KR101180504B1 - Fiber opening apparatus of carbon fiber - Google Patents

Abstract

The present invention relates to a carding machine for a carding machine for carbon fibers, comprising: a square fiber-shaped carding machine for knit; A carding passage for carbon fiber passing through a plurality of formed at regular intervals in a width direction of the dog fiber knit and penetrating in the longitudinal direction of the dog fiber knit; An air injection port communicating with the opening island passage and formed on the top or bottom surface of the dog fiber knit and configured to receive compressed air; A vent configured to communicate with the outside through both side surfaces of the open fiber knit while connecting the open island passages to discharge a part of the compressed air supplied into the open island passage; It is provided on each of the inlet side and the outlet side of the open fiber knit provides a carding machine for the carbon fiber comprising a roller for guiding the carbon fiber to the opening channel.
According to the present invention, the tension of the fiber is easy to maintain and easy to open, and the number of rollers is composed of at least two to reduce the influence of the speed can minimize the friction between the fiber and the roller to minimize the occurrence of fluff to minimize the quality of the product This improved effect can be obtained.

Description

FIBER OPENING APPARATUS OF CARBON FIBER}

The present invention relates to a carding machine for a carding machine for carbon fibers, and more particularly, to a carding machine for carbon fibers which enables to open and thin the carbon fiber in a uniform state.

In general, opening refers to the unwinding of agglomerates of fibers in the spinning surface process of spinning.

And, as is well known, fiber reinforced composite materials including reinforcing fibers such as carbon fibers and matrix resins such as epoxy resins are light in weight and excellent in mechanical strength and corrosion resistance, so they are not only used for manufacturing aerospace rockets but also for fishing rods. It is also widely used for general consumer products such as golf clubs and structural parts of industrial machines.

In order to manufacture products and parts made of such fiber reinforced composites and to produce the required shapes, the fiber reinforced composites are generally provided under conditions in which the matrix resin is impregnated between the fiber components of the preimpregnated sheet made of the reinforced fibers. In recent years, improvements in the uniform density and thickness of pre-impregnated sheets have been sought due to the expectation of such products and the weight reduction of heavy constructions.

At this time, the pre-impregnated sheet with uniform density and smaller thickness not only enables mass production of thin and light shaped products, but also allows the pre-impregnated sheets having fibers arranged in a single direction to be laminated in layers. The orientation of the sheets is shifted horizontally, vertically and diagonally relative to each other to obtain a composite preimpregnated sheet.

Production of articles made from such composite preimpregnated sheets can greatly improve the burst strength of such articles.

Therefore, each industry is very much looking forward to establishing a reasonable manufacturing technique for thinner, open fiber sheets with fibers arranged horizontally in parallel and with uniform density distribution.

By the way, as disclosed in Japanese Patent Laid-Open Publication Nos. 2006-257593, 2006-297889 and the like, the carbon fiber opening technology known so far is provided by passing a plurality of annular rods or rotating balls which are supplied with fibers at a constant speed and vibrated in the axial direction. Opening method, the method of vibrating one roller while passing it on the free rotating roll while applying a constant tension to the fiber, preheating the inside of the carbon fiber and the combination of the vibrating flat free rotating roll and the flat race rotating roll Although various methods have been disclosed, such as a carding method, a number of rollers required for carding are required, and as a result, there is a disadvantage in that the quality of the fiber is increased due to increased fiber friction.

This is the most important factor in the opening of the yarn, because the tension and speed is difficult, if the proper tension is not applied, it is difficult to open the fiber, if the speed is too fast, the friction is increased and the fluff is generated in the fiber, thereby degrading the quality. .

The present invention was created in view of the above-mentioned problems in the prior art, and solves this problem, while minimizing the number of rollers required for opening the island by using an air injection method to satisfy both tension and speed conditions, which are the most important factors in the opening. The main problem to be solved is to provide a carding machine for the carbon fiber which makes it easy to adjust them.

The present invention as a means for achieving the above-described problems, and the dog-fiber knit on the square plate having a thickness; A carding passage for carbon fiber passing through a plurality of formed at regular intervals in a width direction of the dog fiber knit and penetrating in the longitudinal direction of the dog fiber knit; An air injection port communicating with the opening island passage and formed on the top or bottom surface of the dog fiber knit and configured to receive compressed air; A vent configured to communicate with the outside through both side surfaces of the open fiber knit while connecting the open island passages to discharge a part of the compressed air supplied into the open island passage; It is provided on each of the inlet side and the outlet side of the open fiber knit provides a carding machine for the carbon fiber comprising a roller for guiding the carbon fiber to the opening channel.

At this time, the dog fibrous knit is characterized in that it is configured to be separated from each other and separated into an upper plate and a lower plate.

In addition, the air injection port is characterized by having a relatively smaller diameter and narrower than the opening passage.

In addition, the tension applied to the carbon fiber is characterized in that it is controlled to match the process speed by adjusting the mutual rotation speed difference of the roller.

According to the present invention, the tension of the fiber is easy to maintain and easy to open, and the number of rollers is composed of at least two to reduce the influence of the speed can minimize the friction between the fiber and the roller to minimize the occurrence of fluff to minimize the quality of the product This improved effect can be obtained.

1 is a schematic conceptual view showing a carbon fiber carding machine according to the present invention.
FIG. 2 is a cross-sectional view taken along line AA of FIG. 1.

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

1 is a schematic conceptual view showing a carbon fiber carding machine according to the present invention, Figure 2 is a cross-sectional view taken along the line A-A of FIG.

As shown in Figure 1, the carbon fiber carding machine according to the present invention is characterized in that it comprises only the minimum number of rollers (110, 120) necessary for the carbon fiber carding machine 100.

In addition, the present invention is one of the features that use the compressed air rather than the vibration, a method using a plurality of rollers as in the prior art disclosed.

In summary, the carbon fiber carding device according to the present invention is configured to easily adjust the appropriate tension to the process speed by installing speed control rollers 110 and 120 at the inlet and the outlet to control the tension of the fiber, Equipped with an injection air system (open dog knit 200 to be described later) that can inject compressed air can be said that the main feature is configured to obtain the opening effect through the air injection.

To this end, the carbon fiber carding machine according to the present invention includes an opening fiber unit (Opening Unit) (200).

At this time, the open fiber knit 200 has a plurality of open island passage 210, as shown in Figure 2 enlarged to allow a plurality of carbon fibers 100, that is, a carbon bundle to pass through.

In this case, the carding passage 210 is formed in the longitudinal direction of the dog fiber knit 200, for this purpose, the dog fiber knit 200 is preferably formed in a plate shape having a rectangular thickness.

Further, rollers 110 and 120 are installed at the inlet side and the outlet side of the carbon fiber 100 of the open fiber knit 200, respectively, because the rollers 110 and 120 are installed only at the inlet side and the outlet side, respectively. Through controlling the tension to the carbon fiber 100 can be easily adjusted.

Therefore, it is possible to adjust the tension, which was very difficult, too many rollers as in the past, it is possible to minimize the friction while advantageously opening the opening in accordance with the process speed can be suppressed the occurrence of fluff to improve the quality of the product.

In addition, the open island passage 210 of the open fiber knit 200 is configured to be injected into the compressed air supplied in communication with the air injection port 220 formed on the upper surface of the open fiber knit 200.

In this case, it is preferable that the air inlet port 220 is formed in a form having a predetermined diameter as the inlet passage 210 is wide, and the inlet narrows from the carbon fiber 100 to the air inlet port 220. However, this is to increase the opening effect by the injection pressure of the injection of compressed air.

In other words, the high-pressure air is rapidly moved through the narrow space to spread the carbon fiber 100 existing within the wide space in an instant to more easily open.

Here, the air injection port 220 is not limited to being formed on the upper plate of the upper fibrous knit 200, it may be formed on the lower plate of the lower fibrous knit 200, of course.

In addition, the open-issort passages 210 are configured to communicate with the outside of the open fiber knit 200 through a vent 230, so that the compressed air injected by the high-pressure injection flows into the open-sew passage 210 and then the vent ( It is discharged through 230) to induce more smooth opening.

In addition, the dog fibrous knit 200 is formed to be divided up and down to be configured to be mutually assembled, the separation and assembly is more easy to increase the work efficiency.

At this time, the carding passage 210 is formed in a plurality of spaced apart in the width direction of the dog fiber knit 200 (four are formed in the illustrated figure), and at the same time formed long to penetrate in the longitudinal direction It is suitable to open the carbon fiber bundle with the bundle of carbon fibers (100).

In addition, in some cases, by applying a constant vibration to the carbon fiber 100 proceeding through the carding passage 210, or passing through a heating chamber or the like before passing through the carding passage 210, it is preheated to a predetermined temperature in advance It might even be more efficient.

Carbon fiber carding device according to the present invention having such a configuration is installed because the minimum rollers (110, 120) only at the inlet and outlet of the dog fiber knit 200 is easy to install and control, above all two rollers (110,120) By simply adjusting the speed difference between the) can be easily adjusted the tension applied to the carbon fiber 100 has the advantage that it is suitable to open to the process speed.

In addition, as the number of rollers 110 and 120 is reduced, friction with the rollers 110 and 120 is reduced, thereby minimizing the fluff phenomenon caused by friction.

Furthermore, since the opening is achieved by the air pressure injected in a specific closed space using compressed air rather than a plurality of rollers, more uniform and thin opening is possible, and the degree of opening is also adjustable through air pressure control, which is highly efficient.

100: carbon fiber 110,120: roller
200: dog fiber knit 210: dog island passage
220: air injection port 230: vent

Claims (4)

An open fiber knit 200 on a square plate having a thickness;
A plurality of carding passages for passing carbon fibers 100 formed at a predetermined interval in the width direction of the dog fiber knit 200 and penetrating in the longitudinal direction of the dog fiber knit 200;
An air injection port 220 which is in communication with the carding passage 210 and formed on the top or bottom surface of the dog fiber knit 200 and configured to receive compressed air;
A vent 230 configured to communicate with the outside through both side surfaces of the open fiber knit 200 while connecting the open island passages 210 to discharge a part of the compressed air supplied into the open island passage 210;
Opening of the carbon fiber is characterized in that it comprises a roller (110, 120) which is installed at the inlet side and the outlet side of the open fiber knit 200 to guide the carbon fiber 100 to the open island passage 210, respectively Device.
The method according to claim 1;
The open fiber knit 200 is divided into an upper plate and a lower plate is carding device for the carbon fiber, characterized in that configured to be assembled to each other.
The method according to claim 1;
The air injection port 220 is a carbon fiber carding machine, characterized in that formed narrower than the carding passage 210 with a smaller diameter.
The method according to claim 1;
The tension applied to the carbon fiber 100 is the carding machine for the carbon fiber is characterized in that it is controlled to match the process speed by adjusting the difference in the rotational speed of the roller (110,120).

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