CN220011709U - Winder is used in chemical fiber production - Google Patents

Abstract

The utility model belongs to the technical field of winding machines, and particularly relates to a winding machine for chemical fiber production, which comprises a fixed plate, wherein the fixed plate is provided with a wire guide, the fixed plate is provided with a tensioning roller, the fixed plate is provided with a guide roller and is provided with a rotating shaft, the fixed plate is provided with a bottom plate, the bottom plate is provided with a shell, a transmission mechanism is arranged between the bottom plate and the shell, the transmission mechanism comprises a gear, the rotating shaft is connected with the gear, racks are meshed around the gear, the racks are connected with a slide bar, the slide bar is connected with the shell, the rack is provided with an inclined chute, the rack is provided with an upper slide block, and the upper slide block is provided with a pressing block; through setting up self-centering clamping device only need the technician carry out the debugging of axiality once at the debugging stage of device, need not debug once more when changing the receipts reel of different width, through setting up gear and rack, make each rack unit accomplish the linkage, simplified operation step, improved work efficiency.

Description

Winder is used in chemical fiber production

Technical Field

The utility model belongs to the technical field of winding machines, and particularly relates to a winding machine for chemical fiber production.

Background

The winding machine mainly comprises the following four parts: the winding machine is mainly used in the fields of chemical fiber products such as glue pipelines, polyester cord yarns, polyester cord winding, high-tech fibers, coated yarns, artificial grass yarns and the like.

The winding device for the yarn winding machine disclosed in the Chinese patent of publication No. CN217894712U comprises a fixed seat, clamping blocks which are symmetrically arranged are slidably arranged in the fixed seat, an adjusting mechanism which is used for driving the two clamping blocks to move in opposite directions is arranged in the fixed seat, the distance between the two positioning mechanisms is adjusted through the adjusting mechanism, the clamping requirements of winding sleeves with different widths are met, and the winding sleeves cannot generate dislocation when winding yarns under the cooperation of a lead screw and a guide ring. Firstly, when the winding sleeve is installed and disassembled, a plurality of threaded rods need to be rotated, and the operation is complex; secondly, when the workman rotates the threaded rod, can not make the degree of depth of a plurality of threaded rods precession, unscrew unanimous, cause the axiality of rolling cover and coiling mechanism poor, cause the coiling mechanism vibration big when rolling, life reduces.

Therefore, the winding machine for chemical fiber production is provided, and the purpose of controlling coaxiality and simplifying operation is achieved by arranging the self-centering linkage clamping mechanism.

Disclosure of Invention

The purpose of the utility model is that: aims to provide a winder for chemical fiber production, which is used for solving the problems in the background technology.

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

the winder for chemical fiber production comprises a fixed plate, wherein a wire guide is arranged in the middle of the front end of the fixed plate, a tensioning roller positioned above the wire guide on the right side is arranged at the front end of the fixed plate, a guide roller positioned above the tensioning roller on the right side is arranged at the front end of the fixed plate, a clamping device is arranged on the left side of the front end of the fixed plate, the clamping device comprises a bottom plate, the bottom plate is rotationally arranged on the left side of the front end of the fixed plate, a shell is fixedly arranged at the front end of the bottom plate, a cavity is formed in the shell, and a transmission mechanism is arranged in the cavity;

the transmission mechanism comprises a gear, the front end of the bottom plate rotates and is provided with the gear positioned in the center of the cavity, three meshed racks are uniformly distributed around the gear, each rack is in butt joint with the bottom plate, each rack is provided with a sliding rod, each sliding rod is connected with the shell, one sliding rod is provided with threads and is in matched with the rack in threaded connection, each rack is provided with a plurality of inclined sliding grooves at the front end, each rack is provided with an upper sliding block at the front end, the rear end of each upper sliding block is provided with a plurality of inclined sliding blocks matched with the inclined sliding grooves, each upper sliding block is provided with a pressing block at the front end of the shell, each radial sliding groove matched with the pressing block is formed in the front end of the shell, and the fixing plate is provided with a pressing mechanism positioned below the transmission mechanism.

The bottom plate is used for installing the shell, the shell is used for holding drive mechanism, the gear is used for driving driven the rack, the rack is used for driving go up the slider and the gear, go up the slider and be used for driving the briquetting, oblique slider is used for cooperating oblique spout makes go up the displacement of slider obtains restriction, the briquetting is used for driving the briquetting compresses tightly the rolling cover, the slide bar is used for driving initiatively the rack.

The compressing mechanism comprises a supporting plate, a sliding groove is formed in the upper end of the supporting plate, a lower threaded rod is arranged at the front end of the supporting plate in a rotating mode, the lower threaded rod stretches into the sliding groove, a supporting sliding block is arranged in the sliding groove in a sliding mode, the supporting sliding block is in threaded connection with the lower threaded rod, an upper threaded rod is connected with the upper portion of the supporting sliding block in a threaded mode, and a pressing plate is arranged at the rear end of the upper threaded rod in a rotating mode. The supporting plate is used for installing and supporting the pressing mechanism, the lower threaded rod is used for pushing the supporting sliding block and installing parts on the supporting sliding block, the supporting sliding block is used for driving the parts on the supporting sliding block, and the upper threaded rod is used for pushing the pressing plate.

The threaded slide bars are provided with small rotating wheels, the lower threaded rods are provided with large rotating wheels, and the upper threaded rods are provided with knobs.

The small rotating wheel enables the sliding rod to be stressed better, the small rotating wheel enables the lower threaded rod to be stressed better, and the knob enables the upper threaded rod to be stressed better.

The pressing plate is provided with an elastic gasket, and the elastic gasket is used for further pressing the winding sleeve to enable the winding sleeve to be more stable.

Each pressing block is provided with a double arc-shaped surface, and the double arc-shaped surfaces are used for clamping the excircle of the winding sleeve or supporting the inner hole of the winding sleeve.

According to the utility model, by arranging the self-centering clamping device, only a technician is required to debug the coaxiality once in the installation and debugging stages of the device, and debugging is not required again when winding drums with different widths are replaced, and by arranging the gears and the racks, each rack unit is linked, so that the operation steps are simplified, and the working efficiency is improved.

Drawings

The utility model may be further illustrated by means of non-limiting examples given in the accompanying drawings.

FIG. 1 is a schematic structural view of a winder for chemical fiber production;

FIG. 2 is an enlarged schematic view of the structure shown at A in FIG. 1;

FIG. 3 is a schematic view showing a partial sectional structure of a winder for chemical fiber production according to the present utility model;

FIG. 4 is an enlarged schematic view of the structure shown at B in FIG. 3;

FIG. 5 is a schematic view showing a partial sectional structure of a winder for chemical fiber production according to the second embodiment;

fig. 6 is an enlarged schematic view of the structure at C in fig. 5.

The main reference numerals are as follows:

the wire guide device comprises a fixed plate 100, a wire guide 101, a tension roller 102, a guide roller 103, a bottom plate 200, a shell 201, a gear 202, a rack 203, a sliding rod 204, an upper sliding block 205, an inclined sliding block 206, a pressing block 207, a supporting plate 300, a lower threaded rod 301, a supporting sliding block 302, an upper threaded rod 303, a pressing plate 304, a small rotating wheel 400, a large rotating wheel 401, a knob 402 and an elastic gasket 500.

Detailed Description

In order that those skilled in the art will better understand the present utility model, the following technical scheme of the present utility model will be further described with reference to the accompanying drawings and examples.

Embodiment one:

as shown in fig. 1-6, a winder for chemical fiber production comprises a fixed plate 100, wherein a wire guide 101 is arranged in the middle of the front end of the fixed plate 100, a tensioning roller 102 positioned at the upper right of the wire guide 101 is arranged at the front end of the fixed plate 100, a guide roller 103 positioned at the upper right of the tensioning roller 102 is arranged at the front end of the fixed plate 100, a clamping device is arranged at the left side of the front end of the fixed plate 100 and comprises a bottom plate 200, the bottom plate 200 is rotatably arranged at the left side of the front end of the fixed plate 100, a shell 201 is fixedly arranged at the front end of the bottom plate 200, a cavity is formed in the shell 201, and a transmission mechanism is arranged in the cavity;

the transmission mechanism comprises a gear 202, the front end of a bottom plate 200 is rotationally provided with a gear 202 positioned at the center of a cavity, three meshed racks 203 are uniformly distributed around the gear 202, each rack 203 is in butt joint with the bottom plate 200, each rack 203 is provided with a slide bar 204, each slide bar 204 is connected with a shell 201, one slide bar 204 is provided with threads and is in threaded connection with the matched rack 203, the front end of each rack 203 is provided with a plurality of inclined sliding grooves, the front end of each rack 203 is respectively provided with an upper sliding block 205, the rear end of each upper sliding block 204 is provided with a plurality of inclined sliding blocks 206 matched with the inclined sliding grooves, the front end of each upper sliding block 204 is respectively provided with a pressing block 207, the front end of the shell 201 is provided with radial sliding grooves matched with each pressing block 207, and the fixed plate 100 is provided with a pressing mechanism positioned below the transmission mechanism.

The fixing plate 100 is used for installing other parts, the wire guider 101 is used for controlling winding of wires, the tensioning roller 102 is used for tensioning force of the wires when winding, the guide roller 103 is used for controlling an angle of the wires entering the wire guider 101, the bottom plate 200 is used for installing a shell, the shell 201 is used for accommodating a transmission mechanism, the outline of a cavity is in an axisymmetric twenty-sided shape, partial side lengths are unequal and mainly used for accommodating parts such as a gear 202, a sliding rod 204, a rack 203 and an upper sliding block 205 and limiting displacement of the parts, the gear 202 is used for driving the driven rack 203, the inclined sliding groove is used for accommodating the inclined sliding block 206 and limiting displacement of the inclined sliding block, the rack 203 is used for driving the upper sliding block 204 and the gear 202, the upper sliding block 204 is used for driving the pressing block 207, the inclined sliding block 206 is used for being matched with the inclined sliding groove to limit displacement of the upper sliding block, the pressing block 207 is used for driving the pressing the winding sleeve, and the radial sliding groove 206 is used for providing space for driving the driving rack 203.

The threaded slide bar is provided with small rotating wheels, each lower threaded rod is provided with a large rotating wheel, and each upper threaded rod is provided with a knob.

The small rotating wheel enables the sliding rod to be stressed better, the small rotating wheel enables the lower threaded rod to be stressed better, and the knob enables the upper threaded rod to be stressed better.

The working principle of the embodiment is as follows: when a winding sleeve is required to be installed, one end of the winding sleeve is firstly placed into a clamping mechanism, an inner arc surface of a pressing block 207 is used for clamping an outer circle or an outer arc surface of the winding sleeve according to the size and the shape of the winding sleeve, after the winding sleeve is selected, a small rotating wheel 400 is screwed to enable a sliding rod 206 connected with the small rotating wheel to rotate, a rack 203 in threaded connection with the small rotating wheel is driven to enable the rack 203 to axially move along threads on the sliding rod 206, a plurality of inclined sliding blocks 206 matched with the rack 203 are driven to enable an upper sliding block 204 to radially move relatively, and a pressing block 207 is driven to radially move along the radial sliding grooves, meanwhile, a gear 202 meshed with the moving rack 203 is driven to rotate, and the rotating gear 202 drives two other racks 203 which are not moved to respectively drive the upper sliding blocks 204 connected with other parts to move, so that the three pressing blocks 207 are completely pressed or tightly support the winding sleeve at proper positions, and then a pressing mechanism is moved to enable the pressing mechanism to be close to one end of the winding sleeve to be pressed by the pressing mechanism, and the winding sleeve is installed;

when the winding sleeve is required to be disassembled, the clamping mechanism can be released from compressing or supporting the winding sleeve only by reversely twisting the small rotating wheel 400 to drive the mechanism to reset, and then the compressing mechanism is moved to be far away from the clamping mechanism, so that the winding sleeve can be disassembled;

in this embodiment, by setting the self-centering clamping device, only a technician needs to perform primary coaxiality adjustment in the installation and debugging stages of the device, so that the worker is prevented from controlling coaxiality when changing the winding sleeve each time, and by setting the gear 202 and the rack 203, each unit completes linkage, and only one small rotating wheel 400 needs to rotate to complete clamping of the winding sleeve, so that operation steps are simplified, and work efficiency is improved.

Embodiment two:

on the basis of the first embodiment, the approaching and separating of the pressing mechanism is further described, as shown in fig. 1-6, the pressing mechanism includes a supporting plate 300, a sliding groove is formed at the upper end of the supporting plate 300, a lower threaded rod 301 is rotatably provided at the front end of the supporting plate 300, the lower threaded rod 301 extends into the sliding groove, a supporting sliding block 302 is slidably provided in the sliding groove, the supporting sliding block 302 is in threaded connection with the lower threaded rod 301, an upper threaded rod 303 is in threaded connection with the upper portion of the supporting sliding block 302, and a pressing plate 304 is rotatably provided at the rear end of the upper threaded rod 303.

The groove supporting plate 300 is used for installing and supporting the pressing mechanism, the lower threaded rod 301 is used for pushing the supporting sliding block 302 and parts arranged on the supporting sliding block, the supporting sliding block 302 is used for driving the parts arranged on the supporting sliding block, and the upper threaded rod 303 is used for pushing the pressing plate 304.

The pressing plate is provided with an elastic gasket which is used for further pressing the winding sleeve to make the winding sleeve more stable.

The working principle of the embodiment is as follows: after the winding sleeve clamps one end, the large rotating wheel 401 on the lower threaded rod 301 is screwed, the large rotating wheel 401 rotates to drive the lower threaded rod 301, the support sliding block 302 in threaded connection with the large rotating wheel rotates to slide along the sliding groove, and then the clamping mechanism is close to the winding sleeve, when the winding sleeve contacts with the winding sleeve, the knob 402 on the upper threaded rod 303 is screwed to enable the elastic gasket 500 on the pressing plate 304 to further press the winding sleeve;

in this embodiment, prevent through setting up closing device that the one end of rolling cover not centre gripping from violently shaking, improve the stability of mechanism.

The above embodiments are merely illustrative of the principles of the present utility model and its effectiveness, and are not intended to limit the utility model. Modifications and variations may be made to the above-described embodiments by those skilled in the art without departing from the spirit and scope of the utility model. Accordingly, it is intended that all equivalent modifications and variations of the utility model be covered by the claims of this utility model, which are within the skill of those skilled in the art, can be made without departing from the spirit and scope of the utility model disclosed herein.

Claims (5)

1. The utility model provides a winder is used in chemical fiber production, includes the fixed plate, fixed plate front end middle part is equipped with the seal wire ware, the fixed plate front end is equipped with and is located the tensioning roller of seal wire ware upper right side, the fixed plate front end is equipped with and is located the guiding roller of tensioning roller upper right side, its characterized in that: the left side of the front end of the fixed plate is provided with a clamping device, the clamping device comprises a bottom plate, the left side of the front end of the fixed plate is rotationally provided with the bottom plate, the front end of the bottom plate is fixedly provided with a shell, a cavity is formed in the shell, and a transmission mechanism is arranged in the cavity;

the transmission mechanism comprises a gear, the front end of the bottom plate rotates and is provided with the gear positioned at the center of the cavity, three meshed racks are uniformly distributed around the gear, each rack is in butt joint with the bottom plate, each rack center is provided with a sliding rod in a sliding penetration mode, two ends of each sliding rod are connected with the shell, one sliding rod is provided with threads and is in threaded connection with the matched racks, the sliding rod with threads rotates and penetrates out of the inside of the shell, each rack front end is provided with a plurality of inclined sliding grooves, each rack front end is respectively provided with an upper sliding block, each upper sliding block rear end is provided with a plurality of inclined sliding blocks matched with the inclined sliding grooves, each upper sliding block front end is respectively provided with a pressing block, the front end of the shell is provided with radial sliding grooves matched with each pressing block, and the fixing plate is provided with a pressing mechanism positioned below the transmission mechanism.

2. The winder for chemical fiber production according to claim 1, wherein: the compressing mechanism comprises a supporting plate, a sliding groove is formed in the upper end of the supporting plate, a lower threaded rod is arranged at the front end of the supporting plate in a rotating mode, the lower threaded rod stretches into the sliding groove, a supporting sliding block is arranged in the sliding groove in a sliding mode, the supporting sliding block is in threaded connection with the lower threaded rod, an upper threaded rod is connected with the upper portion of the supporting sliding block in a threaded mode, and a pressing plate is arranged at the rear end of the upper threaded rod in a rotating mode.

3. The winder for chemical fiber production according to claim 2, wherein: the threaded slide bar is provided with a small rotating wheel, the lower threaded rod is provided with a large rotating wheel, and the upper threaded rod is provided with a knob.

4. The winder for chemical fiber production according to claim 2, wherein: the pressing plate is provided with an elastic gasket.

5. The winder for chemical fiber production according to claim 1, wherein: each pressing block is provided with a double arc-shaped surface.