JPS6335323A - Manufacture of laminated resin molded product - Google Patents

Abstract

PURPOSE:To so constitute the title method that resin of a molding member injected previously and molten resin to be injected in the next time do not mix up with each other even if injection molding is performed by laminating the molten resin in order, by forming the next resin molded member of molten resin whose fusion temperature is lower than that of the resin molded member molded previously. CONSTITUTION:After a first cavity mold 20 has been broken by performing injection molding of a matrix material 10 by making use of opaque synthetic resin 10' such as a mixture of polycarbonate resin and ABS resin, a core molds 1 and second cavity mold 21 are clamped together by turning the core mold 11 by 180 deg.. A mounting material 20, which has been heated and molted at a temperature lower the fusion temperature of the matrix material 10, is injected within a cavity space 21a and the mounting material 20 is laminated unitarily on an external surface side of the matrix material 10 within the cavity space 21a. It is good when colorless or colored transparent or semitransparent synthetic resin such as methyl methacrylate resin is used as molding resin 20' and moreover the resin, whose fusion temperature of the extent of 230-240 deg.C which is lower than that of the molten resin 10' of the matrix material 10 relatively, is used.

Description

DETAILED DESCRIPTION OF THE INVENTION Field of Industrial Application The present invention relates to a method for manufacturing a laminated resin molded article by laminating several types of molten resins and successively injection molding them.

2. Description of the Related Art In general, a finisher F as shown in FIG. 3 is an example of a resin molded product in which several types of molten resins are laminated and injection-molded, for example, as an ornament for a vehicle.

As shown in Fig. 4, the finisher F has a boss part B etc. integrally molded on the inner side for planting and fixing a stud bolt ■ which is tightened with a nut N as a fastening member to the object P to be attached. In order to make the boss part B impossible to see through from the outer surface side, the matrix body 10 on which the boss part B is integrally molded is formed of an opaque synthetic resin, and a facing body 20 is further laminated on the outer surface of a transparent or translucent synthetic resin. It is designed to be molded.

As the molding machine, a rotary two-color injection mold as shown in Fig. 5 is used, and this molding machine has a rotating core mold 11 in the center and two types of cavities with different cavity spaces arranged around it. A mold 12.21 is provided, and after injection molding a matrix body 10 with a core mold 11 and a cavity mold 12, a facing body 20 is laminated and molded between a core mold 11 that rotates 1800 times and a second cavity mold 21. It is.

Problems to be Solved by the Invention When manufacturing this laminated resin molded product, if the synthetic resin used to mold the matrix body 10 and the synthetic resin used to mold the facing body 20 have the same or very similar melting temperature, However, there is a problem in that when the resin forming the mounting body 20 is injected, the resin used to form the matrix body 10 is melted and mixed with each other, impairing the aesthetic appearance.

Means for Solving the Problems In the method for manufacturing a laminated resin molded product according to the present invention, by sequentially injecting molten resin having a lower melting temperature relative to the molten resin of the resin molded product to be molded in advance. The resin molded product is laminated and molded.

Function: In this manufacturing method, the next resin molded part is formed with a molten resin that has a lower melting temperature than the previous resin molded part, so even if the molten resin is laminated one after another and injection molded, the molded part that was injected previously will not be the same. At least there is no possibility that the resin will mix with the next injected molten resin.

An embodiment will be described below with reference to FIGS. 1 and 2.

In this example, the resin molded products shown in Figs. 3 and 4 are formed using the injection mold shown in Fig. 5.
Constituent parts of the same resin molded members and molds are indicated by the same reference numerals.

FIG. 1 shows a process of molding a mother mold body 10 of a finisher as a laminated resin molded product. A matrix body 10 having a character shape is molded with resin. In that case, use an opaque synthetic resin such as PC-ABS (a mixture of polycarbonate resin and ABS resin).
It is preferable to use a material having a relatively high melting temperature of about 260 to 27 degrees. Further, as the synthetic resin 10', a resin colored in a desired color can also be used as long as it is opaque. When molding the mother mold body 10, the fixing part 10a9 for the object to be attached, for example, the boss part for planting a stud bolt, is connected to the annular recess ttb of the core mold 11.
First, a suitable pattern 10b such as an eye pattern or a decorative mark is formed on the outer surface of the cavity mold 12.
It can also be formed by

This matrix body 10 is injection molded to form a first cavity mold 20.
After opening the mold, the core mold 11 is rotated 180 degrees, and the core mold 11 and the second cavity mold 21 are separated as shown in FIG.
Clamp the mold. The second cavity mold 21 has a relatively large cavity space 21a compared to the first cavity mold 12, and this cavity space 21
A mounting body 20 is placed on the outer surface side of the matrix body 10 within the matrix body 10.
It is heated and melted to a temperature lower than the melting temperature of , and then injected into the cavity space 21a and integrally laminated and molded.

As the molding resin 20', a colorless or colored transparent or translucent synthetic resin such as PMMA resin (methyl methacrylate resin) is used, and the melting temperature is relatively lower than that of the molten phase @10' of the matrix body 10. It is preferable to use one with an angle of about 240 degrees.

When manufacturing a laminated resin molded product in this way, molten resin 20' having a relatively lower melting temperature than the molten resin 10' of the matrix body 10 to be molded first is injected so as to be laminated on the matrix body 10. , it becomes possible to mold the facing body side without melting the outer surface side of the matrix body 10. Also. Even if the surface body side has a low heat resistance temperature, the matrix body 10 side is formed as a molded body with high heat resistance, so that the entire laminated resin molded product has high heat resistance.

In addition, even if the fixing part 10a for the object to be attached is provided on the inner surface of the laminated resin molded product, since the matrix body 10 is made of opaque synthetic resin, it cannot be seen from the outer surface. can be formed into

As mentioned above, molten resins with different melting temperatures are used for lamination molding, but it is preferable to select ones with the same or similar solubility parameters (SP values). Although the mold 11 is rotated and used, injection molding may also be performed using different core molds.
A is not limited to a boss portion, but may be formed as a rib in an inverted letter shape, a single letter shape, nine box shape, etc., and a separate clip or the like may be fitted to this rib.

Effects of the Invention As described above, according to the method for producing a laminated resin molded product according to the present invention, even when several types of molten resins are laminated and injection molded, there is no melt-mixing of each other, so it is highly decorative. It makes it possible to manufacture excellent resin molded products.

[Brief explanation of drawings]

Figures 1 and 2 are explanatory diagrams showing the manufacturing process of a laminated resin molded product according to the present invention, Figures 3a and b are explanatory diagrams showing an example of a laminated resin molded product, and Figure 4 is an attached state of the molded product. Figure 's5 is an explanatory diagram showing a rotary injection molding machine that can be used to manufacture the same molded product. 10': Molten resin with relatively high melting temperature, 20'
: Molten resin with relatively low melting temperature, 11: Core type, 1
2, 21: Cavity type. Figure 1 Figure 2 Figure 3 Figure 4 Juice Figure 5

Claims (3)

[Claims] (1) When manufacturing a laminated resin molded product by sequentially injecting several types of molten resin into a plurality of cavity molds and core molds having cavity spaces of different sizes, the relative melting temperature of the molten resin is A method for manufacturing a laminated resin molded product, characterized by sequentially injecting the lowest parts. (2) After injection molding an opaque synthetic resin with a relatively high melting temperature in the core mold and the first cavity mold, it is laminated on the outer surface of the molded member to form the core mold and the second cavity mold. A method for manufacturing a laminated resin molded article according to claim 1, wherein a transparent or translucent synthetic resin having a relatively low melting temperature is injection molded. (3) The laminated resin according to claim 1 or 2, wherein the core mold and the first cavity mold form a molded member having a fixing portion for an attached object on the inner surface side. Method of manufacturing molded products.