CN110395613B - Duplex position stranded silk rolling machine - Google Patents

Abstract

The invention relates to a winding machine, in particular to a double-station multi-strand wire winding machine which comprises a frame, a rotating shaft, a rotating disc, a first winding station and a second winding station, wherein the rotating shaft is arranged on the frame; the rotating shaft penetrates through the rack, and one end of the rotating shaft is fixedly connected with the center of the inner side of the turntable; the first winding station and the second winding station are arranged on the outer side of the turntable, the first winding station and the second winding station are consistent in structure, and are arranged at two ends of the outer side of the turntable in a rotationally symmetrical mode; the coil replacement is realized by arranging two stations, so that the winding of single-strand wires can be realized, the warping of a plurality of single-strand wires onto the I-shaped disc can be realized, and the working efficiency is greatly improved.

Description

Duplex position stranded silk rolling machine

Technical Field

The invention relates to a winding machine, in particular to a double-station multi-strand wire winding machine.

Background

The winding machine is a mechanism for winding a plurality of strands of wires or wires on an I-shaped disc by rotating the I-shaped disc, and the conventional winding machine usually uses a plurality of I-shaped discs to wind single strands of wires respectively, and then the single strands of wires on the plurality of I-shaped discs are arranged on the same I-shaped disc, so that in the conventional winding device, a plurality of I-shaped discs are needed, and the occupied area is large; in addition, in the conventional winding machine, after the I-shaped disc finishes winding work, the winding machine needs to be stopped, the I-shaped disc is separated from the winding machine, the I-shaped disc to be wound is arranged on the winding machine, and the wire heads of the multi-strand wires are repositioned to carry out warping work, so that the reciprocating operation is often low in efficiency and time is wasted; how to directly arrange a plurality of strands of wires on the I-shaped disc, so that the occupied area is reduced, the coil changing efficiency of a winding machine is improved, and the warping procedure is reduced, so that the problem which needs to be solved by the company is solved.

Disclosure of Invention

The invention aims to solve the technical problems that: how to directly arrange the multi-strand wires on the spool, thereby reducing the occupied area, improving the coil changing efficiency of the coiling machine and reducing the warping procedure.

In order to achieve the above purpose, the present invention provides the following technical solutions:

the invention relates to a double-station multi-strand wire winding machine which comprises a frame, a rotating shaft, a rotating disc, a first winding station and a second winding station, wherein the rotating shaft is arranged on the frame;

the rotating shaft penetrates through the frame, and one end of the rotating shaft is fixedly connected with the center of the inner side of the turntable;

the rotating shaft is used for driving the turntable to rotate.

The outer side of the turntable is provided with a first rolling station and a second rolling station, the first rolling station and the second rolling station are consistent in structure, and the first rolling station and the second rolling station are symmetrically arranged at two ends of the outer side of the turntable in a rotating way;

the first winding station and the second winding station are both used for winding, and switching between the two stations occurs along with rotation of the turntable.

The first winding station comprises a first winding rotating shaft, an I-shaped disc for winding wires, a limiting block, a first driving motor, a first wire guide roller and a second wire guide roller;

the first winding rotating shaft penetrates through the turntable, one end of the first winding rotating shaft is positioned between the turntable and the frame and is connected with the output end of the first driving motor, and the first driving motor is fixed on the inner side wall of the turntable;

the first winding rotating shaft is controlled by a first driving motor and rotates.

The other end of the first winding rotating shaft is sleeved with an I-shaped disc and a limiting block, the limiting block is positioned on the outer side of the I-shaped disc and is clamped at the end part of the I-shaped disc, the limiting block is suitable for driving the I-shaped disc to synchronously rotate with the first winding rotating shaft, and the limiting block is detachably connected with the first winding rotating shaft;

the first winding rotating shaft rotates to drive the limiting block to rotate, and the limiting block is clamped at the end part of the first winding rotation, so that the limiting block drives the I-shaped disc to rotate for winding wires; the limiting block is detachable, and after the spool is fully wound with the wire, the limiting block is separated from the first winding rotating shaft, and the spool is taken out along the axis direction of the first winding rotating shaft.

The first wire guide roller and the second wire guide roller are arranged on the rotary table, the axial direction of the first wire guide roller is consistent with that of the rotary shaft, and when the rotary table rotates to drive the first rolling station to rotate to be right above the second rolling station, the first wire guide roller is positioned at the upper right part of the I-shaped disc, and the second wire guide roller is positioned at the lower left part of the I-shaped disc; the first wire guide roller and the second wire guide roller are respectively provided with a bidirectional thread for gathering wires;

the first wire guide roller and the second wire guide roller are arranged diagonally relative to the first winding station, the first wire guide roller and the second wire guide roller are also arranged at the second winding station, when the winding of the first winding station is finished, the turntable drives the first winding station to rotate to the position right below the second winding station, at the moment, the wire rod is contacted with the first wire guide roller of the first winding station and the second wire guide roller of the second winding station due to the existence of the wire guide roller, one end of the wire rod is separated from the I-shaped disc, and the cut wire rod is convenient to cut and fix the cut wire head on the I-shaped disc of the second winding station again; when the wire rod moves on the wire guide roller, a plurality of strands of wire rods can be gathered due to the existence of the bidirectional threads, so that the subsequent clamping heads can be conveniently fixed.

A clamping head used for fixing the gathered wires is arranged below the first wire guide roller, a telescopic rod is arranged at the tail part of the clamping head, the telescopic rod penetrates through and is connected with the air cylinder, and the telescopic rod drives the clamping head to do translational motion relative to the frame;

the clamping head is used for gathering the multi-strand wires, when the multi-strand wires are positioned on the two wire guide rollers, the telescopic rod drives the clamping head to translate to the multi-strand wires, the clamping head clamps the wires, and the wires are prevented from being scattered after being cut off.

A feeding guide roller is arranged in the direction which is horizontal and vertical to the axis of the I-shaped disc;

a lifting pinch roller for pressing the wire rod onto the I-shaped disc is arranged in the direction vertical to the axis of the I-shaped disc, and the pinch roller is connected with the frame through a first lifting rod;

a cutting mechanism is arranged on one side parallel to the pressing wheel and close to the first wire guide roller, and is used for cutting wires wound on the I-shaped disc and the first wire guide roller when the pressing wheel presses the wires to the I-shaped disc; the cutting mechanism comprises a hot cutter and a second lifting rod for driving the hot cutter to lift, and the other end of the second lifting rod is connected with the frame;

when the cutting mechanism cuts off the wire rod, the pressing wheel is controlled by the first lifting rod to move downwards, the wire head of the new section is pressed onto the I-shaped plate coated with the adhesive, and the winding work of the second winding station is performed.

In order to solve the problems, the feeding wire roller is fixed on a first plane through a support piece, a second plane is arranged below the first plane, and a sliding block arranged on the lower end surface of the first plane is connected with a sliding rail on the second plane in a matched manner, so that the sliding connection of the first plane and the second plane is realized; the lower end face of the second plane is provided with a servo motor, the output end of the servo motor passes through the second plane, one end of a pendulum shaft is connected to the first plane, and the other end of the pendulum shaft and the output end of the servo motor are eccentrically arranged;

the second plane is fixed with the frame to keep static, and the first plane moves transversely relative to the second plane to drive the feeding wire roller to move transversely, so that the wire rod is driven to move transversely relative to the I-shaped disc, and the stacking of single wire rods is prevented.

The invention adopts the steps that the servo motor is fixed on the second plane, the output end of the servo motor is eccentrically connected with the pendulum shaft, the other end of the pendulum shaft is connected with the first plane, and when the servo motor rotates, the pendulum shaft can pull or push the first plane to transversely move due to eccentric connection.

How to realize automatic start and stop of the turntable, the invention adopts the rotary symmetry arranged on the inner side of the turntable and provided with induction rods, and the shell is provided with induction points; when the rotary table rotates, the induction rod is contacted with the induction point, the rotary table stops rotating, and the first rolling station and the second rolling station are arranged up and down;

when the turntable rotates, the induction rod is driven to rotate, and when the induction rod is in induction connection with an induction point on the shell, the motor stops rotating, the first winding station and the second winding station are placed up and down, and winding and unreeling operations are respectively carried out.

Because the turntable stops for a short time when the station is switched, the cut wire ends are pressed into the I-shaped disc, at the moment, the feeding guide roller does not stop feeding, and the wire is always kept in a tight state, so that multiple strands of wires are prevented from being staggered when being wound;

the pressing rod is controlled by the third lifting rod to move up and down, and when the pressing wheel descends, the pressing rod descends simultaneously, and wires which are continuously fed are tensioned.

The invention has the beneficial effects that: the double-station multi-strand wire winding machine provided by the invention has the advantages that the winding is realized by arranging two stations, the winding time can be effectively saved, the working efficiency is improved, the wire can be directly wound on the I-shaped disc, the winding of single-strand wires is not needed, and the complicated process of warping for winding a plurality of single-strand wires on the I-shaped disc is not needed.

Drawings

The invention will be further described with reference to the drawings and examples.

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

fig. 2 is a schematic view of a rotating shaft structure according to the present invention:

FIG. 3 is a schematic view of the first and second winding stations of the present invention;

FIG. 4 is a schematic view of the chuck structure of the present invention;

FIG. 5 is a schematic view of the structure of the feed conductor roll of the present invention;

FIG. 6 is a schematic view of a cutting mechanism according to the present invention;

in the figure: the device comprises a 1-frame, 11-induction points, 12-induction rods, 2-rotating shafts, 3-turntables, 4-first winding stations, 41-first winding rotating shafts, 42-I-shaped discs, 43-limiting blocks, 44-first driving motors, 45-first lead rollers, 46-second lead rollers, 47-bidirectional threads, 5-second winding stations, 6-chucks, 61-telescopic rods, 7-feeding lead rollers, 71-first planes, 72-second planes, 73-servo motors, 74-swing shafts, 8-pinch rollers, 81-first lifting rods, 9-cutting mechanisms, 91-hot cutters, 92-second lifting rods, 10-lifting wire pressing mechanisms, 101-third lifting rods and 102-compression rods.

Detailed Description

The invention will now be described in further detail with reference to the accompanying drawings. The drawings are simplified schematic representations which merely illustrate the basic structure of the invention and therefore show only the structures which are relevant to the invention.

As shown in fig. 1-4 and 6, the invention relates to a double-station multi-strand wire winding machine, which comprises a frame 1, a rotating shaft 2, a rotating disc 3, a first winding station 4 and a second winding station 5;

the rotating shaft 2 passes through the frame 1, and one end of the rotating shaft 2 is fixedly connected with the center of the inner side of the turntable 3;

the rotating shaft is used for driving the turntable to rotate.

The outer side of the turntable 3 is provided with a first winding station 4 and a second winding station 5, the first winding station 4 and the second winding station 5 are consistent in structure, and the first winding station 4 and the second winding station 5 are symmetrically arranged at two ends of the outer side of the turntable 3 in a rotating way;

the first winding station and the second winding station are both used for winding, and switching between the two stations occurs along with rotation of the turntable.

The first winding station 4 comprises a first winding rotating shaft 41, an I-shaped disc 42 for winding wires, a limiting block 43, a first driving motor 44, a first wire guide roller 45 and a second wire guide roller 46;

the first winding rotating shaft 41 passes through the turntable 3, one end of the first winding rotating shaft 41 is positioned between the turntable 3 and the frame 1 and is connected with the output end of the first driving motor 44, and the first driving motor 44 is fixed on the inner side wall of the turntable 3;

the first winding rotating shaft is controlled by a first driving motor and rotates.

The other end of the first winding rotating shaft 41 is sleeved with an I-shaped disc 42 and a limiting block 43, the limiting block 43 is positioned on the outer side of the I-shaped disc 42 and is clamped at the end part of the I-shaped disc 42, the limiting block 43 is suitable for driving the I-shaped disc 42 to synchronously rotate with the first winding rotating shaft 41, and the limiting block 43 is detachably connected with the first winding rotating shaft 41;

the first winding rotating shaft rotates to drive the limiting block to rotate, and the limiting block is clamped at the end part of the first winding rotation, so that the limiting block drives the I-shaped disc to rotate for winding wires; the limiting block is detachable, and after the spool is fully wound with the wire, the limiting block is separated from the first winding rotating shaft, and the spool is taken out along the axis direction of the first winding rotating shaft.

The first wire guide roller 45 and the second wire guide roller 46 are arranged on the rotary table, the axial direction of the first wire guide roller 45 is consistent with that of the rotary shaft 2, and when the rotary table 3 rotates to drive the first rolling station 4 to rotate to be right above the second rolling station 5, the first wire guide roller 45 is positioned at the upper right part of the I-shaped disc 42, and the second wire guide roller 46 is positioned at the lower left part of the I-shaped disc 42; the first wire guide roller 45 and the second wire guide roller 46 are respectively provided with a bidirectional thread 47 for gathering wires;

the first wire guide roller and the second wire guide roller are arranged diagonally relative to the first winding station, the first wire guide roller and the second wire guide roller are also arranged at the second winding station, when the winding of the first winding station is finished, the turntable drives the first winding station to rotate to the position right below the second winding station, at the moment, the wire rod is contacted with the first wire guide roller of the first winding station and the second wire guide roller of the second winding station due to the existence of the wire guide roller, one end of the wire rod is separated from the I-shaped disc, and the cut wire rod is convenient to cut and fix the cut wire head on the I-shaped disc of the second winding station again; when the wire rod moves on the wire guide roller, a plurality of strands of wire rods can be gathered due to the existence of the bidirectional threads, so that the subsequent clamping heads can be conveniently fixed.

A clamping head 6 for fixing the gathered wires is arranged below the first wire guide roller 45, a telescopic rod 61 is arranged at the tail part of the clamping head 6, the telescopic rod 61 penetrates through the frame 1 to be connected with a cylinder, and the telescopic rod 61 drives the clamping head 6 to do translational motion relative to the frame 1;

the clamping head is used for gathering the multi-strand wires, when the multi-strand wires are positioned on the two wire guide rollers, the telescopic rod drives the clamping head to translate to the multi-strand wires, the clamping head clamps the wires, and the wires are prevented from being scattered after being cut off.

A feeding guide roller 7 is arranged in the direction which is horizontal and vertical to the axis of the I-shaped disc 42;

a liftable pinch roller 8 for pressing wires onto the I-shaped disc 42 is arranged in the direction vertical to the axis of the I-shaped disc 42, and the pinch roller 8 is connected with the frame through a first lifting rod 81;

a cutting mechanism 9 is arranged on one side parallel to the pressing wheel 8 and close to the first wire guide roller, and when the pressing wheel 8 presses the wire rod to the I-shaped disc 42, the cutting mechanism 9 is used for cutting the wire rod wound on the I-shaped disc 42 and the first wire guide roller 45; the cutting mechanism 9 comprises a hot cutter 91 and a second lifting rod 92 for driving the hot cutter 91 to lift, and the other end of the second lifting rod 92 is connected with the frame 1; the hot cutter cuts off the wire rod in a thermal fusing mode;

when the cutting mechanism cuts off the wire rod, the pressing wheel is controlled by the first lifting rod to move downwards, the wire head of the new section is pressed onto the I-shaped plate coated with the adhesive, and the winding work of the second winding station is performed.

The feeding guide roller plays a role of wire arrangement, and wire heads of a plurality of strands of wires are sequentially arranged on the feeding guide roller;

as shown in fig. 5, in the winding process of the multi-strand wire, the single-strand wire is stacked and wound on the spool through the feeding guide roller, so that the multi-strand wire on the spool is easy to be hollowed out during winding, in order to solve the problems, the feeding guide roller 7 is fixed on the first plane 71 through the supporting piece, the second plane 72 is arranged below the first plane 71, and the sliding block arranged on the lower end surface of the first plane 71 is connected with the sliding rail on the second plane 72 in a matched manner, so that the sliding connection between the first plane 71 and the second plane 72 is realized; the lower end face of the second plane is provided with a servo motor 73, the output end of the servo motor 73 passes through the second plane 71, one end of a pendulum shaft 74 is connected to the first plane 71, and the other end of the pendulum shaft 74 and the output end of the servo motor 73 are eccentrically arranged; the servomotor can also be replaced by a torque motor.

The second plane is fixed with the frame to keep static, and the first plane moves transversely relative to the second plane to drive the feeding wire roller to move transversely, so that the wire rod is driven to move transversely relative to the I-shaped disc, and the stacking of single wire rods is prevented.

The invention adopts the steps that the servo motor is fixed on the second plane, the output end of the servo motor is eccentrically connected with the pendulum shaft, the other end of the pendulum shaft is connected with the first plane, and when the servo motor rotates, the pendulum shaft can pull or push the first plane to transversely move due to eccentric connection.

As shown in fig. 4, how to realize the start and stop of the turntable, the invention adopts the arrangement of the induction rods 11 which are symmetrically arranged on the inner side of the turntable 3, and induction points 12 are arranged on the shell 1; when the rotary table 3 rotates, the induction rod 11 is contacted with the induction point 12, the rotary table 3 stops rotating, and the first rolling station 4 and the second rolling station 5 are arranged up and down;

when the turntable rotates, the induction rod is driven to rotate simultaneously, and when the induction rod is in induction connection with an induction point on the shell, the motor stops rotating, the first winding station and the second winding station are placed up and down, winding and unreeling operations are respectively carried out, and automatic conversion of double stations can be realized through the arrangement.

As shown in fig. 6, because the i-shaped disc will stop for a short time when the turntable is in the transition station, the cut wire ends are pressed into the i-shaped disc, at this time, the feeding guide roller will not stop feeding, how to keep the wire in a tight state all the time, and the multi-strand wire is prevented from being staggered when being wound, when the first winding station 4 is positioned right above the second winding station 5, the invention adopts the first winding station 4 to be positioned right above the second winding station 5, a lifting wire pressing mechanism 10 is arranged between the feeding guide roller 7 and the second guide roller 46, the lifting wire pressing mechanism 10 comprises a third lifting rod 101 connected with the frame, and the bottom of the third lifting rod 101 is provided with a pressing rod 102 for pressing the wire;

the pressing rod is controlled by the third lifting rod to move up and down, and when the pressing wheel descends, the pressing rod descends simultaneously, and wires which are continuously fed are tensioned.

In addition, the yarn of the monofilament is finished into yarn packages through a winding machine in the conventional warping process, a plurality of yarn packages are subjected to warping and winding on the same spool, and the invention can lead the thread ends of the plurality of monofilaments to enter a feeding wire roller for warping to the spool, so that the process of winding the monofilament into corresponding yarn packages is omitted, the warping efficiency is greatly improved, and the time of finally winding the monofilament on the spool is reduced; when the weaving is needed, the spool with the same width as the cloth is arranged, and the thread ends on the spool are pulled out to be used as wefts for weaving.

The double-station multi-strand wire winding machine provided by the invention has the advantages that the winding is realized by arranging two stations, the winding time can be effectively saved, the working efficiency is improved, the wire can be directly wound on the I-shaped disc, the winding of single-strand wires is not needed, and a plurality of single-strand wires are wound on the I-shaped disc in a warping way.

With the above-described preferred embodiments according to the present invention as an illustration, the above-described descriptions can be used by persons skilled in the relevant art to make various changes and modifications without departing from the scope of the technical idea of the present invention. The technical scope of the present invention is not limited to the description, but must be determined according to the scope of claims.

Claims (2)

1. A duplex position stranded silk rolling machine, its characterized in that: the device comprises a frame, a rotating shaft, a rotating disc, a first winding station and a second winding station;

the rotating shaft penetrates through the rack, and one end of the rotating shaft is fixedly connected with the center of the inner side of the turntable;

the first winding station and the second winding station are arranged on the outer side of the turntable, the first winding station and the second winding station are consistent in structure, and are arranged at two ends of the outer side of the turntable in a rotationally symmetrical mode;

the first winding station comprises a first winding rotating shaft, an I-shaped disc for winding wires, a limiting block, a first driving motor, a first wire guide roller and a second wire guide roller;

the first winding rotating shaft penetrates through the turntable, one end of the first winding rotating shaft is positioned between the turntable and the rack and is connected with the output end of the first driving motor, and the first driving motor is fixed on the inner side wall of the turntable;

the I-shaped disc and the limiting block are sleeved on the other end of the first winding rotating shaft, the limiting block is positioned on the outer side of the I-shaped disc and is clamped at the end part of the I-shaped disc, the limiting block is suitable for driving the I-shaped disc to synchronously rotate with the first winding rotating shaft, and the limiting block is detachably connected with the first winding rotating shaft;

the first wire guide roller and the second wire guide roller are arranged on the rotary table, the axial direction of the first wire guide roller is consistent with that of the rotary shaft, and when the rotary table rotates to drive the first rolling station to rotate to be right above the second rolling station, the first wire guide roller is positioned at the upper right part of the I-shaped disc, and the second wire guide roller is positioned at the lower left part of the I-shaped disc; the first wire guide roller and the second wire guide roller are respectively provided with two-way threads for gathering wires;

a clamping head used for fixing the gathered wires is arranged below the first wire guide roller, a telescopic rod is arranged at the tail part of the clamping head, the telescopic rod penetrates through the frame and is connected with the air cylinder, and the telescopic rod drives the clamping head to do translational motion relative to the frame;

a feeding guide roller is arranged in the direction which is horizontally perpendicular to the axis of the I-shaped disc;

a lifting pinch roller for pressing wires onto the I-shaped plate is arranged in the direction vertical to the axis of the I-shaped plate, and the pinch roller is connected with the frame through a first lifting rod;

a cutting mechanism is arranged on one side, parallel to the pressing wheel, close to the first wire guide roller, and is used for cutting wires wound on the I-shaped disc and the first wire guide roller when the pressing wheel presses the wires to the I-shaped disc; the cutting mechanism comprises a hot cutter and a second lifting rod for driving the hot cutter to lift, and the other end of the second lifting rod is connected with the frame;

the feeding wire roller is fixed on a first plane through a supporting piece, a second plane is arranged below the first plane, and a sliding block arranged on the lower end face of the first plane is connected with a sliding rail on the second plane in a matched manner, so that the sliding connection between the first plane and the second plane is realized;

the lower end face of the second plane is provided with a servo motor, the output end of the servo motor penetrates through the second plane, one end of a pendulum shaft is connected to the first plane, and the other end of the pendulum shaft and the output end of the servo motor are eccentrically arranged;

when the first winding station is located right above the second winding station, a lifting line pressing mechanism is arranged between the feeding lead roller and the second lead roller, the lifting line pressing mechanism comprises a third lifting rod connected with the frame, and a pressing rod used for pressing wires is arranged at the bottom of the third lifting rod.

2. The dual-station multi-strand winder as claimed in claim 1, wherein: the inner side of the turntable is provided with induction rods which are rotationally symmetrically arranged, and the rack is provided with induction points; when the rotary table rotates, the end part of the induction rod is positioned right in front of the induction point, the rotary table stops rotating, and the first rolling station and the second rolling station are arranged up and down.