JPH05220742A - Apparatus for manufacturing resin composite and resin composite obtained by use of the apparatus - Google Patents

Abstract

PURPOSE:To enhance the impregnating property of a resin compound to various sorts of fiber reinforcing materials such as glass fiber or the like by the use of a specific manufacturing apparatus equipped with a plurality of resin compound application devices and a plurality of glass choppers. CONSTITUTION:The apparatus has a specific structure in which in front of a separate film 3, a plurality of resin compound coating devices and a plurality of glass choppers are provided respectively, and also there is provided a resin compound application device 2, a glass chopper 5, and another resin compound coating device 8, another glass chopper 5, a separate film 3, and impregnating resin 6 respectively. Accordingly, it has two or more glass choppers, so that a resin compound is permitted to be applied not only on the separate film but also between the layers of fiber reinforced material of two or more layers, and also even in the layers of fiber reinforced material. In this manner, manufacture of a wall thickness SMC having no unimpregnsted part is made possible and also productivity of high strength SMC can be improved.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a new and useful apparatus for producing a resin composition, and a resin composition obtained by using the apparatus. More specifically, a resin composition having a specific structure in which a plurality of resin compound coating devices and a plurality of glass choppers are provided as indispensable devices, in particular, SMC (sheet. The present invention relates to a manufacturing apparatus used when manufacturing a molding compound) and a resin composition obtained by using the manufacturing apparatus.

[0002]

2. Description of the Related Art A conventional apparatus for manufacturing SMC is shown in FIG. First, the resin compound 1 is applied to the separate film 3 by a so-called application device 2 such as a doctor blade.

On the other hand, the glass roving 4 is cut by a chopper 5 and sandwiched with a resin compound applied on a separate film, and then, with the impregnating device 6, the cut glass roving 7 is put on the resin compound. It is impregnated with SMC to produce SMC.

However, in such a conventional type SMC manufacturing apparatus, the cut glass roving is simply sandwiched by the resin compound on the separate film, so that the thickness is 5 mm or more. Even if the coating amount of the resin compound is increased in order to manufacture a so-called thick SMC, it is not possible to sufficiently impregnate the central portion of the glass layer with the resin compound. , SMC with poor impregnation property is reached.

When such an SMC is molded, as a matter of course, so-called defective appearance such as blistering and glass burning, and deterioration of strength occur. Moreover, when manufacturing SMC with a high glass content rate, it is necessary to slow down the manufacturing speed from the usual 10 to 15 m / min to about 6 to 8 / min. Further, as a matter of course, there is a problem that productivity is reduced.

[0006]

As described above, as long as the conventional technique is followed, if a thicker SMC is inevitably obtained, the resin compound is sufficiently added to the center of the glass layer. The impregnation does not go well and only SMC with so-called impregnating property can be obtained, which causes various troubles such as poor appearance and strength reduction, or reduces productivity, resulting in productivity and various performances. The reality is that we cannot find a technology with extremely high practicality that can satisfy both of these requirements at the same time.

[0007] Therefore, the problem to be solved by the present invention is, in part, to improve the impregnation property of the resin compound into various fiber reinforced materials such as glass fiber, and consequently to increase the thickness of the non-impregnated portion. It is for the first time to enable the preparation of the resin composition of, and in addition, the glass content is high, and thus the content of the fiber reinforced material is high, and the resin composition having high strength can be produced with high productivity. Preparation is also possible for the first time.

[0008]

Therefore, the present inventors have
Focusing on the problems to be solved by the invention as described above, as a result of intensive studies, a specific manufacturing apparatus equipped with a plurality of resin compound coating devices and a plurality of glass choppers is used. Thus, for the first time, it is possible to apply the resin compound not only to the separate film but also to two or more glass fiber layers, and even to the fiber reinforcement layer,

As a result, it becomes possible to reduce the thickness of the glass fiber layer per layer, and further, the thickness of the fiber reinforcement layer per layer.
As a result, the impregnating property of the resin compound into the fiber reinforcement,
That is, it is possible to further improve the impregnation efficiency,

As a result, further, it is possible to prepare a thick resin composition having no unimpregnated portion, and in addition, the glass content is high, and the fiber reinforcement content is high. Moreover, a high-strength resin composition can be produced with high productivity,
The present invention has been completed here by discovering that it can be prepared and can be prepared.

That is, according to the present invention, the resin compound is applied to the separate film by a coating device such as a doctor blade, while the glass roving is cut with a chopper, and the resin compound is applied onto the separate film. In an apparatus for producing a resin composition by impregnating glass rovings cut with an impregnation device with a resin compound,
A plurality of resin compound coating devices and a plurality of glass choppers are provided as indispensable devices to provide a resin composition manufacturing device,

In addition, in this way, a plurality of resin compound coating devices and a plurality of glass choppers are provided.
It also intends to provide a resin composition, which comprises applying a resin compound between glass fiber layers, and thus between fiber reinforcement layers, by using a specific manufacturing apparatus that is provided as essential devices. It is a thing.

[0013]

First, the manufacturing apparatus of the present invention is, for example, generally provided with a plurality of resin compound coating apparatuses and a plurality of glass choppers in front of the separate film 3, respectively. And a glass chopper 5, another resin compound coating device 8, another glass chopper 5, a separate film 3, and an impregnating device 6 each having the above structure. It is a thing.

Secondly, in the resin composition of the present invention, for example, a plurality of resin compound coating devices and a plurality of glass choppers are respectively provided in front of the separate film 3 as described above. The resin compound is applied between the glass fiber layers, and further between the fiber reinforcing material layers, using the manufacturing apparatus having the specific structure described above to obtain the desired resin composition.

That is, the production apparatus of the present invention has two or more glass choppers, and not only the separate film but also two or more layers of glass fiber, and thus also between the fiber reinforcement layers, the resin compound. It is characterized by applying.

FIG. 2 shows an embodiment of the apparatus for producing the resin composition of the present invention. The resin compound 1 is not only applied to the separate film 3 by the application device 2 such as a doctor blade, but also a plurality of choppers 5
A layer of glass roving 7 cut with
Between the glass fiber layers, and by extension, between the fiber reinforcement layers,
It is applied by the resin compound applying device 8.

Thus, the sheet in which the resin compound, the glass fiber layer, and further the fiber reinforcing material layer are alternately formed in a sandwich shape is prepared by the impregnating device 6.
The glass fiber layer, and thus the fiber reinforcing material layer, is impregnated with the resin compound to obtain the desired resin composition.

When the manufacturing apparatus is used, the thickness of the glass fiber layer per layer becomes smaller than the thickness of the fiber reinforcing material layer per layer, and the glass fiber and, by extension, the fiber reinforcing material is impregnated with the resin compound. The property (that is, the impregnation efficiency) is extremely improved, so that not only it is possible to manufacture a thick resin composition without an unimpregnated portion, but also the content rate of glass fiber and, by extension, fiber reinforcement. The productivity of the resin composition having a high temperature can be improved.

[0019]

EXAMPLES Next, the present invention will be described more specifically by way of examples. In the following, "parts" means "parts by weight" unless otherwise specified.

Example 1 A thick SMC for residential use was prepared using the resin composition manufacturing apparatus according to the present invention as shown in FIG.

A thick SMC having an SMC thickness of 10 mm and a unit weight of 10 kg / m ² could be produced without any unimpregnated portion. Table 1 shows the conventional SM
A comparison test of strength or physical properties with SMC having the same composition prepared by a C production apparatus is shown.

[0022]

[Table 1]

As is clear from Table 1, thick-walled SM prepared by the apparatus for producing the resin composition of the present invention.
The strength and physical properties of C were comparable to those of SMC prepared by a conventional manufacturing apparatus.

In addition, when this thick SMC was molded, no appearance defects such as blister and glass burn were observed. Moreover, since the thick-walled SMC has a large unit weight, the number of SMC charges can be reduced to 1/3 when molding a large-sized molded product such as a unit / bath, thus greatly improving workability. You will know what you have done.

Example 2 Using a manufacturing apparatus of the present invention as shown in FIG. 2,
A high-strength SMC having a glass content of 60% was prepared.

A relatively large SMC of 10 m / min
A comparison test of strength and physical properties with SMC having the same composition, which was prepared at the production rate, was performed.

[0027]

[Table 2] As is clear from Table 2, the strength and physical properties of the thick SMC prepared by the apparatus for producing the resin composition of the present invention are similar to those of the SMC prepared by the conventional production apparatus. In comparison, it was no match.

In addition, using the manufacturing apparatus of the present invention,
To increase the production rate of high-strength SMC with a glass content of 60% from 6 m / min to 10 m / min at a stretch, that is, to increase the production rate, thus improving productivity by 67%. Was completed.

[0029]

According to the present invention, the resin compound is
This resin compound can be applied not only to a separate film, but also to a plurality of glass fiber layers, and thus to a fiber reinforcement layer, and as a result, the resin compound and the glass fiber layer, etc. Since various kinds of fiber reinforcing material layers can be alternately formed into a sandwich-like sheet, the impregnating property (impregnation efficiency) of the resin compound into various fiber reinforcing materials such as glass fibers becomes very good.

Therefore, thick-walled SM with no unimpregnated portion
Not only is it possible to manufacture C, but also the productivity of high-strength SMC can be improved.

[Brief description of drawings]

FIG. 1 is a schematic front view showing a conventional SMC manufacturing apparatus and a flow chart by the apparatus.

FIG. 2 is a schematic front view showing an SMC manufacturing apparatus of the present invention,
It is a flow chart by the device. DESCRIPTION OF SYMBOLS 1 ... Resin compound 2 ... Resin compound coating device 3 ... Separate film 4 ... Glass roving 5 ... Chopper 6 ... Impregnation device 7 ... Cut glass roving 8. ..Resin compound coating device

Claims (2)

[Claims] 1. A resin compound is applied to a separate film by a coating device such as a doctor blade, while glass roving is cut with a chopper,
Sandwiching with the resin compound applied on the separate film, with an impregnating device, the cut glass roving, in the manufacturing apparatus of the resin composition for impregnating the resin compound, a plurality of resin compound coating device and An apparatus for producing a resin composition, characterized in that a plurality of glass choppers are provided as indispensable apparatuses. 2. A plurality of resin compound coating devices,
Using the manufacturing apparatus according to claim 1, wherein a plurality of glass choppers are provided as essential devices,
A resin composition, characterized in that a resin compound is applied between the fiber reinforcement layers.