KR101967468B1 - Prepreg and prepreg manufacturing apparatus - Google Patents

Abstract

A prepreg and prepreg manufacturing apparatus are disclosed. Carbon fabric; And hard fibrous fibers bulk printed onto the carbon fabric, and solid fibrous fibers are bulk printed over the carbon fabric. Therefore, it is advantageous to produce a prepreg having increased stiffness and bulky fibers of bulky fibers having various sizes and shapes to produce a warped prepreg, and the bulky fibers are bonded to the bulk-printed prepreg, It is possible to use a prepreg in which a small number of prepregs can be produced and warpage is selectively produced by numerical control.

Description

[0001] PREPREG AND PREPREG MANUFACTURING APPARATUS [0002]

The present invention relates to a prepreg and prepreg manufacturing apparatus, and more particularly, to a prepreg and prepreg manufacturing apparatus that inputs numerical values of a curvature radius and a degree of curvature that are bent, selects a print pattern corresponding to the inputted numerical value, And prepreg and prepreg manufacturing apparatuses for bulk printing an embroidery fiber.

Carbon fabrics are made by weaving carbon fibers. Because of its high tensile strength, light weight and low coefficient of thermal expansion, carbon fiber is widely used in aerospace, civil engineering, military, automobile and various sports fields. Carbon fabrics can be made in prepreg form and attached to other fabrics. Pre-preg is a sheet-like product which is a preformed pre-bonded material of reinforcing fibers and is an intermediate material of composite products. There is a demand for a prepreg having increased rigidity in manufacturing a prepreg using a carbon fabric.

Publication No. 10-2011-0139702, prepregs and molded bodies manufactured therefrom Publication number: 10-2010-0108858, Method for manufacturing high strength carbon fiber reinforced composite material using optimized curing conditions

It is an object of the present invention to solve the above problems and to provide a prepreg using the carbon fabric and a prepreg for manufacturing the prepreg.

In order to accomplish the above object, the present invention provides a carbon fiber fabric which is obtained by weaving a carbon fiber and a carbon fiber bulk printed on the carbon cloth to increase the rigidity of the carbon fabric, , The fibrous fibers attached to the carbon fabric A prepreg manufacturing apparatus for producing a prepreg to be formed comprises: a conveying unit for conveying a rolled carbon fabric to a roller; A pressing part for applying pressure to the hardened fiber and attaching the hardened fiber to the carbon fabric; and a fixing part for fixing the carbon fiber to the carbon fiber, And a dryer for drying the carbon fiber and the carbon fabric that have passed through the pressing portion Wherein the carbon fibers are sprinkled in different sizes depending on the radius of curvature in which the carbon fibers are bent when the fibrous fibers are discharged and sprinkled on the resin film coated on the carbon cloth by the printing unit A numerical value of a curvature radius and a degree of curvature of the prepreg; And a selection unit for selecting a printed pattern of wood fibers having different sizes so as to correspond to the numerical value of the radius of curvature inputted from the input unit, wherein the printing unit applies the print pattern selected by the selection unit, Wherein the fibrous fibers are printed on the carbon fiber coated with the carbon fibers in a size different from the size and shape of the fibrous fibers discharged from the resin film during the bulk printing, Wherein the prepreg is manufactured by printing the carbon fiber on the carbon fabric to control the warp.

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When the apparatus for manufacturing prepregs and prepregs according to the present invention as described above is used, a prepreg having increased rigidity can be manufactured.

In addition, it is advantageous to produce prepregs with bending by bulk-printing of fibrous fibers having various sizes and shapes.

In addition, prepregs in which the bulky fibers are bonded by sticking to the bulk-printed prepreg can be manufactured with less warpage.

Further, a prepreg in which warpage is selectively produced by numerical control can be used.

BRIEF DESCRIPTION OF THE DRAWINGS Figure 1 is an illustrative view illustrating that roving fibers are bulk printed on carbon fabrics.
Fig. 2 is an exemplary view illustrating that various sizes of fibrous fibers are bulk printed on a carbon fabric.
Fig. 3 is an exemplary view in which the fibrous carbon is shown to warp in the bulk printed carbon fabric.
Fig. 4 is an exemplary view in which the roof fibers are superimposed on a bulk printed carbon fabric. Fig.
Fig. 5 is an exemplary view showing fibrous fibers of various shapes. Fig.
6 is an exemplary view showing a prepreg manufacturing apparatus.

Unless defined otherwise, 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. Terms such as those defined in commonly used dictionaries are to be interpreted as having a meaning consistent with the contextual meaning of the related art and are to be interpreted as either ideal or overly formal in the sense of the present application Do not.

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

Pre-printed is a bulk print of carbon fiber on a carbon fabric. Sand fibers are bulk printed on carbon fabrics to increase the stiffness of the carbon fabrics. The warpage of the carbon fabric is controlled by varying the size and shape of the roving fiber according to the warping. When a carbon fabric with low warpage is required, the warp of the carbon fabric is reduced by abutting and bonding the cloth fibers.

The prepreg manufacturing apparatus automates bulk printing of carbon fibers on carbon fabrics. When the warp is input as a numerical value, the prepreg manufacturing apparatus selects a print pattern corresponding to the input numerical value and performs bulk printing of the wood fiber according to the selected print pattern to automatically perform prepreg manufacturing. The prepreg manufacturing apparatus automates prepreg manufacturing using carbon cloth to shorten manufacturing time and increase production efficiency.

BRIEF DESCRIPTION OF THE DRAWINGS Figure 1 is an illustrative view illustrating that roving fibers are bulk printed on carbon fabrics.

Sand fibers can be reinforcing fiber bundles having rigid properties and individual reinforcing fibers.

Sand fibers are printed in bulk on carbon fabrics to show stiffness. Carbon fabrics are flexible in warp, but bulky fibers are bulk printed to increase stiffness and weaken warpage.

Bulked carbon fiber fabrics are used as prepregs.

Pre-preg is a sheet-like product which is a preformed pre-bonded material of reinforcing fibers and is an intermediate material of composite products.

Fig. 2 is an exemplary view illustrating that various sizes of fibrous fibers are bulk printed on a carbon fabric.

Different sizes of roving fibers apply different curvature radii to warp the carbon fabric.

If the size of the fiber is small, the radius of curvature is large. If the size of the fiber is large, the radius of curvature is small.

Since the curvature radius is different depending on the size of the fiber, if the desired radius of curvature is selected, the size of the corresponding fiber can be determined.

The warpage of the carbon fabric can be applied differently by adjusting the size of the cord fiber.

Fig. 3 is an exemplary view in which the fibrous carbon is shown to warp in the bulk printed carbon fabric.

Sand fibers show that the bulk printed carbon fabric curves to maintain a radius of curvature of a certain radius.

Depending on the radius of curvature with a certain radius, the bulky fiber carbon printed fabric may be warped.

Fig. 4 is an exemplary view in which the roof fibers are superimposed on a bulk printed carbon fabric. Fig.

Sand fibers can superimpose bulk printed carbon fabrics to increase the stiffness of carbon fabrics.

So that the warp of the carbon fabric is reduced.

Such a carbon fabric manufacturing method can be applied when warping of the carbon fabric is not required.

Fig. 5 is an exemplary view showing fibrous fibers of various shapes. Fig.

Various types of fiber are visible.

The warp and stiffness can be determined differently by changing the shape of the fiber.

In addition, the degree of warpage can vary depending on the shape when sandblasting the fibers.

The shape of the fiber can be circular, hexagonal, or square. For example, a circle, a hexagon, or a rectangle has been presented, but it can have various other shapes.

6 is an exemplary view showing a prepreg manufacturing apparatus.

A transfer portion 610 for transferring the rolled carbon fabric to the rollers; And a printing portion 620 that sprays the roving fiber onto the carbon cloth and bulk prints the carbon fiber onto the roll fabric. A configuration for enabling the operation of the prepreg manufacturing apparatus will be described.

The transfer portion 610 loosens the rolled carbon fabric and transfers it to the rollers.

The printing unit 620 applies bulk fiber to the carbon cloth by spraying the ground fibers onto the roller point. The printing unit 620 applies a resin film, and bulky fibers are overlaid thereon to adhere to the carbon fabric.

The printing unit 620 includes a hard fiber hardening unit 621; A pressing portion 622; And a drying unit 623.

The roughened fiber hardened portion 621 hardens the bulk printed roving fiber.

The pressing portion 622 applies pressure to the bulk printed fibrous fibers to adhere strongly to the carbon fabric.

The drying unit 623 finishes the post-treatment process by drying the carbon fiber and the carbon fiber passing through the pressing unit 622.

Bulk-printed carbon fiber fabric is wrapped in a cylinder to complete the manufacturing process.

The prepreg manufacturing apparatus includes an input unit 630 for inputting numerical values of a curvature radius and a degree of curing which are bent; And a selection unit 640 for selecting a print pattern corresponding to the input numerical value.

The input unit 630 inputs numerical values of the curvature radius and the degree of curing which are bent. The input unit 630 displays numerical values of the radius of curvature and the degree of curing and inputs numerical values selected by the user. The radius of curvature corresponds to the size of the fiber and the degree of cure can correspond to the composition of the material constituting the fiber. The degree of cure can be varied by varying the material composition.

The input unit 630 transmits the inputted degree of cure to the printing unit 620 so that the printing unit 620 can change the composition of the cord fiber. The printing unit 620 can control the degree of curing by changing the composition of the fiber.

The selection unit 640 selects a print pattern corresponding to the input numerical value. The selection unit 640 selects a print pattern having a small size of the fiber when the input value is large and selects a print pattern having a large size of the fiber when the input value is small. When the radius of curvature is large, the warpage is large and therefore the size of the fiber is small. A print pattern having a small size of the print fiber is selected and transmitted to the printing unit 620.

The printing unit 620 applies bulk printing to the carbon fabric by applying the selected printing pattern. When the print pattern is small, the printing unit 620 prints bulk on the carbon fabric by decreasing the size of the fibrous fiber. If the print pattern is large, the size of the fibrous fiber is increased and the bulk printing is performed on the carbon fabric.

Example 1

The prepreg is a bulk print of carbon fiber on a carbon fabric. The prepreg manufacturing apparatus controls the warp of the carbon fabric by bulk printing the cord fiber on the carbon cloth.

The size and shape of the roving fiber are selected according to the warp of the carbon fabric. The size and shape of the roving fiber control the warpage of the carbon fabric.

Depending on the controlled warpage, selected yarn fibers are bulk printed on carbon fabrics and made into prepregs. The prepreg is used in a variety of fabrics or articles of manufacture to make the final product.

Example 2

The prepreg manufacturing apparatus selects a print pattern corresponding to the input numerical value by inputting the degree of warp and stiffness numerically, and bulk prints the wood fiber on the carbon fabric according to the selected print pattern.

The prepreg manufacturing apparatus automates the prepreg manufacturing by numerical input, thereby shortening the production time and increasing the production efficiency.

The prepreg manufacturing apparatus can prepare a prepreg having various properties by diversifying the print pattern and organizing input values.

Manufacture of prepreg suitable for user needs can help maintain the life of the enterprise.

Example 3

The prepreg manufacturing apparatus is capable of producing a prepreg having a low rigidity and a low warp by attaching a carbon fiber of bulky printed carbon cloth on both sides thereof.

The prepreg manufacturing apparatus transfers the carbon fiber to the drying section through the pressing section by applying the adhesive to the point where the roving fiber uncovers and transports the bulk printed carbon fabric from both sides.

In the prepreg manufacturing apparatus, the two carbon fabrics are firmly adhered to each other by the pressing portion, and the prepreg is finished by the drying of the drying portion and finally outputted.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the present invention as defined by the following claims It can be understood that

610: Transfer unit 620: Printing unit
621: Hard fiber curing part 622: Pressing part
623: Drying section 630: Input section
640:

Claims (3)

delete delete A carbon fiber fabric made by woven carbon fibers and heavy fiber that is bulk printed on the carbon fabric to enhance stiffness of the carbon fabric is applied to the carbon fabric during bulk printing on the carbon fabric, It is attached to the A prepreg manufacturing apparatus for producing a prepreg to be formed comprises:
A conveying portion for unrolling the wound carbon fabric and transferring the wound carbon fabric to the roller;
A pressing part for applying pressure to the hardened fiber and attaching the hardened fiber to the carbon fabric; and a fixing part for fixing the carbon fiber to the carbon fiber, And a dryer for drying the carbon fiber and the carbon fabric that have passed through the pressing portion A printing unit;
Wherein the fibrous fibers to be bulk-printed in the printing unit are sprayed onto the resin film coated on the carbon fabric so that when the fibrous fibers are sprayed and sprinkled, the fibrous fibers are sprayed on the resin film in such a manner that the carbon fibers are sprayed differently in size depending on the radius of curvature An input unit for inputting numerical values of a curvature radius and a degree of curvature of the leg; And
And a selection unit for selecting a printed pattern of the curtain fiber having a different size corresponding to the numerical value of the radius of curvature inputted from the input unit,
Wherein the printing unit applies the printing pattern selected in the selecting unit to the carbon cloth to print the bundle fiber in a size different from the size and shape of the bundle fiber discharged to the resin film coated on the carbon cloth during bulk printing, Or to be spaced in the shape of one of the rectangles Wherein the prepreg is produced by printing the carbon fiber on the carbon fabric to control warpage.

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