KR101653634B1 - Winding system device for automatic drawn aluminum tube - Google Patents

Abstract

The present invention relates to a winding structure applied to an automatic aluminum tube drawing apparatus. The winding structure comprises: a first bobbin (100) which winds an aluminum tube and provides the aluminum tube for one side; a drawing unit (400) which draws the aluminum tube withdrawn from the first bobbin; a compression feeding rubber unit which performs feeding of the aluminum tube, passing through the drawing unit, while vertically compressing an outer circumferential side of the aluminum tube; and a winding unit (600) comprising a second bobbin, which pulls the aluminum tube through the compression feeding rubber unit and winds the aluminum tube being withdrawn at the same time. When the aluminum tube, which has a relatively small diameter and is wound around the bobbin, is drawn, the aluminum tube can be drawn without causing scratches on the outer circumferential side of the aluminum tube and, at the same time, a series of processes for winding the aluminum tube by the winding unit arranged in the other side can be automatically performed. Therefore, the winding structure can increase work efficiency and reduce the possibility of damage to the outer circumferential side of the aluminum tube which occurs when the aluminum tube is drawn. Accordingly, the winding structure applied to an automatic aluminum tube drawing apparatus can provide product reliability.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to an aluminum tube automatic drawing apparatus,

[0001] The present invention relates to an automatic drawing apparatus for an aluminum tube, and more particularly, to an automatic drawing apparatus for an aluminum tube, in which an aluminum tube wound around a bobbin provided at one side is fed to a drawer, And a bobbin having a bobbin for pulling the aluminum tube drawn through the take-up unit and being pulled out through the take-up unit provided on the other side, so that a series of processes are automatically performed after the drawing operation is completed And more particularly, to a winding structure applied to an aluminum tube automatic drawing apparatus that enables drawing of an aluminum tube by pulling out an aluminum tube from a pressing feeding rubber portion so as to have efficiency of drawing work and efficiency of winding work.

Generally, drawing processing is also called drawing processing. It is a method of deforming a metal to make a wire material or a thin tube, and a wire material of a predetermined thickness is die ) To pull it out to the other side and draw it into a wire rod of sectional shape according to the shape of the hole in the die. This work is called drawing.

In the conventional drawing apparatus, when a work material is drawn, one drawing material is drawn, and then another drawing process is sequentially performed, resulting in a problem that the working efficiency is lowered.

In order to solve the problem that the response of the product due to the use of the pneumatic cylinder as the drawing driving means is poor, in the drawing apparatus of the fully drawn drawing system of Korean Patent Registration No. 257656, Is performed in a straight line, there is a problem that a considerable work space is required.

Further, in order to perform the drawing process, there is a problem that the work process efficiency is lowered since a separate work is required to end one end of the work material.

Therefore, as one of the attempts to solve these problems, Korean Patent Registration No. 10-0623049 entitled " Aluminum Tube Bundle Automatic Drawing Device "

Although the patent already registered by the above-mentioned cause contributes greatly to solve the above-mentioned problem, the vertical transferring motion in which the clamping transfer part, which is clamped and transferred from the axial tube forming part, moves in an infinite locus, However, the speed is somewhat lowered due to the motion characteristics of the infinite locus, and the whole operation time is long.

In addition, Korean Patent Registration No. 10-1586338 entitled " Aluminum Tube Automatic Drawing Device ", which is already registered by this cause, has been disclosed, and a plurality of aluminum tube automatic drawing devices have been registered and disclosed.

The previously registered prior arts based on the above-mentioned cause mainly consist of a drawing device of straight aluminum tubes whose diameters are relatively large and can not be wound on bobbins, and are relatively small in diameter and wound around bobbins There is a problem in that it is not suitable as an apparatus for drawing out aluminum tubes to be supplied.

Korean Patent Registration No. 10-0623049 Korean Patent Registration No. 10-1586338

Accordingly, the present invention is directed to a method of drawing an aluminum tube having a relatively small diameter wound on a bobbin, which is pointed out as an inability to be solved by an aluminum tube drawing apparatus that has already been registered and started by the cause, So that the aluminum tube to be discharged is wound around another bobbin, thereby securing the finished aluminum tube safely.

According to an aspect of the present invention,

A first bobbin (100) for winding and feeding an aluminum tube to one side;

A drawing unit 400 for drawing an aluminum tube drawn out from the first bobbin;

A pressing and bonding rubber part (500) for pressing and feeding the outer circumferential surface of the aluminum tube passing through the drawing part in the vertical direction;

And a winding bobbin 600 having a second bobbin which is pulled through the press-bonding feeding rubber portion and winds the aluminum tube drawn from the drawing portion.

According to the present invention, when an aluminum tube having a relatively small diameter and being wound by a bobbin is pulled out, the aluminum tube can be pulled out without being damaged by scratches or the like while being wound by a winding portion provided in the other direction By performing a series of processes automatically, it is possible to reduce the possibility of damage to the outer circumferential surface of the aluminum tube due to work efficiency and drawing, thereby achieving the effect of securing the reliability of the product.

Figures 1 and 2 show photographs taken to show the overall structure of the drawing apparatus of the present invention.
Fig. 3 is a photograph showing a guide roller portion adopted in the present invention and a photograph
Fig. 4 is a photograph showing a guide roller portion adopted in the present invention, a photograph
5 to 7 show photographs taken to show the pressing bonding rubber portion adopted in the present invention
FIG. 8 is a view showing a photograph
Fig. 9 is a photograph taken from another angle of the winding part according to Fig. 8
10 is an enlarged photograph of the aluminum tube winding guide portion of the winding portion applied to the present invention
Fig. 11 is a perspective view of the winding part photograph taken so that the rail and the LM guide cable for allowing the conveyance belt to be conveyed in the left-

It is to be understood that the specific structural or functional descriptions of embodiments of the present invention disclosed herein are only for the purpose of illustrating embodiments of the inventive concept, It is intended to include all changes, equivalents, or alternatives falling within the spirit and scope of the present invention, as various changes can be made and have various forms, and terms and words used in the specification and claims are to be understood to be either conventional The inventor of the present invention is not limited to the meaning of the present invention and the inventor can define the concept of the term appropriately in order to explain his invention in the best way. . Therefore, the embodiments described in the specification of the present invention and the configurations shown in the drawings are merely the most preferred embodiments of the present invention and do not represent all the technical ideas of the present invention. It should be understood that various equivalents and modifications are possible or possible.

Also, unless otherwise defined in the description of the present invention, all terms used herein, including technical or scientific terms, have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs I have. Terms such as those defined in commonly used dictionaries are to be interpreted as having a meaning consistent with the meaning of the context in the relevant art and, unless explicitly defined herein, are to be interpreted as ideal or overly formal Do not.

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings.

The present invention provides an apparatus for automatically performing a series of processes in which a relatively small-diameter aluminum tube is wound around a bobbin, fed to a drawer, drawn through a drawing process, and then wound onto a bobbin provided on the other side.

In order to achieve the above object, the present invention provides a bobbin (100) comprising a first bobbin (100) provided on one side of a drawing device in a state in which an aluminum tube to be drawn is wound, (500) for continuously pulling the aluminum tube pulled out toward the drawing unit (400), an aluminum tube pulled by the pressing rubber unit (500) to the second bobbin side (Not shown).

First, the aluminum tube 10 wound around the first bobbin 100 is pretreated to undergo a drawing process, and a predetermined length is firstly harvested.

The axial length of the aluminum tube wound around the first bobbin 100 is passed through the drawer 400 of the present invention to be hooked to the tip of the compression rubber part 500, 500 so that the aluminum tube 10 can be continuously pulled out and pulled out through the drawing unit 400.

The axial tube work for axially extruding the predetermined length of the front end of the aluminum tube 10 may be provided to the apparatus of the present invention while being wound around the first bobbin 100 after a separate process.

Such an axial tube process may be performed using a known apparatus or the like.

The guide roller unit 200 is configured to support and guide the aluminum tube 10 wound on the first bobbin 100 described above.

The guide roller unit 200 includes a first guide roller unit 223 provided with an upper roller 221 and a lower roller 222 on the front side of a fixed plate 220 fixed on the base 210 And a second guide roller portion 226 guided again after the first guide roller portion 223 is opened.

The second guide roller 226 is provided on the upper surface of the horizontal plate 227 horizontally coupled from the lower end of the fixing plate 220.

The second guide roller unit 226 constitutes a roller arranged on a horizontal line, unlike the first guide roller unit 223, and the left horizontal roller 224 and the right horizontal roller 225 ).

The aluminum tube 10 passes through and is guided by the guide roller unit 200 configured as described above. After passing through the gap between the upper and lower rollers 221 and 222 of the first guide roller unit 223, Through the horizontal rollers 224 and 225 of the left and right horizontal rollers 226, respectively.

The aluminum tube 10 passing through the guide roller unit 200 guides straightly the state in which the aluminum tube 10 can be bent in the course of passage.

Meanwhile, the guiding roller unit 200 is guided to pass through the lubrication support unit 300 for supplying lubrication oil to the aluminum tube 10 to be forwardly transported.

The lubrication support unit 300 is configured to secure the nuance of the drawing process. The horizontal guide rollers 310 are provided at one end of the work die 20 and are spaced apart from the horizontal guide rollers 310, A guide roller 320 is provided and a lubrication oil feeder 330 is formed on the front side of the upper guide roller 320.

The drawing unit 400 is an apparatus for drawing the aluminum tube 10 passing through the lubrication allowance 300, and adopts a known drawing apparatus.

On the other hand, the aluminum tube 10 to be first drawn into the drawer 400 must be formed in a separate process beforehand as described above.

The pressing and bonding rubber portion 500 is a means for pulling the aluminum tube 10 pulled out through the drawing portion 400 and pulling the aluminum tube 10 so that the aluminum tube 10 can be pulled out continuously.

In the present invention, the compression bonding rubber part 500 is provided in the same configuration as the compression bonding rubber part 500 in the front and back sides. In this description, the configuration of the compression bonding rubber part 500 positioned on the front side will be mainly described, The compression bonding rubber parts to be formed are denoted by 500 'in different reference numerals.

The pressing and bonding rubber portion 500 is provided on the upper surface of the work die 20 and comprises an upper pressing and bonding rubber portion 510 and an upper pressing and bonding rubber portion 520 which are rotated in an infinite locus.

The upper and lower pressing and bonding rubber portions 510 and 520 have ring gears 511 and 521 and gear pulleys 512 and 513 and 522 and 523 provided at both ends of the ring rubber 511 and 521, The gear pulleys 512, 513, 522 and 523 are rotatably mounted on the first shaft 531 and the second shaft 532, which are provided above and below the vertical bar 530,

The gear pulleys 512, 513, 522 and 523 are connected to a chain 540 by a motor provided inside the base 210 and are driven.

The chain 540 includes a gear pulley 513 on the rear side of the gear pulleys 512 and 513 for rotating the ring rubber 511 of the upper compression bonding rubber part 510 of the front side compression bonding rubber part 500, Is connected to the front side gear pulley 512 'of the gear pulleys 512' and 513 'for rotating the ring rubber 511' of the upper compression bonding rubber portion 510 'of the compression bonding rubber portion 500' So that any one of the gear pulleys 513 and 512 'can be connected to the driving motor and driven.

In addition, the driving method of the chain 540 may be applied to a structure for interlocking driving the lower pressing and bonding rubber parts 520 and 520 '.

Since this driving method is only an embodiment, it goes without saying that it is possible to drive the upper and lower squeeze feeding rubber parts 510, 520/510 ', 520' through other driving methods.

On the other hand, the outer circumferential surfaces of the gear pulleys 512 and 513 are formed with gears. The inner circumferential surface of each ring rubber 511 and 521 of the upper and lower compression bonding rubber parts 510 and 520, which are engaged with gear teeth, engaged with gears, So that the concave and convex grooves 514 and 524 are formed.

The ring rubber 511 of the upper pressing and bonding rubber portion 510 is pressed downward and the ring rubber 521 of the lower pressing and bonding rubber portion 520 is pressed upward to be contacted In order to press the ring rubber 511 and 521 upward and downward, a compression bar 551 fixed to the vertical partition plate 550 vertically fixed to the side so as to be able to move up and down is provided. The pressing load portions 560 are connected to the end portions of the upper pressing and pressing portions 511 and 521 and are in direct contact with and pressurized with the ring rubber portions 511 and 521, 511) and the ring rubber (521) of the lower pressing and bonding rubber portion (520) in the vertical direction.

On the other hand, the ring gears 511 and 521, which are in contact with the pressurizing loading section 560 and move in an infinite locus, must not obstruct rotational movement on an infinite locus. Therefore, to the top or bottom surface of the pressurizing loading section 560, (561).

The gear roller 561 is engaged with the recessed grooves 514 and 524 of the ring rubber 511 and 521 to be engaged with each other when the ring rubber 511 and 521 rotate in an infinite locus, .

Further, in order to smoothly pass the aluminum tube 10, which presses the ring rubber 511 and 521 by the above-described pressure loading part 560 and is pulled out between the ring rubber 511 and 521 and passes through the ring rubber 511 and 521, Appropriate tension should be provided.

To this end, the present invention is provided with a tension fixing portion 570 for providing tension to the ring rubber 511 on the upper side.

The tension fixing portion 570 is fixed by providing tension in a shape that lifts up the ring rubber 511 upward from the inner side of the ring rubber 511 of the upper compression bonding rubber portion 510, A vertical fixing bar 571 vertically fixed to an upper surface side of a press loading portion 560 which presses the upper fixing bar 571 and the lower fixing bar 571 downward, 572).

In the present invention, the tension gear roller 572 refers to a gear roller furnace that provides tension to the ring rubber 511, and is referred to as a tension gear roller.

The pressing and bonding rubber parts 500 having the above-described structure are constituted of two pairs of right and left facing each other, and have the same configuration before and after.

The compression bonding rubber portion 500 is configured to be left and right, respectively, so that the aluminum tubes 10 having different diameters can be drawn out at the same time.

It is also understood that constituting the pressing and bonding rubber portion 500 in the forward and rearward directions is to maximize the pulling force of the aluminum tube 10 passing through the drawing portion 400 side.

On the other hand, when the aluminum tube 10 is pulled and transported through the pressing and bonding rubber part 500 with a uniform force, the drawing process of the aluminum tube 10 continuously proceeds through the drawing part 400 continuously Loses.

The aluminum tube 10 having the drawing process completed is wound around the second bobbin 610 of the winding unit 600 provided on the opposite side opposite to the first bobbin 100.

As described above, the winding unit 600 is configured such that the aluminum tube 10 supplied to the drawing unit 400 side while being wound on the bobbin from the first bobbin 100 is pulled by the pressing and bonding rubber unit 500 And is wound onto the second bobbin 610 side after being pulled out.

As shown in FIG. 8, the winding unit 600 is located at the rear end side of the compression bonding rubber part 500 and winds the drawn aluminum tube 10.

Further, since the winding unit 600 is configured to be pulled out at two places as described above, it is preferable that the winding unit 600 is also configured to wind the aluminum tube 10 pulled out at two places .

Since the winding unit 600 of the present invention is constituted by a set and spaced apart from the front and rear, the winding unit 600 of each winding unit 600 has the same structure. Therefore, in the description of the present invention, .

8-11, a conveyance belt 620 is provided to be conveyed to the right and left along the rail 621 and a second bobbin 610 fixed to both sides of the conveyance belt 620 on both sides thereof, A second bobbin 610 provided on one side of the upper surface of the conveying table 620 and disposed on the side of the fixing table 630 and positioned between the fixing tables 630, The second bobbin 610 and the aluminum tube 10 are guided so as to be wound around the second bobbin 610 so as to surround the second bobbin 610 regardless of the right and left transfer of the transfer belt 620, And an aluminum tube winding guiding portion 650 which is made of aluminum.

The conveyance belt 620 is provided to repeatedly transfer the second bobbin 610 to the left and right by a predetermined stroke distance so that the aluminum tube 10 discharged after the drawing is uniformly wound on the second bobbin 610 .

The right and left transfer motive power of the transfer belt 620 is transmitted to the side of the side frame 620 of the transfer belt 620. The right and left transfer motors of the transfer belt 620 can be moved along the rail 621 to the lower end side of the transfer belt 620, 621 and the LM guide cable 623 fixedly connected to the LM guide cable 623.

Alternatively, it is possible to control the hydraulic cylinder so as to be able to perform lateral transfer through the rod connected to the frame 621 of the transfer table 620.

The structure and means for the right and left transfer motions and transfer of the transfer table 620 may adopt and use a known technique.

Meanwhile, a fixing table 630 surrounding the upper side of the outer side of the conveyance table 620 is provided to support the second bobbin 610 by the shaft 631.

The motor 640 for rotating the second bobbin 610 is provided at one side of the upper surface of the conveyance belt 620 to be interlocked and conveyed according to the conveyance of the conveyance belt 620.

On the other hand, when the aluminum tube 10 is pulled toward the second bobbin 610, the aluminum tube 10 is guided and wound so that the aluminum tube winding guide 650 is formed.

The aluminum tube wrapping guide portion 650 should be installed irrespective of the right and left transporting of the transporting platform 620 and surrounds the transporting platform 620 and fixes the frame in an inverted U shape.

A guide roller 651 is fixed to the front side of the conveying table 620 so as to guide the aluminum tube 10 pulled out from the aluminum tube winding guide 650, A guiding portion 652 for guiding the aluminum tube 10 guided through the guide roller 651 to the second bobbin 610 side is provided.

The guide rollers 651 for guiding the aluminum tube 10 pulled toward the aluminum tube winding guiding portion 650 side are guided by the aluminum tube winding guide 651 located on the rear side, To be guided to the negative side.

That is, the guide roller 651 can be installed selectively.

On the other hand, as shown in FIGS. 8 to 10, the guiding portion 652 for guiding the drawn aluminum tube 10 to the second bobbin 610 side is provided with an upper end side of the aluminum tube winding guide portion 650 A guiding block 654 having a guide roller 653 on its front side is fixed and a guider 655 for guiding the aluminum tube 10 guided along the guide roller 653 A guide bar 656 fixed to the side of the guide block 654 and guiding and guiding the aluminum tube 10 guided by the guider 655 in the state of being close to the outer peripheral surface on the side of the second bobbin 610 Respectively.

And M is a motor for driving the guide roller.

One end of the guide bar 656 is provided with a turning block 657 fixed to the guide block 654 so as to be rotatable around the axis 657a and the turning block 657 is rotated 657, and the cylinder 658 fixed to the upper frame constituting the aluminum tube winding guide 650 is fixed.

The rotation block 657 is rotatable about the shaft 657a in accordance with the operation of the cylinder 658. As the aluminum tube 10 is wound by the second bobbin 610, , And the guide bar 656 for guiding the drawn aluminum tube 10 to the second bobbin 610 needs to be gradually rotated toward the outer side (outer side gradually away from the outer peripheral surface of the second bobbin) .

For this purpose, the operation of the cylinder 658 causes the guide bar 656 to rotate in an open position to maintain the distance from the aluminum tube 10 wound at uniform intervals and to guide and wind the drawn aluminum tube 10 .

In addition, the guide bar 656 has an elastic force when one end of the guide bar 656 is fixed to the pivot block 657 and the other end thereof guides the drawn aluminum tube 10 wound around the second bobbin 610 as described above The guide bar 656 fixed to the rotation block 657 may be provided between the outer surface of the rotation block 657 and the one end side of the guide bar 656 fixed to the rotation block 657, And an elastic piece 659 for connecting the elastic piece 659 and the elastic piece 659.

The drawing and winding process of the aluminum tube 10 having a relatively small diameter using the present invention having the above-described configuration, particularly the aluminum tube 10 having a relatively small diameter and being wound on the bobbin will be described.

First, a certain length of the front end side of the aluminum tube 10 is pulled out of the aluminum tube 10 in a state of being wound around the first bobbin 100 in advance and guided by the guide roller portion 200 of the present invention And penetrates through the lubricant supply part 300 and the drawing part 400 side so as to enter the tip side of the compression bonding rubber part 500.

Such an operation can be performed in advance by the operator.

The pulling force of the aluminum tube 10 must be continuously provided for the drawing process and since this force is provided in the pressing feeding rubber portion 500 of the present invention, the force of the first bobbin 100 The distal end side of the aluminum tube 10 is to be extended to the distal end of the pressing and bonding rubber part 500 through the drawing part 400 while being axially guided.

In this state, that is, when the aluminum tube 10 is forcibly pressed by the pressing and bonding rubber part 500, when the pressing and bonding rubber part 500 is driven, the gear pulleys 512, 513 and 522, And the rubbers 511 and 521 rotate along the infinite locus.

The aluminum tube 10 inserted between the upper and lower pressing and bonding rubber parts 510 and 520 is pulled by the rotational movement of the ring rubber 511 and 521 on the endless track, and the continuous drawing operation is performed by notifying the drawing part 400 .

On the other hand, the side of the aluminum tube 10 on which the drawing operation is completed is transferred to and wound on the side of the second bobbin 610 on the winding section 600 side. After all aluminum tubes wound on the first bobbin 100 are drawn and processed, The second bobbin 610 is moved to the outer circumferential surface of the second bobbin 610 in accordance with the transfer of the transfer belt 620 to the left and right.

While the present invention has been described with reference to the particular embodiments and drawings, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, Various modifications and changes may be made.

Accordingly, it is to be understood that the technical idea of the present invention is to be understood by the following claims, and all of its equivalents or equivalents fall within the technical scope of the present invention.

10; Aluminum tube 20; Working die
100; A first bobbin 200; Guide roller portion
210; Expectation 220; Fixed plate
221; Upper roller 222; Lower roller
223; A first guide roller portion 224; Left horizontal roller
225; A right horizontal roller 226; The second guide roller portion
227; A horizontal plate 300; Lubrication benefit
310; A horizontal guide roller 320; Upper guide roller
330; A lubrication oil feeder 400; The pull-
500; A pressing feeding rubber portion 510; The upper squeeze feeding rubber portion
520; Lower compression bonding rubber portions 511, 521; Ring rubber
512, 513, 522, 523; Gear pulleys 514 and 524; Uneven groove
530; Vertical bar 531; First axis
532; A second shaft 540; chain
550; Vertical plate 551; Squeeze bar
560; A pressure loading section 561; Gear roller
570; Tension tension unit 571; Vertical fixed bar
572; Tension gear roller 600; Winder
610; A second bobbin 620; Conveyor belt
621; Rail 622; frame
623; LM guide cable 630; Fixture
631; Axis 640; motor
650; An aluminum tube winding guide portion 651; Guide roller
652; Guide portion 653; Guide roller
654; Guidance block 655; Guider
656; Guide bar 657; Rotation block
657a; Axis 658; cylinder
659; Elastic piece

Claims (12)

delete The outer circumferential surface of the aluminum tube, which has been drawn through the drawing unit 400 that draws out the aluminum tube drawn from the first bobbin 100 wound around the first bobbin 100, A pressing and bonding rubber part 500 having an upper pressing and feeding rubber part 510 and a lower pressing and bonding rubber part 520 that are rotated in a trajectory in contact with each other, And a winding unit (600) having a second bobbin for winding an aluminum tube pulled out from the drawing unit (400), the winding structure being applied to an aluminum tube automatic drawing apparatus,
The ring rubber 511 of the upper pressing and bonding rubber portion 510 is pressed downward and the ring rubber 521 of the lower pressing and bonding rubber portion 520 is pressed upward to be in contact with the ring The pressing bar 551 is fixed to the vertical partition plate 550 vertically fixed to the side face so as to raise and lower the rubber 511 and 521 in the vertical direction. And a pressurizing and loading section (560) connected to the end side and directly contacting and pressing the ring rubber (511, 521) so as to correspond vertically.
The outer circumferential surface of the aluminum tube, which has been drawn through the drawing unit 400 that draws out the aluminum tube drawn from the first bobbin 100 wound around the first bobbin 100, A pressing and bonding rubber part 500 having an upper pressing and feeding rubber part 510 and a lower pressing and bonding rubber part 520 that are rotated in a trajectory in contact with each other, And a winding bobbin 600 having a second bobbin for winding the aluminum tube drawn from the drawing unit 400,
The upper and lower pressing and bonding rubber portions 510 and 520 are configured to have ring rods 511 and 521 and gear pulleys 512 and 513 and 522 and 523 provided at both ends of the ring rubber 511 and 521, And a second shaft (532) provided on upper and lower sides of the vertical bar (530) spaced vertically from and away from the first and second shafts (512, 513, 522, 523) In a winding structure applied to an automatic drawing apparatus,
The ring rubber 511 of the upper pressing and bonding rubber portion 510 is pressed downward and the ring rubber 521 of the lower pressing and bonding rubber portion 520 is pressed upward to be in contact with the ring The pressing bar 551 is fixed to the vertical partition plate 550 vertically fixed to the side face so as to raise and lower the rubber 511 and 521 in the vertical direction. And a pressurizing and loading section (560) connected to the end side and directly contacting and pressing the ring rubber (511, 521) so as to correspond vertically.
The outer circumferential surface of the aluminum tube, which has been drawn through the drawing unit 400 that draws out the aluminum tube drawn from the first bobbin 100 wound around the first bobbin 100, A pressing and bonding rubber part 500 having an upper pressing and feeding rubber part 510 and a lower pressing and bonding rubber part 520 that are rotated in a trajectory in contact with each other, And a winding bobbin 600 having a second bobbin for winding the aluminum tube drawn from the drawing unit 400,
The upper and lower pressing and bonding rubber portions 510 and 520 are configured to have ring rods 511 and 521 and gear pulleys 512 and 513 and 522 and 523 provided at both ends of the ring rubber 511 and 521, Wherein the gear pulleys (512, 513, 522, 523) are rotatably mounted on a first shaft (531) and a second shaft (532) provided above and below the vertical bar (530) 524 formed on the inner circumferential surface of each ring rubber 511, 521 of the upper and lower compression bonding rubber portions 510, 520 to be rotated along the infinite locus so as to be engaged with the gear pulleys 512, In a winding structure applied to an automatic tube pulling apparatus,
The ring rubber 511 of the upper pressing and bonding rubber portion 510 is pressed downward and the ring rubber 521 of the lower pressing and bonding rubber portion 520 is pressed upward to be in contact with the ring The pressing bar 551 is fixed to the vertical partition plate 550 vertically fixed to the side face so as to raise and lower the rubber 511 and 521 in the vertical direction. And a pressurizing and loading section (560) connected to the end side and directly contacting and pressing the ring rubber (511, 521) so as to correspond vertically.
delete 5. The method according to any one of claims 2 to 4,
A plurality of gear rollers 561 exposed to the pressurizing loading section 560 are formed so as to be engaged with the recessed grooves 514 and 524 of the ring rubber 511 and 521, rescue.
The method according to claim 6,
Further comprising a tension fixing portion (570) for providing tension to the ring rubber (511) of the upper pressing and bonding rubber portion (510).
delete delete A pressing and bonding rubber part 500 for pressing and feeding the outer circumferential surface of the aluminum tube through the drawing part 400 for drawing the aluminum tube drawn from the first bobbin 100 wound around and feeding the aluminum tube; And a second bobbin for pulling the aluminum tube pulled out through the press-contacting feeding rubber portion and pulled out from the draw-out portion, the conveyance belt 620 being conveyed to the left and right along the rail 621; A fixing table 630 fixed to both sides of the upper surface of the conveyance belt 620 and fixing the second bobbin 610 by a shaft 631; A motor 640 provided on one side of the upper surface of the conveyance table 620 for rotating the second bobbin 610 disposed on the side of the fixing table 630 and positioned between the fixing tables 630, And the aluminum bobbin 610 is wound around the second bobbin 610 so as to surround the second bobbin 610 irrespective of the right and left feeding of the transfer bobbin 620, A winding unit 600; ≪ / RTI >
A guide roller 651 is fixed to the front side of the conveying table 620 so as to guide the aluminum tube 10 pulled out from the aluminum tube wrapping guide portion 650. On the upper side of the conveying table 620, A guide portion 652 for guiding and guiding the aluminum tube 10 guided through the guide roller 651 to the second bobbin 610 side; The present invention relates to a winding structure for an aluminum tube automatic drawing apparatus,
The guiding portion 652 is fixed to a frame constituting the upper end of the aluminum tube winding guiding portion 650. A guiding block 654 having a guiding roller 653 is fixed to the front surface of the guiding block 652, A guider 655 for guiding the aluminum tube 10 guided along the guiding block 654 is fixed to the side of the guiding block 654 and the aluminum tube 10 guided by the guider 655 is guided by the second bobbin 610, And a guide bar (656) guiding and guiding in a state of being close to the outer peripheral surface of the aluminum tube.
11. The method of claim 10,
One end of the guide bar 656 is provided with a turning block 657 fixed to the guide block 654 so as to be rotatable around the axis 657a and the turning block 657 is rotated 657), and a cylinder (658) fixed to an upper side frame constituting an aluminum tube winding guide (650) is fixed.
12. The method of claim 11,
An elasticity connecting the outer surface of the pivot block 657 and one end of the guide bar 656 fixed to the pivot block 657 to provide an elastic force between the guide bars 656 fixed to the pivot block 657 Piece (659). ≪ RTI ID = 0.0 > 15. < / RTI >

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