KR102520250B1 - carbon fiber coating device - Google Patents

Abstract

The present invention relates to a carbon fiber coating apparatus capable of uniformly and evenly coating various coating solutions containing phenol, acrylic, urethane, epoxy resin, and the like on the surface of a woven carbon fiber. According to the present invention, carbon fiber coating apparatus for trimming and processing a coating layer of carbon fiber impregnated on both sides with a coating liquid comprises: a pair of trimming rollers arranged side by side on both sides at an interval and having cut surfaces on the inside coming in contact with each other to trim the coating liquid impregnated on both sides of the carbon fiber passing therethrough; support shafts provided in the longitudinal direction by both side brackets on the outside of the trimming rollers to reinforce the strength of the trimming rollers and adjust tension; an adjustment nut screwed and fixed to both ends of the support shaft and adjusting the tension by tightening and loosening the nut; and a tension support bar coupled to the center of the support shaft and allowing one side surface to be tightly coupled to the trimming roller to support the trimming roller. Accordingly, the adjustment nut is adjusted according to the viscosity of the coating liquid and the width of the carbon fiber, thereby adjusting the tension force of the trimming roller.

Description

Carbon fiber coating device {carbon fiber coating device}

The present invention relates to a carbon fiber coating apparatus, and more particularly, to uniformly and evenly coating various coating liquids including phenol, acrylic, urethane, epoxy resin, etc. on the surface of woven carbon fibers.

In general, carbon fiber has mechanical properties as a lightweight material while having high strength, high stiffness, and excellent fatigue characteristics. Not only is it widely used as a state-of-the-art material throughout the industry, including industry, but there is a trend that its use range and usage are gradually expanding.

For example, in the fields of automobiles, railroads, and ships, carbon fiber can be widely applied not only to the body but also to their interior interiors to reduce the weight of the body to improve speed and fuel efficiency. By manufacturing each part with carbon fiber, it is possible to significantly improve fuel efficiency and stability by dramatically reducing weight while increasing rigidity.

Carbon fiber composites (hereinafter referred to as "carbon fibers") having these advantages are widely used as advanced materials along with stainless steel, high-strength aluminum and flame-retardant magnesium alloys, which are lighter than steel, but according to the characteristics of carbon fibers, phenol, It is absolutely required to uniformly and evenly coat various materials such as acrylic, urethane, and epoxy resin.

In other words, in the case of composite materials using carbon fiber, they are excellent in price and three-dimensional processability, but they lack mechanical properties and poor adhesion between layers compared to other lightweight materials, and it is required to uniformly and evenly coat the materials of composite materials. .

Therefore, conventionally, in order to maintain high elasticity and reinforce the rigidity of the carbon fiber layer, methods and structures for covering and coating materials such as phenol, acrylic, urethane, epoxy resin, etc. have been proposed according to the purpose of use.

Looking at its structure as an example, Korean Patent Registration No. 10-1901849 "Carbon fiber coating device and coating system including the same" is a device that allows silicon to be uniformly coated on both sides of carbon fiber.

The configuration of the prior registration patent is a supply unit for supplying carbon fiber, a liquid silicon storage unit for coating the surface of the carbon fiber, a coating unit for coating both sides of the carbon fiber with silicon, and the coated carbon It consists of a drying part and a recovery part to dry the fibers.

In addition, the coating unit is provided with a pair of contact blades to uniformly coat the coating liquid (silicon) impregnated on both sides of the carbon fiber while passing through the silicon storage unit, and the blades are provided with a pair facing each other to pass between them. The impregnated coating liquid is evenly applied to both sides of the passing carbon fiber to be coated.

However, in the conventional configuration as described above, there was a problem in that the upper surfaces of the pair of contact blades bent opposite to each other were aggregated and the carbon fibers were not uniformly coated, and the aggregated coating liquid overflowed the upper surface. This problem has become a problem of deteriorating the tension function of the contact blade by accumulating stress on the contact blade.

Also, more importantly, depending on the width of the carbon fiber to be coated, the middle part in the longitudinal direction of both contact blades is pushed outward and bent, which causes the coating solution of the carbon fiber to not be coated evenly and the middle part to be coated more than the side part. A problem occurred.

That is, the thickness of the coating on the carbon fiber is determined as the coating liquid passes between the contact blades on both sides, but if the coating liquid has a very high viscosity or the length of the contact blade is long because the width of the carbon fiber is wide, the carbon fiber rising vertically There was a structural characteristic in which the middle part of the contact blade was pushed outward and was forced to bend, and accordingly, the middle part of the carbon fiber was coated with more coating liquid, resulting in a problem that a uniform product could not be obtained.

As another conventional structure for improving these problems, there is a "carbon fiber coating device" of Korean Patent Registration No. 10-2141576, which is a device that allows coating liquid to be uniformly coated on both sides of carbon fibers.

The conventional configuration includes a contact blade contacting the coating liquid impregnated on one surface of the carbon fiber and a roller contacting the impregnated coating liquid on the other surface of the carbon fiber, respectively, and the contact blade is provided with the coating liquid impregnated on the carbon fiber one surface. The contact part is composed of a first bending part and a second bending part that are inclined outward, and the contact part is inclined at a predetermined angle relative to the width direction of the carbon fiber, so that the coating liquid accumulated in the second bending part is discharged to one inclined side. It is a configuration that makes it possible.

However, such a conventional configuration has a contact blade on one side and a roller on the other side of the configuration of coating the coating liquid on the carbon fiber, but the first bending portion and the By configuring two bending parts, the coating liquid is configured to flow down to one inclined side, but there is a structural problem that uniform coating cannot be expected when coating a highly viscous coating liquid or a wide carbon fiber.

In this case, in another conventional structure, it is proposed to mount a separate knife in the longitudinal direction on the inner surface of the contact blade in contact with the carbon fiber coating liquid to minimize contact and to finely adjust the position of the knife. However, in this configuration, there were various structural problems, such as the fact that fine adjustment of the knife was very difficult and difficult, and it took a lot of time to adjust, such as tightening or loosening a large number of bolts and nuts.

Republic of Korea Patent No. 10-1901849 Republic of Korea Patent No. 10-2141576

The present invention has been proposed to solve the above conventional various problems, and the problem to be solved by the present invention is to ensure that the coating liquid is uniformly coated on both sides of the carbon fiber and to prevent the coating liquid from remaining on the cutting roller. It is to provide a carbon fiber coating device that can significantly improve the coating of carbon fibers by doing so.

Another object of the present invention is to provide a carbon fiber coating device that allows uniform and even coating to be performed without any problem even when the coating liquid coated on the carbon fiber has a very high viscosity or the coating liquid is coated on the carbon fiber having a relatively wide width. is in providing

In particular, when the coating liquid coated on the surface of the carbon fiber is not evenly coated, the present invention can be simply and easily adjusted only by loosening and tightening the adjusting nut, thereby significantly reducing the working time and improving the convenience of the work. It is to provide a carbon fiber coating device to do.

The present invention for achieving the above object is achieved by improving a carbon fiber coating device that uniformly and evenly cuts the coating liquid impregnated on both sides of the carbon fiber.

A carbon fiber coating device according to the present invention includes a pair of roller-type cutting rollers provided side by side and allowing the coating solution to be uniformly and evenly cut while passing the carbon fibers impregnated with the coating solution on both sides; a support shaft that is axially coupled to the brackets on both sides of each of the cutting rollers to support the strength of the cutting roller; Adjusting nuts screwed to both ends of the support shaft to adjust the supporting force of the support shaft by tightening and loosening them; It is composed of a tension support bar coupled to the center of the support shaft and fixedly supporting the cutting roller by the support shaft, so that the fixing force of the cutting roller can be adjusted by adjusting the adjusting nut according to the viscosity of the coating liquid and the width of the carbon fiber. is characterized by

In the present invention, by forming a pair of cutting rollers in a cylindrical roller shape, the tension force is maintained uniformly, and the coating liquid is evenly cut on both sides of the carbon fibers passing between them.

In particular, in the present invention, support shafts are provided on the outside of both cutting rollers along the longitudinal direction, and at the same time, a tension support bar is provided on the support shaft to stably support the cutting rollers, so that the viscosity of the coating liquid is strong or the width of the carbon fiber is reduced. Even in this wide case, the bending of the middle part to the outside is prevented as much as possible, so that the cutting roller can always maintain constant strength and tension, and thus there is an effect of uniformly and evenly cutting the coating liquid.

In addition, when the tension of the cutting roller is not maintained constant, simply tightening or loosening the adjusting nuts on both sides allows the tension support bar to adjust the degree of force supporting and fixing the cutting roller. It also has an effect that can be easily adjusted.

Meanwhile, in addition to coating various coating liquids on carbon fibers, the present invention also has an effect that can be used as an apparatus for coating various other liquid or gel-like coating liquids on various other fibers including glass fibers.

1 is a schematic configuration diagram of a carbon fiber coating device to which the present invention is applied
Figure 2 is a front view showing the configuration of the carbon fiber coating device of the present invention in detail
Figure 3 is a plan configuration diagram of Figure 2 of the present invention
Figure 4 is a configuration diagram showing an enlarged portion of Figure 3 of the present invention
Figure 5 is a perspective view showing a key part of the carbon fiber coating device of the present invention
6 is a configuration diagram according to the operation of the present invention

Hereinafter, specific details for carrying out the present invention will be described in detail with reference to the accompanying drawings.

Figure 1 of the accompanying drawings shows the overall configuration of a carbon fiber coating device to which the present invention is applied, Figures 2 to 5 show the configuration of the present invention in detail, and Figure 6 shows the structure according to the operating state of the present invention. indicates

Prior to the carbon fiber coating device to which the present invention is applied, the carbon fiber manufacturing system is briefly looked at, as shown in FIG. 1, a supply unit 1 for supplying woven carbon fibers, An impregnation unit 2 for sufficiently impregnating the coating liquid on both sides of the carbon fiber, a coating unit 3 for evenly coating the coating liquid adhered to both sides while passing through the impregnation unit 1, and cutting It consists of a drying unit (4) and a recovery unit (5) for drying the completed carbon fiber.

This carbon fiber manufacturing system has the same configuration as the conventional one, and in the present invention, as in the coating part 3, the coating liquid (B) sufficiently adhered to the surface of the carbon fiber (A) is stably cut to a certain thickness to form a coating layer. It is a structure to be formed.

As referenced in the accompanying drawings, the carbon fiber coating device according to the present invention is a roller-type cutting device in which a pair of identical structures are provided side by side, and carbon fibers impregnated on both sides of the coating solution are passed between them so that the coating solution is uniformly and evenly cut. It is constituted with rollers 10 and 20.

The trimming rollers 10 and 20 are roller-types provided elongated along the longitudinal direction, and since the same structures are provided side by side to face each other, they will be denoted with the same reference numerals, and a cut surface 11 is provided on the inside where they face each other. At the same time, a protruding blade 12 protruding upward is provided at the end of the cut surface 11.

These protruding blades 12 have a function of a scraper, and contact and closely adhere to both sides of the carbon fiber (A) transported between the cutting rollers 10 and 20 on both sides, so that the excess coating liquid (B) is removed. It is prevented from going up along the upper side by the surface tension.

At this time, while the length of the cutting rollers 10 and 20 is longer than the width of the carbon fibers, it is natural that the coating layer can be set by adjusting the distance between them according to the coating liquid (B) or carbon fibers (A) to be coated. will do

In addition, the cutting rollers 10 and 20 on both sides according to the present invention have a feature that even carbon fibers having a relatively wide width can be easily coated without any problems. Accordingly, compared to the prior art, the cutting roller 10 ( 20) can be formed relatively long.

In this configuration, fastening grooves 13 are provided on both sides of the cutting rollers 10 and 20, respectively, and the brackets 14 are fixed to the fastening grooves 13 as bolts 15, respectively, and both brackets ( 14) is provided with a support shaft 16 elongated in the longitudinal direction.

The support shaft 16 is made of a long rod body, and screws are provided at both ends thereof to be fastened and fixed to the bracket 14 as separate adjusting nuts 17, and a separate tension support bar 18 is provided at the center thereof is provided

While the tension support bar 18 is fastened to the center of the support shaft 16, one side thereof is tightly coupled to the outer surface of the cutting rollers 10 and 20 to transmit the tension force of the support shaft 16 as it is. .

That is, the support shaft 15 firmly adheres the tension support bar 18 to the cutting rollers 10 and 20 even though both ends of the support shaft 15 are fixedly installed as adjustment nuts 17 to the brackets 14 on both sides, respectively, so that the overall Strength is reinforced to prevent the cutting rollers 10 and 20 from bending, and at the same time, the tension of the support shaft 16 can be arbitrarily adjusted by tightening and loosening the adjusting nut 17.

Therefore, in the present invention configured as described above, as shown in FIGS. 2 and 6 of the drawing, when the carbon fiber (A) sufficiently impregnated with the coating liquid (B) passes vertically between the cutting rollers (10) (20) on both sides, , The protruding blades 12 of the cutting rollers 10 and 20 on both sides are in close contact with each other, and the coating liquid (B) is cut to determine the thickness of the coating layer and the coating is completed.

At this time, the protruding blades 12 of the cutting rollers 10 and 20 adhere to the carbon fiber with minimal contact and stably cut the coating solution, preventing the excess coating solution from aggregating and flowing down to the bottom to make it even coating is done.

In addition, the carbon fibers (A) passing through the cutting rollers (10, 20) are supported on the outside of the cutting rollers (10, 20) on both sides even when the width is very wide or the viscosity of the coating solution (B) is very strong. By firmly and stably supporting the tension support bar 18 by the shaft 16, it is prevented from being pushed outward and bent.

Therefore, even if the length of the cutting rollers 10 and 20 on both sides is relatively long in order to coat the wide width of the carbon fiber (A) or coated with the coating liquid (B) having a very high viscosity, tension is supported by the support shaft 16 Since the bar 18 is firmly supported, the strength is sufficiently maintained so that uniform and even coating can be achieved.

On the other hand, when it is desired to adjust the tension of the cutting rollers 10 and 20, by tightening or loosening the adjusting nut 17 of the support shaft 16, the support shaft 16 is As the adhesion can be adjusted, the tension of the cutting rollers 10 and 20 can be easily and conveniently adjusted.

That is, when the adjusting nut 17 is tightened, the tension of the support shaft 16 becomes that much stronger, and accordingly, the tension support bar 18 pushes the cutting rollers 10 and 20 inward to outward. It is prevented from being pushed out, so that the cutting rollers 10 and 20 can sufficiently maintain their strength.

In particular, the present invention has a feature that can be applied not only to carbon fibers, but also to the case of coating a liquid or gel-state coating solution on various other fibers including glass fibers, cloth, and the like.

10, 20: cutting roller 11: cut surface
12: protruding blade 13: fastening groove
14: bracket 15: bolt
16: support shaft 17: adjusting nut
18: tension support bar

Claims (2)

In the carbon fiber coating device for processing by changing the coating layer of the carbon fiber impregnated on both sides with the coating liquid,
Cutting rollers spaced apart from each other on both sides, having cutting surfaces in contact with each other and cutting the coating liquid impregnated on both sides of the carbon fibers passing therebetween;
Support shafts provided long along the longitudinal direction by brackets on both sides of the outside of the cutting rollers to reinforce the strength and adjust the tension of the cutting rollers;
Adjusting nuts that are screwed to both ends of the support shaft to be fixed and to adjust the tension by tightening and loosening them;
It is composed of a tension support bar coupled to the center of the support shaft and one side of which is tightly fastened to the cutting roller to be supported. Carbon fiber coating device, characterized in that to enable. According to claim 1,
A carbon fiber coating device comprising a protruding blade protruding slightly upward on the upper surface of the cut surface end of the cutting roller to prevent excess coating liquid from rising upward due to surface tension.

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