JPH03292131A - Manufacture of fiber-reinforced resin laminated body - Google Patents

Abstract

PURPOSE:To obtain uniform plate thickness of a laminated part and high surface smoothness, by a method wherein a laminated part of a caul sheet is fixed by providing a fixing means into a through hole, and after a laminated body of a laminating elementary plate and caul sheet are surrounded by a vacuum bag film curing treatment is performed by pressurization and heating. CONSTITUTION:A caul sheet sheet 2 and a stiffening caul sheets 2a, 2b, 2c, 2d are arranged on a laminated body of a laminating elementary plate 1 and reinforcing plate 1a and upper shim plate jig 12. Then holes 2h... provided in the caul sheet 2 and stiffening caul sheets 2a-2d are positioned so that they are coincident with hole 13 provided into the upper shim plate jig 12, and a pin 14 is inserted by passing through from the upper side. With this construction, the caul sheet 2 and stiffening caul sheets 2a-2d are held at fixed positions. Then the vacuum bag film 3 is arranged so as to cover this assembled body. When a control valve 15 is provided on an appropriate position of the vacuum bag film 3 and an inner space of the film 15 is decompressed, the laminated body is put into a curing furnace and curing treatment is performed by pressurization and heating.

Description

DETAILED DESCRIPTION OF THE INVENTION [Object of the Invention] (Industrial Application Field) The present invention relates to a method for manufacturing a fiber reinforced resin laminate having a honeycomb core.

(Prior art) As a method for manufacturing a fiber reinforced resin laminate having a honeycomb core, an outer panel made of uncured prepreg is adhered to one surface of a pre-cured thin outer panel via a film adhesive, and A technical means of bonding a honeycomb core to the other surface of the outer panel via a film adhesive to form a honeycomb sandwich structure with high surface smoothness is described in Japanese Patent Publication No. 18499/1983. .

In addition, a coal plate made of laminated uncured prepreg material wrapped in a release film is placed on top of the flat part of the component formed by laminating multiple sheets of prepreg material, and the entire plate is covered with a heat-resistant film. A technical means in which the internal space of the adhesive film is brought into a vacuum state, and then pressure is applied, heat is applied, and a hardening process is performed to form a flat part of the component with flatness, which is described in Japanese Patent Application No. 63-318168. has been done.

(Issue 8 to be solved by the invention) In the technical means of bonding an outer panel made of uncured prepreg and a honeycomb core to a pre-cured thin outer panel via a film adhesive, the outer panel is formed and cured. It is necessary to fabricate a jig for this purpose, and it is also necessary to arrange and release the jig, cut the outer shape of the hardened thin outer plate, and perform surface processing to improve the adhesion of the adhesive side surface. As the load on the autoclave (hardening furnace) and the number of equipment jigs increase, the load on the molding room increases, which has a significant impact on the mass production of other parts.

In addition, a coal plate made of uncured prepreg material wrapped in a release film is placed on top of the flat part of the component made of laminated prepreg material, and the whole is covered with a heat-resistant film, and by pressurization and heating, In the technical means of hardening, fool plates are laminated for each part according to the shape and dimensions of the application area, and then cured together with the parts. In order to obtain the smoothness of the flat part of the part, the call plate is re-layered. It is difficult to use and has to be thrown away,
When making mass-produced products, it is not possible to allocate the number of man-hours and material costs for the production of the coal plate, resulting in high parts production costs. Moreover, since uncured prepreg is used as the coal plate, the viscosity of the resin decreases during curing, increasing the applicability of the shape of the coal plate, and making it possible to obtain a product surface without resin loss or excess resin due to uneven contact. Due to the reduced rigidity of the coal plate, the smoothness of the surface of the flat plate portion of the component deteriorates, making it impossible to mold a molding surface that requires a smooth surface, such as an aircraft component.

The present invention has been made in view of the above points, and it applies a pressing force corresponding to the change in the amount of lamination of the laminated blank sheets to be formed to the laminated blank sheets, and also transforms the flexibility of each call sheet into a composite curved surface. An object of the present invention is to provide a method for manufacturing a fiber-reinforced resin laminate that can mold parts with stable quality and high surface smoothness.

[Structure of the invention]

(Means for Solving the Problems) The method for producing a fiber-reinforced resin laminate of the present invention involves laminating different numbers of uncured fiber-reinforced resin lamination base plates on a mold or core, and A thin flat coal sheet of a size corresponding to the lamination of the laminated blank sheets to be laminated is arranged so that all the coal sheets are stacked on top of the laminated laminated blank sheets, and a through hole is made in the laminated part of the call sheet. A fixing device is provided in the through hole to fix the laminated portion of the coal sheet, the laminated base plate for lamination and the laminated body of the coal sheet are surrounded by a vacuum backing film, and then the laminated body is pressed and heated. It is configured to be hardened and molded.

(Function) In the method for producing a fiber-reinforced resin laminate of the present invention, by providing a laminated call sheet on top of the laminated base plates for lamination in an amount corresponding to the amount of lamination of the base plates for lamination, the parts The optimum pressing force can be applied to the parts regardless of changes in the amount of lamination.
This increases adhesive strength, making it possible to create products with uniform laminate thickness and high surface smoothness, and the flexibility of the call sheet allows it to adapt to the complex curved surfaces of parts, reducing pressure caused by uneven contact. Non-uniformity can be eliminated and products with stable quality can be produced (Example) An example of the present invention will be described below with reference to the drawings.

FIG. 1 shows an example in which the method for producing a fiber-reinforced resin laminate of the present invention is applied to an aircraft wing. a laminate, a call sheet 2 and a reinforced call sheet 2a,
This shows the stage immediately before the assembled body in which the laminates 2b, 2c, and 2d are surrounded by a vacuum backing film 3 is subjected to a curing process by applying pressure and heating. The caulk sheet 2 is a thin flat plate made of a prepreg material that is the same as or similar to the lamination base plate 1 and is hardened, and the surface in contact with the lamination base plate 1 has a
A mold release agent is applied.

The above call sheet 2 and stiffening call sheet 2a, 2b
The size and number of % 2C% 2d are the lamination base plate 1
and the size and number of reinforcing plates 1a, and the coal sheet 2 has holes 2h, and the supplementary coal sheet 2as 2bs 2C% 2d has holes corresponding to the holes 2h, as shown in FIG. They are formed as shown in the figure. That is, the above call sheet 2 and supplementary call sheet 2a.

2b%2C12d is the bottle 14 inserted through these holes.
They are arranged so that they can move freely, except that they are fixed on one common side and prevented from shifting in the in-plane direction.

In order to form the above-mentioned assembly, first, as shown in FIG. A block jig 8 is inserted into a pre-assembled product whose surfaces in contact with the material 1 and the reinforcing plate 1a are machined, so that the girder material 6 and the girder receiver are supported by the support bases 9. The lower shim 11 of the girder receiver is arranged in the space formed between the block and girder material 6 and the jig surface plate 5, and the upper shim 12 of the girder receiver is arranged above the block and the girder material 6.

A hole 13 corresponding to the hole 2h provided in the call sheet 2 is formed in the upper shim plate jig 12.

When this preliminary assembly is completed, the laminating blank plate 1 and the reinforcing plate 1a are placed on top of the assembly, and then, as shown in FIG.
Place the call sheet 2 on the laminated body of a and the upper shim plate jig 12.
And supplementary call sheet 2a12bs2c-2d is arranged so as to be laminated on top of this call sheet 2. and call sheet 2 and supplementary call sheet 2a
align the holes provided in each, and position these holes so as to match the holes 13 provided in the upper shim plate jig 12, and insert the bottle 14 from above through the holes in the call sheet 2 and supplementary agent call sheet. It is inserted through and inserted into the hole 13 provided in the upper shim plate jig 12. As a result, the call sheet 2 and supplementary call sheets 2a and 2b.

2 c s 2 d is held in place.

Next, as shown in FIG. 4, the call sheet 2 and supplementary call sheets 2a and 2b are fixedly arranged.

A vacuum back film 3 is placed so as to cover the assembly including 2C and 2d. The internal space of the vacuum back film 3 is reduced to an appropriate pressure by a vacuum device (not shown). Also, a control valve 15 is placed at an appropriate position on this vacuum back film 3.
is provided. After the arrangement of the vacuum back film 3 is completed and the internal space of the vacuum back film 15 is compressed, these laminates are placed in a curing furnace (autoclave), where they are hardened by pressure and heating.

In this hardening process by applying pressure and heating, the coal sheet has enough rigidity within the honeycomb core cell to prevent the outer skin from collapsing due to the pressure inside the furnace, and the supplementary coal sheet is placed on top of this coal sheet. provides rigidity sufficient to prevent irregularities caused by the ends of the reinforcing plates laminated on the laminated blank plate 1 and the sinking amount S of the thick plate portion (FIG. 6).

7 to 10 show another embodiment of the present invention. In this embodiment, as shown in FIG. To,
Prepreg reinforcing plate 22a522b -22C%
22 d are sequentially laminated by hand lay-up method or filament winding method, and then, as shown in FIG. Laminated by method. Note that the outer panel 23 made of prepreg material may be one or more than one. As shown in FIG. 10, a call sheet 24a formed into an annular or cylindrical shape is placed on top of this laminate.
Supplementary call sheet 24b, 24c, 2 laminated on top of
4d and 24e are covered with the call sheet 24 from the small diameter side as shown by the arrow. In this case, the call sheet 24a and supplementary call sheets 24b, 24c, 24d, 24e
are integrally connected by the bin 25. Also, a shim plate jig 26, 26 is arranged at the end of the outer plate 23.

After the installation of the coal sheet 24 is completed, as shown in FIG. 7, the whole is covered with a heat-resistant film 27, and after reducing the pressure inside the heat-resistant film 27, this laminate is placed in a curing furnace (autoclave). By pressurizing and heating,
Harden. In this curing process by applying pressure and heating, the coal sheet has the necessary rigidity to obtain a smooth surface of the outer panel after hardening, and in the supplementary coal sheet portion of the coal sheet, a reinforcing plate 22a of prepreg material is used. The rigidity is increased so that appropriate pressure can be applied to the

〔Effect of the invention〕

As described above, according to the present invention, it is possible to obtain an optimal pressing force regardless of changes in the amount of laminated parts, thereby preventing air pockets between layers, increasing adhesive strength, and producing uniform laminated parts. Products with high thickness and high surface smoothness can be produced.

In addition, since each coal sheet is thinner, it conforms well to complex curved surfaces, eliminating uneven pressure due to unevenness, and making it possible to produce products of stable quality. Furthermore, since it is possible to absorb subtle differences in the shape and dimensions of the parts to be bonded due to processing errors that occur in the process before bonding the outer panels, it is possible to increase the tolerance required in the process and reduce the number of processing steps.

[Brief explanation of drawings]

FIG. 1 is a diagram showing the arrangement of each member before curing treatment in the method for producing a fiber reinforced resin laminate according to the present invention, and FIGS. 2 to 4 show the arrangement of each member in the method for producing a fiber reinforced resin laminate according to the present invention. Figures showing the process order, Figure 5 is a perspective view showing the laminated state of coal sheets, Figure 6 is a diagram showing the end of the product made by the conventional method, and Figures 7 to 1 @ 10 are the views of the present invention. It is a figure which shows another Example of. DESCRIPTION OF SYMBOLS 1... Raw plate for lamination, 1a... Reinforcement plate, 2... Call sheet, 2a... Supplementary agent call sheet, 2h... Hole, 3... Vacuum back film, 4... Honeycomb core, 5... Jig surface plate, 6... Girder material, 7... Edge material,
12...Upper shim plate jig, 14...Bin.

Claims (1)

[Claims] Uncured fiber-reinforced resin lamination base plates are laminated in different numbers on a mold or core, and thin flat coal sheets of a size corresponding to the lamination of the lamination base plates to be laminated are laminated. All the call sheets are arranged so that they are stacked on top of the laminated base plate, a through hole is provided in the laminated part of the call sheet, a fixing device is provided in the through hole to fix the laminated part of the call sheet, and the laminated part of the call sheet is fixed. The laminate of the base plate and coal sheet is surrounded by a vacuum backing film, and then the laminate is
A method for producing a fiber-reinforced resin laminate, which is cured and molded by applying pressure and heating.