CN211700003U

CN211700003U - Attenuation mechanism of winding machine

Info

Publication number: CN211700003U
Application number: CN202020616642.5U
Authority: CN
Inventors: 刘世君; 杨波
Original assignee: Dongguan Zongyi Intelligent Equipment Co ltd
Current assignee: Dongguan Zongyi Intelligent Equipment Co ltd
Priority date: 2020-04-22
Filing date: 2020-04-22
Publication date: 2020-10-16
Anticipated expiration: 2030-04-22

Abstract

The utility model discloses a coiling machine attenuation mechanism, this coiling machine attenuation mechanism include decay subassembly, two installing supports, two guide rails and two sliders. The utility model discloses a tension attenuation condition of wire rod is adjusted to line ball mechanism ability back-and-forth movement, make it realize can not provide the tension of decay or the tension decay when not enough automatically regulated wire rod tension attenuation at the tensioner, in order to realize the precision of control wire rod tension decay accurately, make the coiling machine have the effectual and efficient advantage of wire winding, adopt this structure and this decay method to ensure that the wire rod can not appear the broken string at the wire-wound in-process when coming to use with the coiling machine is supporting, hinder the phenomenon of line and stretch bending PIN foot, it has solved present coiling machine effectively because of practicing thrift manufacturing cost probably not have the tensioner of installation tensioner or configuration have the decay function and lead to its broken string often to appear because of the tensioner provides tensile decrement not enough, hinder the line, stretch bending PIN foot and the poor problem of wire winding effect.

Description

Attenuation mechanism of winding machine

Technical Field

The utility model relates to a coiling machine attenuation mechanism.

Background

The damping is a process of switching the wire from a larger tension to a smaller tension during the winding process, and is mainly characterized in that the wire at the front end of the winding end becomes loose after the damping before the damping. The attenuating tension is needed in many cases during winding, for example: when the PIN PIN is wound in the winding process of the transformer, and when the motor needs to perform a slot spanning or bridging action in the winding process, the tension is reduced, so that the disconnection, the damage to the wire and the bending of the PIN PIN can be prevented. Generally, the attenuation function of the winding tension is provided by a tensioner, but in practical situations, people sometimes configure a tensioner without attenuation function for the winding machine in order to save cost, or the tension attenuation provided by the tensioner is not enough to meet the practical requirement, so that the winding effect is influenced, and the problem of poor winding effect is caused.

Disclosure of Invention

The to-be-solved technical problem of the utility model is to provide a coiling machine attenuation mechanism, it comes to use with the coiling machine is supporting through adding the attenuation subassembly that has the decay function, the tensile decay condition of wire rod is adjusted to the line ball mechanism in the attenuation subassembly back-and-forth movement, make it realize can be when the tensioner does not provide decay tension or the tension decay is not enough automatically regulated the tensile decay of wire rod, in order to realize the precision of accurately controlling the attenuation of wire rod tension, make the coiling machine have the effectual and efficient advantage of wire winding, adopt this structure and this decay method to ensure that the wire rod can not appear the phenomenon of broken string, hindering the line and stretch bending PIN foot at the in-process of wire winding when using with the coiling machine is supporting, it has solved present coiling machine because of practicing thrift manufacturing cost probably does not have the attenuation function of the tensioner of installation or configuration and because of the tensioner provides tensile decrement not enough and leads to it often appear broken string, The wire damage, the stretch bending of the PIN foot and the poor winding effect. The utility model discloses a realize through following technical scheme:

the attenuation mechanism of the winding machine comprises an attenuation component, wherein a first mounting bracket is arranged on one side of the attenuation component, a second mounting bracket is arranged on the other side of the attenuation component, and the first mounting bracket and the second mounting bracket are distributed in parallel; a first guide rail is arranged on the first mounting bracket, a second guide rail is arranged on the second mounting bracket, a first sliding block is arranged on the first guide rail in a sliding manner, and a second sliding block is arranged on the second guide rail in a sliding manner; the attenuation component comprises a wire passing wheel mounting seat transversely mounted on the same end of the first mounting bracket and the second mounting bracket, a first wire pressing base is arranged on the first slider in a sliding mode, a second wire pressing base is arranged on the second slider in a sliding mode, the first wire pressing base is connected with the second wire pressing base and provided with a wire pressing mechanism, and a tensioner is arranged on one side of the wire pressing mechanism.

Preferably, the attenuation assembly further comprises a first bearing seat arranged on one side of one end of the first mounting bracket, a second bearing seat is arranged on one side of the other end of the first mounting bracket, and the first bearing seat and the second bearing seat are arranged on the same side; one side of one end of the second mounting bracket is provided with a third bearing seat, one side of the other end of the second mounting bracket is provided with a fourth bearing seat, and the third bearing seat and the fourth bearing seat are arranged at the same side.

Preferably, the attenuation assembly further comprises a motor arranged on one side of the first wire pressing base, an active driving wheel is arranged on one side of the motor, a passive driving wheel is arranged on one side of the active driving wheel, the passive driving wheel is arranged on one side of the first bearing seat, at least one first driving wheel is arranged on one side of the passive driving wheel, at least one second driving wheel is arranged on one side of the second bearing seat, at least one third driving wheel is arranged on one side of the third bearing seat, at least one fourth driving wheel is arranged on one side of the fourth bearing seat, the first driving wheel and the third driving wheel are connected with a first driving shaft, one end of the first driving shaft penetrates through the center of each first driving wheel and is connected with the passive driving wheel, and the second driving wheel and the fourth driving; a first transmission belt is connected with a first transmission wheel and a second transmission wheel, a second transmission belt is connected with a third transmission wheel and a fourth transmission wheel, and the third transmission belt is connected with the driving transmission wheel and the driven transmission wheel.

Preferably, the first wire pressing base can move back and forth on the first guide rail along with the movement of the first transmission belt, and the second wire pressing base can move back and forth on the second guide rail along with the movement of the second transmission belt, so that the wire pressing mechanism can move back and forth under the common driving of the first wire pressing base and the second wire pressing base.

Preferably, the number of the first driving wheels arranged on the first transmission shaft is equal to the number of the second driving wheels arranged on the second transmission shaft, and the number of the third driving wheels arranged on the first transmission shaft is equal to the number of the fourth driving wheels arranged on the second transmission shaft; more than one first transmission belt is arranged, and more than one second transmission belt is arranged.

Preferably, the line pressing mechanism comprises a line pressing strip, a plurality of line pressing blocks are arranged below the line pressing strip, the line pressing blocks are distributed in parallel at equal intervals, and a line pressing cylinder is arranged below each line pressing block.

Preferably, a plurality of wire passing wheels are uniformly distributed on the wire passing wheel mounting seat at equal intervals, and each wire passing wheel is connected with a wire through the wire pressing mechanism and the tensioner.

Preferably, a sensor for sensing a distance or length of the elongated wire is further provided at one side of the wire pressing mechanism.

Preferably, the controller is connected with the sensor and the motor respectively and is controlled, the controller can be a PLC programmable logic controller or other controllers with the same function, and the PLC programmable logic controller can adopt but is not limited to a programmable controller sold on Alibara under the brand of VIGOR/Fengwei and the goods number of 4586. An operator can set various parameters for controlling the operation of each component through the controller according to the production requirement, such as the parameters for setting the stroke of the motor, the length of the wire pulled out when the tension is attenuated and the like.

The utility model discloses a winding machine attenuation mechanism, which comprises an attenuation component, a first mounting bracket, a second mounting bracket, a first guide rail, a second guide rail, a first slide block and a second slide block; the attenuation component comprises a wire wheel mounting seat, a first wire pressing base, a second wire pressing base, a wire pressing mechanism, a tensioner, a first bearing seat, a second bearing seat, a third bearing seat, a fourth bearing seat, a motor, an active driving wheel, a passive driving wheel, a first driving wheel, a second driving wheel, a third driving wheel, a fourth driving wheel, a first driving belt, a second driving belt, a third driving belt, a first driving shaft and a second driving shaft, and the wire pressing mechanism comprises a wire pressing strip, a wire pressing block and a wire pressing cylinder. The utility model discloses a structure of decay subassembly has rationally been designed scientifically, when the motor starts, the motor passes through the initiative drive wheel, the driven transmission wheel, third driving belt and first drive wheel can drive first driving belt back-and-forth movement, and first drive wheel can drive the rotation of third drive wheel again through first transmission shaft, make second driving belt can the back-and-forth movement under the drive of third drive wheel, and then make first line ball base can carry out the back-and-forth movement on first guide rail under the drive of first driving belt, and second line ball base can carry out the back-and-forth movement on the second guide rail under the drive of second driving belt, finally make line ball mechanism can carry out the back-and-forth movement under the common drive of first line ball base and second line ball base, and the wire rod can follow from a line wheel and wear out the conveying from tensioner through the top of a line ball; when the wire pressing mechanism moves forwards, the wire clamped between each wire pressing block and each wire pressing strip can be pulled forwards from the direction of the tensioner, the process that a part or a certain length of the wire is pulled out to the wire winding end is the process of adjusting the tension attenuation of the wire, and the length of the pulled wire or the moving distance of the wire is determined according to the attenuation quantity required by wire winding; when the tension of the wire is attenuated to meet the requirement of winding, a wire pressing cylinder in the wire pressing mechanism resets to do descending motion, the descending of the wire pressing cylinder drives a wire pressing block to descend, the descending of the wire pressing block loosens the compression of the wire, and the wire is enabled to recover the tension of the wire under the tension action of a tensioner, so that tensioning and transmission are realized; the structure and the attenuation method are combined to control the attenuation condition of the tension of the wire, so that the control precision of the tension attenuation of the wire is more accurate, the phenomena of wire breakage, wire damage, stretch bending of PIN PINs, poor winding effect and the like caused by insufficient attenuation of the tension of the wire in the prior art are avoided, and the wire can be matched with a winding machine for use under the condition that the tensioner does not provide attenuation tension or insufficient attenuation of the tension, so that the winding machine has the advantages of good winding effect and high winding efficiency.

Drawings

For the purpose of illustration, the invention is described in detail with reference to the following preferred embodiments and the accompanying drawings.

Fig. 1 is a perspective view of the attenuation mechanism of the winding machine of the present invention.

Fig. 2 is a perspective view of the attenuation mechanism of the winding machine of the present invention in another direction.

Detailed Description

In order to facilitate understanding of the present invention, the present invention will be described more fully hereinafter with reference to the accompanying drawings. The preferred embodiments of the present invention are shown in the drawings. The invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used herein in the description of the invention is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention.

In this embodiment, referring to fig. 1 to 2, the attenuation mechanism of a winding machine of the present invention includes an attenuation module, wherein a first mounting bracket 1 is disposed on one side of the attenuation module, a second mounting bracket 2 is disposed on the other side of the attenuation module, and the first mounting bracket 1 and the second mounting bracket 2 are distributed in parallel; a first guide rail 3 is arranged on the first mounting bracket 1, a second guide rail 4 is arranged on the second mounting bracket 2, a first sliding block 5 is arranged on the first guide rail 3 in a sliding manner, and a second sliding block 6 is arranged on the second guide rail 4 in a sliding manner; the attenuation component comprises a wire wheel mounting seat 7 transversely mounted on the same end of the first mounting bracket 1 and the second mounting bracket 2, a first wire pressing base 81 is slidably arranged on the first sliding block 5, a second wire pressing base 82 is slidably arranged on the second sliding block 6, the first wire pressing base 81 and the second wire pressing base 82 are connected and provided with a wire pressing mechanism 9, and one side of the wire pressing mechanism 9 is provided with a tensioner 10.

In one embodiment, the attenuation module further includes a first bearing seat 11 disposed on one side of one end of the first mounting bracket 1, a second bearing seat 12 is disposed on one side of the other end of the first mounting bracket 1, and the first bearing seat 11 and the second bearing seat 12 are disposed on the same side; one side of one end of the second mounting bracket 2 is provided with a third bearing seat 13, one side of the other end of the second mounting bracket 2 is provided with a fourth bearing seat 14, and the third bearing seat 13 and the fourth bearing seat 14 are arranged on the same side.

In one embodiment, the damping assembly further comprises a motor 15 disposed on one side of the first pressing line base 81, one side of the motor 15 is provided with an active driving wheel 16, one side of the active driving wheel 16 is provided with a passive driving wheel 17, the passive driving wheel 17 is mounted on one side of the first bearing seat 11, one side of the passive driving wheel 17 can be provided with one, two or more first driving wheels 18 according to production requirements, one side of the second bearing seat 12 can be provided with one, two or more second driving wheels 19 according to production requirements, one side of the third bearing seat 13 can be provided with one, two or more third driving wheels 20 according to production requirements, one side of the fourth bearing seat 14 can be provided with one, two or more fourth driving wheels 21 according to production requirements, the first driving shaft 25 is connected with the one or more first driving wheels 18 and the one or more third driving wheels 20, one end of the first transmission shaft 25 penetrates through the center of each first transmission wheel 18 and is connected with the driven transmission wheel 17, and one or more second transmission wheels 19 and one or more fourth transmission wheels 21 are connected with a second transmission shaft 26. A first transmission belt 22 is connected with each first transmission wheel 18 and each second transmission wheel 19, and a second transmission belt 23 is connected with each third transmission wheel 20 and each fourth transmission wheel 21. The driving transmission wheel 16 and the driven transmission wheel 17 are connected with a third transmission belt 24.

In one embodiment, the first pressing base 81 can move back and forth on the first guide rail 3 along with the movement of the first transmission belt 22, and the second pressing base 82 can move back and forth on the second guide rail 4 along with the movement of the second transmission belt 23, so that the pressing mechanism 9 can move back and forth under the driving of the first pressing base 81 and the second pressing base 82.

In one embodiment, the number of the first driving wheels 18 mounted on the first driving shaft 25 is equal to the number of the second driving wheels 19 mounted on the second driving shaft 26, and the number of the third driving wheels 20 mounted on the first driving shaft 25 is equal to the number of the fourth driving wheels 21 mounted on the second driving shaft 26.

In one embodiment, when there are two first transmission wheels 18, two second transmission wheels 19, two third transmission wheels 20 and two fourth transmission wheels 21, two first transmission wheels 18 and two third transmission wheels 20 are connected together to form a first transmission shaft 25, two second transmission wheels 19 and two fourth transmission wheels 21 are connected together to form a second transmission shaft 26, two first transmission belts 22 are provided, and two second transmission belts 23 are provided.

In one embodiment, when the first driving wheels 18, the second driving wheels 19, the third driving wheels 20 and the fourth driving wheels 21 are respectively provided in a plurality according to production requirements, a first transmission shaft 25 is connected to the plurality of first driving wheels 18 and the plurality of third driving wheels 20, a second transmission shaft 26 is connected to the plurality of second driving wheels 19 and the plurality of fourth driving wheels 21, the plurality of first transmission belts 22 are provided, and the plurality of second transmission belts 23 are provided.

In one embodiment, the line pressing mechanism 9 includes a line pressing bar 91, a plurality of line pressing blocks 92 are arranged below the line pressing bar 91, the line pressing blocks 92 are distributed in parallel at equal intervals, and a line pressing cylinder 93 is arranged below each line pressing block 92.

In one embodiment, a plurality of wire passing wheels 71 are uniformly distributed on the wire passing wheel mounting seat 7 at equal intervals, and each wire passing wheel 71 is connected with the wire 27 through the wire pressing mechanism 9 and the tensioner 10.

In another embodiment, the present invention further provides an attenuation method of the attenuation mechanism of the winding machine: the structure of the attenuation component is scientifically and reasonably designed, so that the attenuation component can be matched with a winding machine for use when the tensioner 10 does not provide attenuation tension or the tension is not attenuated enough, the wire passing wheel mounting seat 7 is arranged on the same end of the first mounting bracket 1 and the second mounting bracket 2, the wire passing wheel mounting seat 7 is provided with a plurality of wire passing wheels 71, the wire pressing block 92 is arranged below the wire pressing strip 91 in the wire pressing mechanism 9, so that the wire 27 can be connected with the tensioner 10 through one wire passing wheel 71 and one wire pressing block 92 in sequence, and the wire passing wheels 71 and the wire pressing blocks 92 in one line can be operated synchronously; when the tension of the wire 27 needs to be attenuated, each wire pressing block 92 in the wire pressing mechanism 9 can press the wire 27 upwards on the bottom surface of the wire pressing strip 91 under the driving of a wire pressing cylinder 93 positioned at the lower side of the wire pressing block; then, when the motor 15 providing power support for the attenuation operation is started, the driving transmission wheel 16 can be driven to rotate in the forward and reverse directions, the driving transmission wheel 16 rotating in the forward and reverse directions can drive the driven transmission wheel 17 to rotate in the forward and reverse directions through the third transmission belt 24, the driven transmission wheel 17 rotating in the forward and reverse directions can respectively drive the first transmission wheel 18 and the third transmission wheel 20 to synchronously rotate in the forward and reverse directions through the first transmission shaft 25, the first transmission wheel 18 rotating in the forward and reverse directions can drive the first transmission belt 22 to move back and forth, and the third transmission wheel 20 rotating in the forward and reverse directions can drive the second transmission belt 23 to move back and forth; when the first transmission belt 22 moves back and forth, the first wire pressing base 81 can be driven to synchronously move back and forth on the first guide rail 3, and similarly, when the second transmission belt 23 moves back and forth, the second wire pressing base 82 can be driven to synchronously move back and forth on the second guide rail 4, so that the wire pressing mechanism 9 with the end parts respectively connected with the first wire pressing base and the second wire pressing base can move back and forth along with the first wire pressing base and the second wire pressing base, namely, a plurality of wire pressing blocks 92 in the wire pressing mechanism 9 can synchronously move back and forth; when the wire pressing mechanism 9 moves forwards, the wire 27 clamped between each wire pressing block 92 and each wire pressing strip 91 can be pulled forwards from the direction of the tensioner 10, the process that the wire 27 is pulled out for a part or a certain length to the winding end is the process of adjusting the tension attenuation of the wire 27, and the length of the pulled wire 27 or the distance of the movement of the wire 27 is determined according to the attenuation required by winding; when the tension of the wire 27 is attenuated to meet the winding requirement, the wire pressing cylinder 93 in the wire pressing mechanism 9 is reset to do descending motion, the descending of the wire pressing cylinder 93 can drive the wire pressing block 92 to descend along with the descending of the wire pressing block 93, the wire pressing block 92 descends to loose the compression of the wire 27, the tension of the wire 27 is recovered under the tension action of the tensioner 10, so that tensioning transmission is realized, and at the moment, the wire pressing mechanism 9 can move backwards to an initial position; the attenuation function of 27 tension of wire rod is adjusted through adding the attenuation subassembly to its holistic structure for the control accuracy to 27 tension attenuation of wire rod is more accurate, and the wire rod after its attenuation is adjusted tension uses with the coiling machine is supporting has the effectual and efficient advantage of winding, and avoided in the past to 27 tension attenuation of wire rod not enough and lead to the wire rod to appear broken string, hinder the line, the wire rod stretch bending PIN foot and the winding effect subalternation phenomenon.

The utility model discloses a winding machine attenuation mechanism, which comprises an attenuation component, a first mounting bracket, a second mounting bracket, a first guide rail, a second guide rail, a first slide block and a second slide block; the attenuation component comprises a wire wheel mounting seat, a first wire pressing base, a second wire pressing base, a wire pressing mechanism, a tensioner, a first bearing seat, a second bearing seat, a third bearing seat, a fourth bearing seat, a motor, an active driving wheel, a passive driving wheel, a first driving wheel, a second driving wheel, a third driving wheel, a fourth driving wheel, a first driving belt, a second driving belt, a third driving belt, a first driving shaft and a second driving shaft, the attenuation component with the attenuation function is added to be matched with the winding machine for use, the wire pressing mechanism in the attenuation component can move back and forth to adjust the attenuation condition or the attenuation function of the tension of the wire, so that the attenuation component can automatically adjust the attenuation of the tension of the wire when the tensioner does not provide attenuation tension or the tension attenuation is insufficient, the winding machine can accurately control the precision of the tension attenuation of the wire, and has the advantages of good winding effect and high winding efficiency, when the structure and the attenuation method are used in cooperation with a winding machine, the phenomena of wire breakage, wire damage and stretch bending of the PIN PIN can be avoided in the wire winding process of the wire, and the problems that the conventional winding machine is not provided with a tensioner due to the fact that the production cost is saved, or the configured tensioner has no attenuation function, and the wire breakage, the wire damage, the stretch bending of the PIN PIN and the poor winding effect are caused due to the fact that the tensioner provides insufficient attenuation of tension are effectively solved.

The above-mentioned embodiment is only an example of the present invention, and is not intended to limit the scope of the present invention, and all technical solutions that are the same as or equivalent to the content of the claims of the present invention should be included in the scope of the present invention.

Claims

1. Coiling machine attenuation mechanism, its characterized in that: the damping device comprises an attenuation component, wherein a first mounting bracket is arranged on one side of the attenuation component, a second mounting bracket is arranged on the other side of the attenuation component, and the first mounting bracket and the second mounting bracket are distributed in parallel; a first guide rail is arranged on the first mounting bracket, a second guide rail is arranged on the second mounting bracket, a first sliding block is arranged on the first guide rail in a sliding manner, and a second sliding block is arranged on the second guide rail in a sliding manner; the attenuation component comprises a wire passing wheel mounting seat transversely mounted on the same end of the first mounting bracket and the second mounting bracket, a first wire pressing base is arranged on the first slider in a sliding mode, a second wire pressing base is arranged on the second slider in a sliding mode, the first wire pressing base is connected with the second wire pressing base and provided with a wire pressing mechanism, and a tensioner is arranged on one side of the wire pressing mechanism.

2. The attenuation mechanism of a winding machine according to claim 1, wherein: the attenuation assembly further comprises a first bearing seat arranged on one side of one end of the first mounting bracket, a second bearing seat is arranged on one side of the other end of the first mounting bracket, and the first bearing seat and the second bearing seat are arranged on the same side; one side of one end of the second mounting bracket is provided with a third bearing seat, one side of the other end of the second mounting bracket is provided with a fourth bearing seat, and the third bearing seat and the fourth bearing seat are arranged at the same side.

3. The attenuation mechanism of a winding machine according to claim 2, wherein: the attenuation assembly further comprises a motor arranged on one side of the first line pressing base, an active driving wheel is arranged on one side of the motor, a passive driving wheel is arranged on one side of the active driving wheel and is mounted on one side of the first bearing seat, at least one first driving wheel is arranged on one side of the passive driving wheel, at least one second driving wheel is arranged on one side of the second bearing seat, at least one third driving wheel is arranged on one side of the third bearing seat, at least one fourth driving wheel is arranged on one side of the fourth bearing seat, the first driving wheel and the third driving wheel are connected with a first driving shaft, one end of the first driving shaft penetrates through the center of each first driving wheel and is connected with the passive driving wheel, and the second driving wheel and the fourth driving wheel are connected; a first transmission belt is connected with a first transmission wheel and a second transmission wheel, a second transmission belt is connected with a third transmission wheel and a fourth transmission wheel, and the third transmission belt is connected with the driving transmission wheel and the driven transmission wheel.

4. The attenuation mechanism of a winding machine according to claim 3, wherein: the first wire pressing base can move back and forth on the first guide rail along with the movement of the first transmission belt, and the second wire pressing base can move back and forth on the second guide rail along with the movement of the second transmission belt, so that the wire pressing mechanism can move back and forth under the driving of the first wire pressing base and the second wire pressing base.

5. The attenuation mechanism of a winding machine according to claim 3, wherein: the number of the first transmission wheels arranged on the first transmission shaft is equal to that of the second transmission wheels arranged on the second transmission shaft, and the number of the third transmission wheels arranged on the first transmission shaft is equal to that of the fourth transmission wheels arranged on the second transmission shaft; more than one first transmission belt is arranged, and more than one second transmission belt is arranged.

6. The attenuation mechanism of a winding machine according to claim 1, wherein: the line ball mechanism is provided with a plurality of line ball pieces including the line ball strip below the line ball strip, and a plurality of line ball pieces are with the parallel distribution of interval that equals, are provided with the line ball cylinder below every line ball piece.

7. The attenuation mechanism of a winding machine according to claim 1, wherein: a plurality of wire passing wheels are uniformly distributed on the wire passing wheel mounting seat at equal intervals, and each wire passing wheel is connected with a wire through a wire pressing mechanism and a tensioner.