KR20130018028A - Apparatus for manufacturing carbon filber - Google Patents

Abstract

The present invention relates to a carbon fiber manufacturing apparatus, and more particularly, to provide a uniform coating layer of the carbon liquid to be coated on the surface of the fiber, and to easily remove foreign substances contained in the carbon liquid to be coated electrical resistance is The carbon fiber manufacturing apparatus for uniformly forming the product quality is improved in the apparatus for producing carbon fibers coated with a carbon liquid on the surface of the general fiber yarn, yarn supply device for releasing the woven fabric wound in the form of a roll; By a nozzle apparatus and a nozzle apparatus, in which a carbon liquid coating apparatus having an immersion roller for immersing the woven fabric in a carbon liquid and a foreign material and a coating layer of carbon fibers coated by the carbon liquid coating apparatus to form a uniform thickness Drying apparatus for drying the carbon fiber in which the coating layer is kept uniform and the dried carbon fiber in the form of a roll It consists of a winding device.

Description

Apparatus for manufacturing carbon filber

The present invention relates to a carbon fiber manufacturing apparatus, and more particularly, to provide a uniform coating layer of the carbon liquid to be coated on the surface of the fiber, and to easily remove foreign substances contained in the carbon liquid to be coated electrical resistance is The present invention relates to a carbon fiber manufacturing apparatus for uniformly forming to improve product quality.

Generally, the planar heating element is a thin sheet-to-board heating element that generates radiant heat by electric current, and is easy to control temperature and does not pollute the air so that it is hygienic and noiseless, and thus, thermal mats, thermal pads, bed mattresses, and thermal blankets. It is also widely used in blankets, residential heating devices such as apartments and general houses.

In addition, heating of commercial buildings such as offices and shops, heating of industrial facilities such as workshops or barracks, and agricultural equipment such as vinyl houses and agricultural product drying systems, and various freeze protections that can melt snow or prevent freezing of roads and parking lots. In addition to the device, it is widely used in leisure, winter, home appliances, anti-fog device of mirror or glass, health supplement, livestock.

As a heat generating source of the planar heating element, a heating line such as a nichrome heating line or a metal thin plate of aluminum or the like is used. In addition, there is a problem that the function as a loss of function as well as a partial heating method that generates only the heating wire portion, there was a problem that the temperature distribution is formed unevenly.

In order to solve the above problems in the conventional planar heating element using such a metal heating wire, a planar heating element using carbon fiber yarn as a heating wire has been proposed in place of a metal heating wire such as nichrome.

The planar heating element manufacturing apparatus described above is disclosed in the Republic of Korea Patent Application No. 10-2009-72858 as follows.

An apparatus for producing a planar heating element invented by an electrical property, comprising: a fabric unwinding device for releasing a woven fabric wound in a roll shape; An immersion apparatus for immersing the woven fabric in a carbon liquid; A pressing device for weaving a fabric immersed in carbon solution; A compaction apparatus for preventing agglomeration of carbon liquid from the compressed needle support stage; An immersion apparatus for secondary immersion of the immersion support stage from the compaction apparatus; A pressing device for weaving a second immersed fabric; A drying apparatus for drying the immersed carbon liquid; Finished drying is a planar heating element manufacturing device consisting of a winding device for winding the needle support end in the form of a roll.

In the planar heating element manufacturing apparatus, the surface of the fiber is immersed in the surface of the fiber and is not uniformly coded by the lump of carbon liquid generated when immersed in the coated fabric. There is a problem.

Korean Patent Application No. 10-2009-72858

In view of this point of the present invention as described above, the carbon solution coated on the surface of the fiber to uniformly form a coating layer, and to easily remove the foreign matter contained in the carbon solution to be coated electricity It is an object of the present invention to provide a carbon fiber manufacturing apparatus that can improve the quality of the product by forming a uniform resistance.

Carbon fiber manufacturing apparatus according to the present invention for achieving this object is a carbon liquid coating device and a yarn supplying device for releasing the woven fabric wound in roll form and an immersion roller for immersing the woven fabric in carbon liquid and the A nozzle device in which the foreign matter and the coating layer of the carbon fiber coated by the carbon liquid coating apparatus uniformly forms a thickness, and a drying apparatus for drying the carbon fiber in which the coating layer is uniformly maintained by the nozzle apparatus and the dried carbon fiber. It is characterized by consisting of a winding device wound in the form of a roll.

In addition, the nozzle device has a through-hole formed in the center and a threaded portion formed in the center and a through-hole formed in the center so that the carbon fiber immersed in the carbon liquid into the woven fabric is formed, and the through-hole is formed in the center and connected to the rotary motor at the upper portion of the outer circumferential surface. And a rotating member capable of rotating, and having a threaded portion formed therein at a lower portion thereof, and a through hole formed at a central portion thereof so that the screwed portion of the body frame and the screw portion of the nozzle frame are inserted into and coupled to each other. Characterized in that it comprises a threaded connection member.

In addition, the through-hole inner diameter of the nozzle tube is characterized in that formed in 0.5 ~ 0.9mm.

In addition, the through hole through which the fiber immersed in the nozzle tube is characterized in that the tab is formed.

As described above, in the carbon fiber manufacturing apparatus of the present invention, the production of the product is simplified by the nozzle device during the construction of the product, thereby increasing the product production efficiency, thereby reducing the production cost, and uniformly depositing the carbon liquid coated on the surface of the fiber. It is possible to improve the quality of the product by forming a coating layer, and to easily remove foreign substances (carbon liquid mass) contained in the carbon liquid, so that the electrical resistance is uniformly formed, thereby improving the quality of the product. .

1 is a schematic view showing a device for producing a conventional carbon fiber.
Figure 2 is a schematic view showing a carbon fiber manufacturing apparatus of the present invention.
Figure 3 is an exploded perspective view showing a nozzle device of the present invention.
Figure 4 is a cross-sectional view showing a nozzle device of the present invention.
Figure 5 is another embodiment showing a nozzle device of the present invention.
Figure 6 is an operating embodiment showing a nozzle device 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 or words used in the specification and claims should not be construed as having a conventional or dictionary meaning, and the inventors should properly explain the concept of terms in order to best explain their own invention. Based on the principle that can be defined, it should be interpreted as meaning and concept corresponding to the technical idea of the present invention.

Therefore, the embodiments described in the specification and the drawings shown in the drawings are only the most preferred embodiments of the present invention and do not represent all of the technical idea of the present invention, various equivalents that may be substituted for them at the time of the present application It should be understood that there may be water and variations.

2 is a schematic view showing a device for producing the carbon fiber of the present invention, Figure 3 is an exploded perspective view showing a nozzle device of the present invention, Figure 4 is a cross-sectional view showing a nozzle device of the present invention, Figure 5 Another embodiment showing the nozzle apparatus of the present invention, Figure 6 is an operating embodiment showing the nozzle apparatus of the present invention.

As shown in Figure 2, the carbon fiber manufacturing apparatus of the present invention is a device for producing carbon fibers coated with a carbon liquid on the surface of the general fiber yarn, yarn supply device for releasing the woven fabric 100 wound in roll form 10 and the carbon liquid coating apparatus 20 and the carbon fiber 100-1 coated by the carbon liquid coating apparatus 20 provided with an immersion roller 22 for immersing the woven fabric in the carbon liquid. The nozzle device 30 and the drying device 40 for drying the carbon fiber 100-1 in which the coating layer is uniformly maintained by the nozzle device 30 and the dried coating device 40 to form a uniform thickness of the foreign matter and the coating layer It is composed of a winding device 50 for winding the carbon fiber 100-1 in the form of a roll.

3 to 4, the nozzle device 30 has a through hole 31-1 formed at the center thereof so that the carbon fiber 100-1 immersed in the carbon liquid can be inserted therein, and a screw portion ( The through-hole 32-1 is formed in the nozzle tube 31 and the center in which the 31-2 is formed, and a rotating member 32-3 which is connected to the rotating motor 60 and rotates is provided at the upper portion of the outer circumferential surface thereof. The main frame 32 having the thread portion 32-2 formed thereon, the threaded portion 32-2 of the main body frame 32, and the threaded portion 31-2 of the nozzle tube 31 are inserted into and coupled to each other. The through hole (33-1) is formed in the central portion and the upper and lower portions of the through hole (33-1) connecting member (33) formed with a screw portion (33-2); structure comprising a.

The rotating member 32-3 of the main body frame 32 is connected to the rotating motor 60 and may be rotated by meshing gears or by using a fan belt.

As such, the rotating member 32-3 may be variously changed and used to rotate the body frame 32 at high speed.

An inner diameter of the through hole 31-2 of the nozzle tube 31 is formed to be 0.5 to 0.9 mm to control the coating thickness of the carbon fiber 100-1.

That is, the larger the through-hole 31-2, the higher the amount of carbon, the lower the resistance of the heat generating yarn, the smaller the through-hole 31-2 is the opposite result.

As shown in FIG. 5, the tab 31-1a is formed in the through hole 31-1 at the first entry portion through which the carbon fiber 100-1 soaked into the nozzle tube 31 is introduced. desirable.

That is, the tab 31-1a of the through hole 31-1 is formed to easily guide the immersed carbon fiber 100-1 to the through hole 31-1 or the carbon fiber when the nozzle tube 31 is rotated. Foreign matter buried on the surface of the (100-1) is primarily in contact with the surface of the tab (31-1a) has an effect that can be induced to the carbon-liquid coating device 20 without the foreign matter is leaked to the outside.

The nozzle device 30 may be formed of one or more than two.

Such an embodiment of the nozzle device 30 of the present invention, as shown in Figure 6, the woven fabric 100 is a carbon liquid coating apparatus 20 from the yarn supply device 10 is wound in the form of a roll The liquid is supplied to the settling roller 22 in which the carbon liquid is impregnated, so that the woven fabric is buried with the carbon liquid to supply the nozzle tube 41 of the nozzle device 30.

At this time, since the nozzle device 30 is formed to be formed on the upper portion of the carbon liquid coating device 20 and is rotated by the rotary motor 60, the carbon conveying the through-hole 31-2 of the nozzle tube 31 is transferred. The foreign matter (carbon mass) formed on the surface of the fiber 100-1 falls into the carbon liquid coating apparatus 20, and the coating thickness of the carbon fiber 100-1 is uniformly formed and supplied to the drying apparatus 40. The carbon fiber 100-1 dried by the 40 is transferred to the winding device 50 to complete the product.

As described above, the carbon fiber manufacturing apparatus of the present invention has a simple production of the product by the nozzle device during the construction of the production, thereby increasing the product production efficiency, thereby reducing the production cost, and uniformly coating the carbon liquid coated on the surface of the fiber. It is possible to increase the quality of the product by forming a and also to easily remove the foreign matter (carbon liquid lump) contained in the carbon liquid to form a uniform electrical resistance has the effect of improving the quality of the product.

1: carbon fiber manufacturing device
10: yarn feeder
20: carbon liquid coating apparatus 22: immersion roller
30: nozzle device
31: Nose pipe 31-1: Through hole
31-1a: tab 32-2: thread
32: main frame 32-1: through hole
32-2: screw portion 32-3: rotating member
33: connecting member 33-1: through hole
33-2: screw
40: drying device
50: winding device
60: rotating motor
100: woven fabric 100-1: carbon fiber

Claims (4)

In the apparatus for producing a carbon fiber coated with a carbon solution on the surface of the common fiber yarn,
Yarn supply device for releasing the woven fabric wound in roll form;
A carbon liquid coating apparatus having an immersion roller for immersing the woven fabric in a carbon liquid;
A nozzle device for uniformly forming a thickness of the foreign matter and the coating layer of the carbon fiber coated by the carbon liquid coating apparatus;
A drying apparatus for drying the carbon fibers in which the coating layer is uniformly maintained by the nozzle apparatus;
Carbon fiber manufacturing apparatus, characterized in that consisting of a winding device for winding the dried carbon fiber in the form of a roll.
The method of claim 1,
The nozzle device
A nozzle tube having a through hole formed at a center thereof and a screw formed at an outer circumferential surface thereof so that the carbon fiber immersed in the carbon liquid can be inserted therein;
A main frame having a through hole formed at a center thereof, and having a rotating member rotatably connected to a rotating motor at an upper portion of an outer circumferential surface thereof, and having a screw portion at a lower portion thereof;
The through-hole is formed in the center so that the screw portion of the body frame and the screw portion of the nozzle tube can be coupled and fastened, and a connecting member formed with a screw portion in the upper and lower portions of the through hole; carbon fiber manufacturing apparatus comprising a .
The method of claim 2,
The through-hole inner diameter of the nozzle tube is a carbon fiber nozzle apparatus, characterized in that formed in 0.5 ~ 0.9mm.
The method of claim 2,
Carbon fiber manufacturing apparatus, characterized in that the tab is formed in the through-hole of the entry portion through which the carbon fiber immersed in the nozzle tube.

Images