearing mechanism.

Furthermore, the inner side surface of the guide groove of the lifting mechanism is connected with a guide block in a sliding manner, and the upper output end of a telescopic rod arranged at the bottom end of the guide groove is connected with the bottom end of the guide block; the telescopic rod applies upward or downward moving force to the guide block, and the winding mechanism can be lifted through the sliding of the guide block in the guide rail.

Furthermore, the winding mechanism comprises a winding motor which is connected to the middle of the upper end of one side surface of the U-shaped frame in a penetrating manner, the front output end of the winding motor is connected with a winding roller in a sleeved manner, and the front output end of the winding motor penetrates through the middle of the guide block; the winding roller is used for carrying the core yarns in a centralized mode, and the winding roller can be used for winding the core yarns under the driving action of the winding motor.

Furthermore, the inner side surface of a supporting block of the supporting mechanism is connected with a supporting block in a damping manner, the bottom surfaces of the supporting blocks are arranged in equidistant anti-skidding grooves, and the end parts of the supporting blocks are arranged in a penetrating stud; under the action of the stud of the supporting block, the supporting block is connected to support the device, and the anti-skid groove is used for anti-skid treatment of the device, so that the stability of the device is enhanced.

Furthermore, the inner side surface of the bearing block of the bearing mechanism is connected with a bearing frame in a damping manner, and the middle sections of the upper part and the lower part of the bearing block are arranged in a penetrating screw rod manner; the connection of the bearing frame is carried out by the bearing block, and the anti-overlapping mechanism and the anti-knotting mechanism are connected and fixed by the bearing frame.

Furthermore, the anti-overlapping mechanism comprises a moving assembly and a guide assembly, the guide assembly is connected to the middle of the upper end face of the moving assembly, and the middle of the upper end of the guide assembly is provided with a through guide hole; the position of the guide component is moved by the moving component, and the multi-position guide of the core yarn is carried out by the belt-direction mechanism, so as to avoid the overlapping of the core yarn on the winding roller.

Furthermore, the center of the end part of the sliding rail of the moving assembly is connected with an air cylinder in a penetrating way, and the front output end of the air cylinder is connected with a sliding block sliding in the sliding rail; the cylinder applies pushing force to the sliding block, and the sliding block slides in the sliding rail to move the position of the guide assembly.

Furthermore, the support bottom face that guide assembly includes is connected in the slider up end, and the inboard threaded connection of the screw post that runs through in the middle part of support both sides has the leading truck, carries out the removal back of the aforesaid to guide assembly, is accepted by the position that guide assembly carries out the core yarn, makes its even rolling in the surface of wind-up roll.

The invention has the following beneficial effects:

1. according to the invention, the anti-overlapping mechanism is arranged, so that the core yarns in winding are adjusted left and right, and are uniformly wound on the outer surface of the winding roller, thereby avoiding the overlapping phenomenon of the core yarns at a single position and reducing the use area of the winding roller.

2. According to the invention, the anti-knotting mechanism is arranged, the tensioning treatment in the winding of the core yarn is carried out through the group of tensioning wheels arranged at intervals, and meanwhile, the lifting adjustment of the tensioning wheel can be carried out through the electric push rod, so that the self tensioning degree can be adjusted, the tensioning performance of the core yarn is improved, and the knotting phenomenon is effectively avoided.

Of course, it is not necessary for any product in which the invention is practiced to achieve all of the above-described advantages at the same time.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings used in the description of the embodiments will be briefly introduced 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 is a schematic top view of the present invention;

FIG. 2 is a schematic bottom view of the present invention;

FIG. 3 is a schematic view of the knotting prevention mechanism of the present invention;

FIG. 4 is a schematic view of an anti-overlap mechanism of the present invention;

FIG. 5 is a schematic view of the connection of the U-shaped frame, the lifting mechanism and the winding mechanism of the present invention.

In the drawings, the reference numbers indicate the following list of parts:

100. a U-shaped frame; 200. a lifting mechanism; 210. a guide groove; 220. a guide block; 230. a telescopic rod; 300. a winding mechanism; 310. a winding motor; 320. a wind-up roll; 400. a support mechanism; 410. supporting a block; 420. a supporting block; 500. a carrying mechanism; 510. a bearing block; 520. a receiving frame; 600. an overlap prevention mechanism; 610. a moving assembly; 611. a slide rail; 612. a slider; 613. a cylinder; 620. a guide assembly; 621. a support; 622. a threaded post; 623. a guide frame; 700. an anti-knotting mechanism; 710. an electric push rod; 720. a shaft seat; 730. a shaft lever; 740. a tension wheel.

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention.

Referring to fig. 1 to 5, the present invention is a manufacturing apparatus for producing a vortex spun core spun yarn, including:

the center of the inner side surface of the U-shaped frame 100 is connected with a winding mechanism 300 through a lifting mechanism 200, the center of the bottom end surface of the U-shaped frame 100 is connected with a supporting mechanism 400, the center of the lower part of the front end of the U-shaped frame 100 is connected with a bearing mechanism 500, and the rear part of the upper end surface of the bearing mechanism 500 is connected with an anti-overlapping mechanism 600;

the whole use of the device is carried out, the supporting mechanism 400 is arranged at a designated position, the position of the device is positioned, at the moment, the lifting mechanism 200 is used for adjusting the designated position of the winding mechanism 300 and carrying out the lifting adjustment of the anti-knotting mechanism 700 according to the use requirement, then, one end of the yarn passes through the anti-knotting mechanism 700 and is wound on the outer surface of the winding mechanism 300, and the winding mechanism 300 is used for winding the yarn;

the anti-knotting mechanism 700 is connected to the front part of the upper end face of the bearing mechanism 500 at intervals, the middle parts of two groups of shaft seats 720 of the anti-knotting mechanism 700 are connected with shaft rods 730 in a sleeved mode, the middle parts of the shaft rods 730 are connected with tension pulleys 740 in a sleeved mode, and the upper output end of an electric push rod 710 in the middle part of the upper end face of the bearing mechanism 500 is connected with the shaft seat 720 at the rear end;

the end of the shaft lever 730 is arranged as an adjustable limiting block, and the middle part of the lower end of the two sides of the shaft seat 720 penetrates through the bearing mechanism 500 and is connected with a fastening bolt;

when the anti-knotting mechanism 700 is used, the outer control end controls the electric push rod 710 according to the use requirement, the electric push rod 710 applies lifting force to the shaft seat 720 at the rear end to adjust the shaft seat to a proper position, and at this time, after the winding connection between the core yarn and the tension pulley 740 is performed through the steps, the tension pulley 740 tensions the core yarn under the application of the winding force of the winding mechanism 300.

As shown in fig. 5, two side surfaces of the U-shaped frame 100 are provided with through movable grooves, and a clamping groove formed at the lower end of the front surface of the U-shaped frame 100 is connected with a clamping block at the rear end of the supporting mechanism 500 in a clamping manner;

the inner side surface of the guide groove 210 included in the lifting mechanism 200 is slidably connected with a guide block 220, and the upper output end of a telescopic rod 230 arranged at the bottom end of the guide groove 210 is connected with the bottom end of the guide block 220;

when the lifting mechanism 200 is used, the outer control end controls the telescopic rod 230, the telescopic rod 230 applies upward or downward moving force to the guide block 220, the corresponding position of the winding mechanism 300 is adjusted, and after core yarns are wound, the telescopic rod 230 applies downward moving force to the guide block 220;

the winding mechanism 300 comprises a winding motor 310 which is connected to the middle of the upper end of one side of the U-shaped frame 100 in a penetrating manner, the front output end of the winding motor 310 is connected with a winding roller 320 in a sleeved manner, and the front output end of the winding motor 310 is arranged in a penetrating manner through the middle of the guide block 220;

the winding mechanism 300 is used, after the core yarn and the winding roller 320 are wound in advance, the outer control end controls the winding motor 310, and the winding motor 310 applies a rotating force to the winding roller 320 to wind the core yarn.

As shown in fig. 2, the inner side surface of the supporting block 410 included in the supporting mechanism 400 is connected with the supporting block 420 in a damping manner, the bottom surface of the supporting block 420 is provided with equidistant anti-slip grooves, and the end of the supporting block 410 is provided with a penetrating stud;

the supporting mechanism 400 is used, the upper end of the supporting block 420 is arranged on the inner side of the supporting block 410, the end part of the supporting block 410 is screwed with the stud, and at the moment, the bottom end face of the supporting block 420 is arranged on the designated ground;

the inner side surface of the receiving block 510 of the receiving mechanism 500 is connected with a receiving frame 520 in a damping manner, and the middle section of the upper part and the lower part of the receiving block 510 is arranged in a penetrating screw rod manner;

when the receiving mechanism 500 is used, the inner end of the receiving frame 520 is placed inside the receiving block 510, and a tightening force is applied to the screw on the receiving block 510, and at this time, the overlap preventing mechanism 600 and the knot preventing mechanism 700 are connected to each other from the upper end surface of the receiving frame 520.

As shown in fig. 4, the overlap preventing mechanism 600 includes a moving assembly 610 and a guiding assembly 620, the guiding assembly 620 is connected to the middle of the upper end surface of the moving assembly 610, and the middle of the upper end of the guiding assembly 620 is provided with a through guiding hole;

the central position of the end of the sliding rail 611 included in the moving assembly 610 is connected with a cylinder 613 in a penetrating manner, and the front output end of the cylinder 613 is connected with a sliding block 612 sliding in the sliding rail 611;

the bottom end surface of the support 621 included in the guide assembly 620 is connected to the upper end surface of the slider 612, and the inner sides of the threaded posts 622 penetrating through the middle parts of the two sides of the support 621 are in threaded connection with the guide frame 623;

the anti-overlapping mechanism 600 is used, after the core yarn and the tensioning wheel 740 are wound and extended, the core yarn penetrates through the guide hole in the middle of the upper end of the guide frame 623, at the moment, in the winding process between the core yarn and the winding roller 320 through the steps, the outer control end controls the air cylinder 613, the air cylinder 613 applies pushing force to the sliding block 612, so that the sliding block 612 drives the guide frame 623 to move back and forth continuously, and the core yarn at different positions on the winding roller 320 is wound.

The above are only preferred embodiments of the present invention, and the present invention is not limited thereto, and any modification, equivalent replacement, and improvement made to the technical solutions described in the above embodiments, and to some of the technical features thereof, are included in the scope of the present invention.

Claims

1. A preparation facilities is used in vortex spun core yarn production which characterized in that includes:

the device comprises a U-shaped frame (100), wherein the central position of the inner side surface of the U-shaped frame (100) is connected with a winding mechanism (300) through a lifting mechanism (200), the central position of the bottom end surface of the U-shaped frame (100) is connected with a supporting mechanism (400), the central position of the lower part of the front end of the U-shaped frame (100) is connected with a bearing mechanism (500), and the rear part of the upper end surface of the bearing mechanism (500) is connected with an anti-overlapping mechanism (600);

the anti-knotting mechanism (700) is connected to the front portion of the upper end face of the bearing mechanism (500) at intervals, the middle portions of two sets of shaft seats (720) included in the anti-knotting mechanism (700) are connected with shaft rods (730) in a sleeved mode, the middle portions of the shaft rods (730) are connected with tension wheels (740) in a sleeved mode, and the upper output end of an electric push rod (710) in the middle portion of the upper end face of the bearing mechanism (500) is connected with the shaft seats (720) located at the rear end.

2. The manufacturing device for vortex spun core spun yarn according to claim 1, wherein the end of the shaft rod (730) is arranged as an adjustable limiting block, and the middle part of the lower end of the two sides of the shaft seat (720) is connected with a fastening bolt through the bearing mechanism (500).

3. The manufacturing device for vortex spun core spun yarn production according to claim 2, wherein the two side surfaces of the U-shaped frame (100) are provided with through movable grooves, and a clamping groove formed in the lower end part of the front surface of the U-shaped frame (100) is connected with a clamping block at the rear end part of the bearing mechanism (500) in a clamping manner.

4. The manufacturing device for vortex spun core yarn production according to claim 1, wherein the lifting mechanism (200) comprises a guide groove (210) with a guide block (220) connected to the inner side surface thereof in a sliding manner, and an upper output end of a telescopic rod (230) arranged at the inner bottom end of the guide groove (210) is connected with the bottom end of the guide block (220).

5. The manufacturing device for producing the vortex spun core spun yarn according to claim 4, wherein the winding mechanism (300) comprises a winding motor (310) which is connected to the middle of the upper end of one side of the U-shaped frame (100) in a penetrating manner, a winding roller (320) is connected to the front output end of the winding motor (310) in a sleeved manner, and the front output end of the winding motor (310) is arranged in a penetrating manner through the middle of the guide block (220).

6. The preparation device for vortex spun core spun yarn production according to claim 1, wherein the support mechanism (400) comprises a support block (410) whose inner side surface is connected with a support block (420) in a damping manner, and the bottom end surface of the support block (420) is arranged in an equidistant anti-slip groove, and the end part of the support block (410) is arranged in a penetrating stud.

7. The preparation device for vortex spun core spun yarn production according to claim 1, wherein the receiving mechanism (500) comprises a receiving frame (520) in damping connection with the inner side surface of a receiving block (510), and the middle sections of the upper part and the lower part of the receiving block (510) are arranged in a penetrating screw rod manner.

8. The manufacturing device for vortex spun core yarn according to claim 7, characterized in that the overlap preventing mechanism (600) comprises a moving component (610) and a guiding component (620), the guiding component (620) is connected to the middle of the upper end surface of the moving component (610), and the middle of the upper end of the guiding component (620) is provided with a through guiding hole.

9. The manufacturing device for vortex spun core-spun yarn according to claim 8, wherein the moving assembly (610) comprises a slide rail (611) with a cylinder (613) connected to the center of the end, and the front output end of the cylinder (613) is connected to a slide block (612) sliding in the slide rail (611).

10. A preparation device for vortex spun core yarn according to claim 8, wherein the guide assembly (620) comprises a support (621) with a bottom end face connected to the upper end face of the slide block (612), and a guide frame (623) is screwed inside a threaded column (622) penetrating through the middle part of the two sides of the support (621).