KR101755301B1

KR101755301B1 - Fiber Winding Sysem

Info

Publication number: KR101755301B1
Application number: KR1020150171775A
Authority: KR
Inventors: 조광연; 허서에르딘
Original assignee: 한국세라믹기술원
Priority date: 2015-12-03
Filing date: 2015-12-03
Publication date: 2017-07-07
Also published as: KR20170065390A

Abstract

The present invention not only allows continuous winding of fibers over two bobbins by the present invention as a fiber winding system in which fibers can be continuously wound over two bobbins, It is possible to provide a fiber winding system capable of continuously winding an endlessly by allowing another bobbin to be replaced with a new empty bobbin. In addition to minimizing the loss of fibers discharged from the spinneret, It is possible to maximize the production efficiency.

Description

{Fiber Winding Sysem}

The present invention relates to a fiber winding system, which is a fiber winding system capable of continuously winding fibers across two bobbins.

At present, synthetic fibers are produced by wet-spinning or melt-spinning the polymers according to the raw materials of synthetic fibers. That is, the unhardened polymer discharged from the spinneret is solidified into fibers by air or a coagulating liquid to produce filaments or staples. In the case of filaments, the filaments are continuously discharged from the spinneret in accordance with the nature of the spinning device, and if necessary, they are stretched and wound on a winding device such as a bobbin.

In this case, since the winding amount of a general bobbin is limited, loss of fibers discharged from the spinning device occurs when the bobbin is replaced with a new bobbin after completion of winding, and there is a problem that the fiber properties change due to the generation of tension at the start of winding.

Korean Patent Publication No. 10-2013-0124595 (published on November 14, 2013)

Therefore, according to the present invention, it is possible not only to continuously wind the fibers on two bobbins but also to allow the other bobbins, which have been wound up while being wound on one bobbin, to be replaced with new empty bobbins, And to provide a fiber winding system capable of making a fiber winding system.

Therefore, according to the present invention, a bobbin (10) having a through hole (12) formed at its center and capable of winding a fiber yarn around its outer circumferential surface,

A winding section (20) having a winding motor (22) inserted in the through hole (12) of the bobbin (10) to rotate the bobbin (10);

A first guide portion 30 for moving the winding portion 20,

And a second guide portion (40) for moving the first guide portion (30).

The winding unit and the bobbin are formed as one set type and are provided in one or more than two in the first guide unit.

And a pivot motor portion is provided on the upper portion of the one guide portion so as to pivot the elongated support frame 180 degrees on the first guide portion.

The winding unit is further provided with a moving cylinder for releasing the bobbin.

And a cutter portion capable of cutting the fiber yarn to be wound is provided at one end of the take-up motor shaft of the take-up portion.

And the bobbin of the winding part has a diameter of 20 to 40 cm.

The fiber winding system is characterized in that it is used in any one of polycarbosilane and carbon fiber.

Therefore, according to the present invention, it is possible not only to continuously wind the fibers on two bobbins but also to replace the other bobbins that have been wound up while being wound on one bobbin with new empty bobbins, By providing a fiber winding system, it is possible to minimize the loss of fiber discharged from the spinneret and to stop the fiber spinning when replacing the bobbin, thereby maximizing the production efficiency.

1 is a front view showing a fiber winding system according to the present invention;
2 is a side view of a fiber winding system of the present invention.
3A is another embodiment showing the first guide part of the present invention.
Figure 3b is an embodiment of Figure 3a.
4A and 4B show another embodiment of the fiber winding system of the present invention.
5 is a view showing another embodiment of the winding unit of the present invention.
6 is another embodiment showing the winding of the present invention.
Figures 7a, 7b and 7c are illustrative embodiments of the fiber winding system of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. Prior to this, terms and words used in the present specification and claims should not be construed as limited to ordinary or dictionary terms, and the inventor should appropriately interpret the concepts of the terms appropriately It should be interpreted in accordance with the meaning and concept consistent with the technical idea of the present invention based on the principle that it can be defined.

Therefore, the embodiments described in the present specification and the configurations shown in the drawings are merely the most preferred embodiments of the present invention and are not intended to represent all of the technical ideas of the present invention. Therefore, various equivalents It should be understood that water and variations may be present.

Fig. 1 is a front view showing a fiber winding system of the present invention, and Fig. 2 is a side view showing a fiber winding system of the present invention.

As shown in FIGS. 1 and 2, the fiber winding system of the present invention includes a bobbin 10 having a through hole 12 at its central portion and an outer peripheral surface capable of winding a fiber yarn so that the fiber winding system can be detached; A winding section (20) having a winding motor (22) inserted in the through hole (12) of the bobbin (10) to rotate the bobbin (10); And a first guide part (30) capable of moving the winding part (20).

The bobbin 10 and the take-up unit 20 may be provided in the one guide unit 30 in one set form. That is, the bobbin 10 and the take-up unit 20 are formed as one set type and are formed on the axis line of the first guide unit 30 in two or more in the X axis or Y axis, So that they can be made to face each other.

It is preferable that a rotary member 24 is installed on the shaft of the winding motor 22 of the winding unit 20 so as to be inserted into the through hole 12 of the bobbin 10 so as to be rotatable and removably attached to the bobbin 10 Do.

It is preferable that an elongated support frame 32-2 is provided on the upper portion of the first guide portion 30 so as to prevent the bobbin 10 from interfering with detachment and rotation of the bobbin 10 so that the winding portion 20 is seated .

The first guide part (30) An elongated support frame 32-2 which is coupled with the winding portion 20 is provided at an upper portion thereof and a plate portion 32-2 having a movable rail 32-4 provided at the lower end thereof is provided at an upper portion thereof for stably supporting and moving the reel portion 20, The guide rail 32-4 of the plate portion 32 is provided with an induction guide portion 34 for seating and supporting the movable rail 32-4 and guiding the movement of the movable rail 32-4, Is provided with a moving motor unit 36 for moving the plate unit 32.

That is, the first guide portion 30 is configured such that the bobbin 10 is rotated by the take-up portion 20 to move the fiber yarn discharged from the spinneret (not shown) (10) so that the fiber yarn is not interfered with the fiber yarn discharged from the spinneret (not shown) at the time of completion of winding, and the yarn is wound on the bobbin (10) So that the bobbin 10 can be easily attached and detached.

Thus, the first guide part 30 can be moved along the X axis or the Y axis according to the work space.

3A, the upper portion of the first guide portion 30 is provided with an elongated support frame (not shown) for fitting the rewinding portion 20 into the upper portion of the first guide portion 30 so as to easily attach and detach the bobbin 10 when the bobbin 10 is detached. It is preferable that the swing motor unit 50 is installed so that the elongated support frame 32-2 is rotated 180 degrees on the first guide unit 30. [

That is, as shown in FIG. 3B, the elongated support frame 32-2 coupled to the winding portion 20 upon completion of the winding of the fiber yarn on the bobbin 10 is rotated by the swing motor portion 50 So that the bobbin 10 can be detached and attached more easily.

The bobbin 10 can be attached and detached by the first guide portion 30, but the first guide portion 30 is provided with a first guide portion 30, And a second guide portion 40 for moving the first guide portion 30.

That is, the second guide portion 40 is coupled to the upper portion of the first guide portion 30 so as to move on the same axis line along which the first guide portion 30 moves, and the movable rail 42-4 And the guide rail 42-4 of the plate portion 42 is provided with an induction guide portion 44 for supporting and supporting the movable rail 42-4 And a moving motor unit 46 for moving the plate unit 42 is installed on a lower surface of the plate unit 42.

4A, the first guide unit 30 includes a first guide unit 30 and a second guide unit 40. The first guide unit 30 includes the second guide unit 40, The bobbin 10 is moved so that the fiber yarn can be easily wound on the bobbin 10 and the completed bobbin 10 is wound around the winding part A The first guide portion 30 is capable of winding the fiber yarn around the bobbin 10 which is fastened to the winding portion 20, So that the production efficiency can be increased.

As shown in FIG. 5, the winding unit 20 may further include a moving cylinder for moving the bobbin 10 away from the winding unit 20 so that the bobbin 10 can be easily removed from the winding unit 20 .

The moving cylinder may be a hydraulic or pneumatic moving cylinder 60, but is not limited thereto. That is, when the fiber yarn is wound on the bobbin 10 coupled to the winding unit 20, the moving cylinder 60 pushes the bobbin 10 so that the bobbin 10 is disengaged from the winding unit 20, .

As shown in FIG. 6, the fiber yarn to be wound on one end of the winding motor 22 of the winding section 20 can be cut so that the fiber yarn can be cut at the completion of winding of the fiber yarn in the bobbin 10 It is preferable that a cutter portion having a predetermined width is provided.

The bobbin of the winding part preferably has a diameter of 20 to 40 cm with a large curvature because the physical properties of the wound polycarbosilane or carbon fiber are brittle.

As described above, in the fiber winding system 1 of the present invention, the fiber winding system 1 according to the present invention has a through hole 12 formed at its central portion so as to be detachable as shown in Figs. 7A, 7B and 7C, A winding unit (20) having a bobbin (10) capable of winding and a winding motor (22) inserted in a through hole (12) of the bobbin (10) to rotate the bobbin The set type in which the bobbin 10 and the winding unit 20 are formed as one set is provided in the form of two sets facing each other at a predetermined interval above the one guide unit 30, The first guide portion 30 is provided with an elongated support frame 32-2 for fastening the winding portion 20 to the upper portion thereof so that the fiber yarn can be easily wound on the bobbin 10, The swivel frame 32-2 is rotated 180 degrees on the first guide portion 30, The movable rail 32-4 is fixed to the movable rail 32-4 of the plate portion 32 by a plate portion 32 provided with a movable rail 32-4, An induction guide portion 34 for guiding and supporting the plate portion 32 is provided and a moving motor portion 36 for moving the plate portion 32 is installed at one end of the plate portion 32.

A second guide portion for moving the first guide portion is installed on the lower end of the first guide portion. The second guide portion is coupled to the upper portion of the first guide portion 30, And an induction guide 44 for guiding movement of the movable rail 42-4 is provided on the movable rail 42-4 of the plate portion 42, The lower surface of the plate portion 42 is provided with a moving motor portion 46 for moving the plate portion 42.

The fiber winding system 1 of the present invention installed as described above has a structure in which the bobbin 10 is coupled to the winding section 20 and then the second guide section 40 is wound around the bobbin 10 (A) when the bobbin 10 is rotated and the fiber yarn is wound, the first guide portion (not shown) is rotated (A) the fiber yarn is uniformly wound on the bobbin (10), (A) the second guide part (40) is moved upon completion of winding on the bobbin (10) (B) to the bobbin (20).

When the second guide portion 40 is thus moved (B) and the fibers start to be wound on the bobbin 10, the first guide portion 20 again reciprocates right and left (B) .

(A) The bobbin 10 having been wound is completed by cutting the fibers connected to the bobbin 10 (A), separating only the bobbin 10, attaching a new empty bobbin to the take- B) After the bobbin 10 is completely wound, the second guide portion 40 can be moved again and wound on a new bobbin.

Thus, the fiber winding system of the present invention not only allows the fibers to be wound continuously over two bobbins but also allows the other bobbin to be replaced with a new empty bobbin while being wound on one bobbin, It is possible to minimize the loss of the fiber discharged from the spinneret and to stop the fiber spinning when replacing the bobbin, thereby maximizing the production efficiency.

The bobbin of the winding section preferably has a diameter of 20 to 40 cm with a large curvature because the physical properties of the wound polycarbosilane or carbon fiber are brittle and weak.

It is preferable that the fiber winding system is used for any one of polycarbosilane and carbon fiber. Since the fiber is very brittle at the time of cooling after the spinning and the bending radius is small, application of the fiber winding system of the present invention is preferable because it does not require stopping the fiber spinning at the time of replacing the bobbin.

10: bobbin 12: through hole
20: winding section 22: winding motor
24; Rotating member 30: First guide portion
32: plate portion 32-2: elongated support frame
32-4: moving rail 34: guide portion
36: moving motor section 40: second guide section
42: plate portion 42-4: moving rail
46: Moving motor unit 50: Swing motor unit
60: transfer cylinder

Claims

A bobbin (10) having a through hole (12) formed at its central portion so as to be able to be detached and capable of winding a fiber yarn around its outer peripheral surface;
A winding section (20) having a winding motor (22) inserted in the through hole (12) of the bobbin (10) to rotate the bobbin (10);
A first guide portion 30 for moving the winding portion 20,
A second guide portion 40 for moving the first guide portion 30 is provided,
Wherein the upper portion of the first guide portion is provided with an elongated support frame for receiving and coupling the rewind portion, and the revolving motor portion is provided so that the elongated support frame is rotated 180 degrees on the first guide portion.

The method according to claim 1,
Wherein the winding unit and the bobbin are formed as one set type and are provided in one or more than two in the first guide unit.

delete

The method according to claim 1,
Wherein the winding unit further comprises a moving cylinder for releasing the bobbin.

The method according to claim 1,
Wherein a cutter portion capable of cutting the fiber yarn to be wound is provided at one end of the winding motor shaft of the winding portion.

The method according to claim 1,
Wherein the bobbin of the winding unit has a diameter of 20 to 40 cm.

The method according to claim 1,
Wherein the fiber winding system is used in any one of polycarbosilane and carbon fiber.