JP2004188681A - Method for molding laminated molded product and mold - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a method for molding a laminated molded product by press-bonding a skin to the surface of a resin core material by a mold press molding method and a cold press molding method and a mold therefor, and to prevent the occurrence of wrinkles, cutting or the like in the skin to impart good moldability. <P>SOLUTION: The mold 40 is constituted of an upper mold 50 equipped with a skin holding frame 53 and a lower mold 60 equipped with a skin setting frame 63. A spacer 67 is attached to a support pin 64 for supporting the skin setting frame 63 in a freely detachable manner to variably adjust the length of the support pin 64. By this constitution, the height position of the skin setting frame 63 can be arbitrarily set with respect to the mold surface of a lower template 62 to correspond to the shape of the laminated molded product or the physical properties such as elongation or the like of the skin 22. <P>COPYRIGHT: (C)2004,JPO&NCIPI

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a molding method and a molding die of a laminated molded product in which a skin is press-bonded to the surface of a resin core material by a mold press molding method or a cold press molding method, and in particular, to variably adjust a set position of a skin. The present invention relates to a molding method and a molding die for a laminated molded article having improved moldability.
[0002]
[Prior art]
FIG. 9 shows a configuration of a door trim 1 for an automobile to be installed on the interior surface of a door panel. The door trim 1 for an automobile is formed into a desired curved shape and has a resin core material 2 having an appropriate shape-retaining property. And a skin 3 integrally attached to the surface of the resin core material 2 so as to impart excellent surface feel and appearance performance.
[0003]
Further, as a method of manufacturing the door trim 1 for an automobile, since the door trim is a mass-produced product, a mold press molding method and a cold press molding method are generally used.
[0004]
FIG. 10 shows a configuration of a molding die 4 used in the mold press molding method. The molding die 4 is composed of a molding upper die 5 and a molding lower die 6 which can be mutually closed and opened. ing. More specifically, the upper mold 5 has an upper holder 5a, an upper mold plate 5b, and a skin holding frame 5c. On the other hand, in the lower molding die 6, a lower mold plate 6b is fixed to the upper surface of a lower holder 6a, and a skin set frame 6c is supported at four corners by support pins 6d. By the ascending operation of 6e, the skin set frame 6c pushed up and supported by the support pins 6d is held at a predetermined position. The supply means of the material of the resin core material 2 is provided by a lower mold plate through a gate 7b and a manifold 7a, which is a resin passage provided in the molding lower mold 6, from a not-shown injection machine connected to the molding lower mold 6. 6b.
[0005]
Therefore, as a forming process of the door trim 1, after the skin 3 is set on the skin set frame 6c of the lower mold 6, the upper mold 5 is lowered by a predetermined stroke, and the skin 3 set on the skin set frame 6c is removed. The upper molding die 5 further descends while holding the peripheral portion of the skin 3 with the skin holding frame 5c of the upper molding die 5, and the clearance between the upper molding plate 5b and the lower molding plate 6b becomes a predetermined value. Is reached, the molten resin is supplied into the cavity through the manifold 7a and the gate 7b, which are resin passages, and the upper mold 5 is further lowered to the bottom dead center, whereby the resin core material 2 is formed into a required shape. At the same time, the skin 3 is press-bonded to the surface of the resin core 4.
[0006]
Then, after the molding, the ejector plate 6e moves upward, whereby the molded product is pushed upward by the ejector pin 6f, and the support pin 6d is also pushed upward by the ejector plate 6e, so that the skin set frame 6c is moved to the initial position ( (Reference position) (for example, refer to Patent Document 1).
[0007]
When the cold press molding method is used, it is not necessary to provide a manifold 7a or a gate 7b serving as a resin passage in the lower molding die 6. Instead, a raw sheet is used as a material of the resin core material 2 in advance. A step of setting on the mold surface of the lower mold plate 6b while heating and softening to a temperature, and then setting the skin 3 on the skin setting frame 6c may be adopted.
[0008]
[Patent Document 1]
JP 2001-225339 A (page 4, page 5, FIGS. 4 to 9)
[0009]
[Problems to be solved by the invention]
As described above, when the laminated molded body is molded using the mold press molding method and the cold press molding method as in the conventional door trim 1, the skin 3 is set on the skin set frame 6 c of the lower mold 6. The height position of the skin set frame 6c is determined by the length of the support pin 6d.
[0010]
By the way, in the method of forming a laminated molded product, for example, a complicated curved surface shape is required as a product shape of the laminated molded product depending on the product shape of the laminated molded product and physical properties such as the elongation of the skin 3. When the elongation rate of the skin 3 is relatively low, as shown in FIG. 11, it is necessary to set the skin 3 with sufficient slack, so that the height position of the skin setting frame 6c is set to the lower template 6b. Needs to be set at a position considerably higher than the mold surface height of the mold. Conversely, when the product shape of the laminated molded product is a simple shape or the elongation rate of the skin 3 is large, as shown in FIG. Actually, it is set to be substantially the same as the mold surface height of 6b.
[0011]
Therefore, when the height position of the skin set frame 6c is set to the high position shown in FIG. 11 when the product shape is a simple shape, wrinkles or the like are easily generated on the product surface. Conversely, if the height of the skin set frame 6c is set to the low position shown in FIG. 12 when the product shape is a complicated curved surface, the skin 3 may be cut or the like. Therefore, it is a very important requirement that the height position of the skin set frame 6c on which the skin 3 is set is set to the optimum position in consideration of the shape of the laminated molded product and the physical properties of the skin 3.
[0012]
In this regard, as described above, the height position of the skin set frame 6c is determined by the length of the support pin 6d. The troublesome work of removing the pin 6d from the lower holder 6a, replacing the four support pins 6d with the support pins 6d having the optimum length, and attaching the support pins 6d to the lower mold holder 6a is forced.
[0013]
The present invention has been made in view of such circumstances, and uses a mold press molding method, a cold press molding method, and a method of forming a laminated molded body by press-bonding a skin to the surface of a resin core material and In the molding die, in consideration of the product shape of the laminated molded product and the physical properties of the skin, the set height position of the skin can be adjusted to the optimum position by simple operation to secure good moldability, and wrinkles on the skin An object of the present invention is to provide a molding method and a molding die for a laminated molded article that can obtain good moldability without causing molding defects such as cuts and cuts.
[0014]
[Means for Solving the Problems]
In order to solve the above problems, the present inventors have focused on the fact that the set height position of the skin is determined by the length of the support pin that supports the skin set frame, and the simple operation of the support pin The present invention has been completed by variably adjusting the length.
[0015]
That is, when the present invention is applied to the mold press molding method, after the skin is placed on the skin set frame in the lower mold, the upper mold is lowered and the skin holding frame in the upper mold, The upper mold plate and the lower mold plate of the molding upper and lower molds are clamped with the peripheral portion of the skin sandwiched between the outer skin set frame and the mold, and the molten resin is injected and filled into the cavity between both molds. Thus, while forming the resin core material into a required shape, a method of forming a laminated molded article by integrally attaching a skin to the surface thereof, wherein the shape of the laminated molded article, or the physical properties of the skin, By adjusting the height position of the skin set frame with respect to the height position of the lower mold plate in the mold, the skin is adapted to follow and be integrated with the curved shape of the resin core material.
[0016]
Further, when the present invention is applied to the cold press molding method, after setting the raw sheet of the resin core material in a state of being heated and softened on the lower mold plate of the lower molding die, the skin is placed on the skin set frame. Then, the upper mold is lowered and the upper and lower mold plates are sandwiched between the upper and lower mold plates with the peripheral edge of the skin sandwiched between the skin holding frame and the skin set frame in the upper and lower molds. A sheet is press-pressed to form a resin core material into a required shape, and a method of forming a laminated molded body by press-bonding a skin to the surface of the resin core material, wherein the shape of the laminated molded body or the shape of the skin is According to the physical properties, by adjusting the height position of the skin set frame with respect to the height position of the lower mold plate in the lower molding die, the skin is integrated following the curved surface shape of the resin core material. It is characterized by the following.
[0017]
And, the molding die used in the method of the present invention is a molding die of a laminated molded body composed of a resin core material molded into a required shape and a skin press-pressed to the surface of the resin core material, The molding die is formed of a mold upper mold and a mold lower mold that can be mutually opened and clamped, and the mold upper mold is an upper mold that clamps a resin core material to an upper holder that can move up and down a predetermined stroke. The plate and the skin holding frame that supports the skin are attached, while the molded lower mold has the lower mold plate that forms the resin core material fixed to the lower holder, and the skin set frame that sets the skin is supported by support pins. The support pins are provided with spacers that allow the pin length to be adjusted. The spacers are removably attached to the support pins so that when the ejector plate moves upward, the skin set frame rises to the reference position. Characterized in that that the height position and adjustable.
[0018]
Therefore, according to the present invention, when the expansion rate of the laminated molded article is large, and the product shape is complicated, or when the elongation rate of the skin is small, by attaching the spacer to the support pin that supports the skin set frame, The skin set frame can be set at a high position with respect to the mold surface of the lower mold plate, and can be set with a sufficient slack in the skin, so that there is no problem such as a cut in the skin during molding.
[0019]
Further, when the expansion rate of the laminated molded body is small, by setting the skin set frame at a low position with the spacer removed, no wrinkles or the like occur on the skin during molding.
[0020]
Further, when the spacer is attached to the lower end side of the support pin, the spacer can be easily attached and detached through the working openings provided at the four corners of the lower holder, and the spacer is detachably attached to the upper end of the support pin. In this case, since it is exposed upward from the lower holder, it can be easily attached and detached.
[0021]
Therefore, the spacer can be easily attached to and detached from the lower end or upper end of the support pin, so that the set height position of the skin can be easily adjusted. The troublesome work of attaching the pin to the mold can be eliminated, and the workability can be greatly improved.
[0022]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, a preferred embodiment of a method of molding a laminated molded article and a preferred embodiment of a molding die according to the present invention will be described with reference to a specific example applied to a method of molding a door trim.
[0023]
FIG. 1 is a front view showing an automobile door trim manufactured according to the present invention, FIG. 2 is a sectional view showing the configuration of the automobile door trim, and FIG. 3 shows the configuration of a molding die used in the method of the present invention. FIG. 4 is an explanatory view showing a comparison between the mounting type (a) and the type (b) without the spacer, FIGS. 4 to 6 are explanatory views showing each step of a door trim molding method, and FIG. FIG. 8 is an explanatory diagram applied to a press molding method, and FIG. 8 is an explanatory diagram showing a configuration of a molding die in which a spacer mounting portion is changed.
[0024]
First, referring to FIGS. 1 and 2, the structure of an automobile door trim manufactured using the method of the present invention will be briefly described. The door trim 10 for an automobile is composed of an upper and lower divided body of a door trim upper 20 and a door trim lower 30. An inside handle escutcheon 11, a pull handle 12, and a power window switch finisher 13 are attached to the door trim upper 20, and a pocket opening 14 is opened in the door trim lower 30, and a pocket back (not shown) is provided on the back side thereof. A cover is attached, and a speaker grill 15 is attached to the front side of the pocket opening 14.
[0025]
As shown in FIG. 2, the door trim upper 20 is provided with a skin 22 on the surface of a resin core material 21 formed into a desired curved shape so as to provide an accent effect on the appearance of the door trim upper 20 and the door trim lower 30. Is used, and the door trim lower 30 is made of a synthetic resin alone.
[0026]
More specifically, as the resin core material 21 in the door trim upper 20, an injection molding of a general-purpose synthetic resin may be used, or a press molding of a synthetic resin sheet may be used. As the material of the resin core material 21, any synthetic resin that can be preferably used in general can be used. For example, polyethylene resin, polypropylene resin, polystyrene resin, polyethylene terephthalate resin, polyvinyl alcohol resin, vinyl chloride resin, ionomer resin, polyamide resin, acrylonitrile / butadiene / styrene (ABS) resin, polycarbonate resin, etc. In this embodiment, a polypropylene resin is used in consideration of the environment and recycling.
[0027]
In addition, a filler, for example, an inorganic fiber such as glass fiber or carbon fiber, or a filler such as inorganic particles such as talc, clay, silica, or calcium carbonate may be mixed in the synthetic resin.
[0028]
On the other hand, the skin 22 can be made of a cloth-based sheet such as a woven fabric or a non-woven fabric, or a synthetic resin sheet. In the present embodiment, the compatibility with the polypropylene-based resin used for the resin core material 21 is considered in consideration of recycling. A TPO (thermoplastic olefin) sheet provided is used.
[0029]
By applying the method of the present invention to the door trim upper 20 of the door trim 10 for an automobile, the door trim upper 20 does not have any molding defects such as wrinkles or cuts on the outer skin 22 and has good appearance performance. I have.
[0030]
Next, the configuration of a molding die 40 used when molding the door trim upper 20 will be described with reference to FIG. The molding die 40 is a specific example using a mold press molding method, and FIGS. 3A and 3B will be described in comparison with a type with and without a spacer.
[0031]
As shown in the drawing, the molding die 40 is generally constituted by an upper molding die 50 and a lower molding die 60. First, the upper mold 50 is provided with an upper mold plate 52 having a mold surface having the product shape of the door trim upper 20 attached to the lower surface of an upper holder 51 which can be vertically moved by a predetermined stroke by a lifting cylinder (not shown). A skin holding frame 53 is attached to the lower surface of the upper holder 51 so as to be located on the outer periphery of the upper template 52. The skin holding frame 53 is provided with set pins 54 for holding the skin 22 at appropriate pitch intervals. On the other hand, the molding lower die 60 has a lower die plate 62 corresponding to the upper die plate 52 fixed to the upper surface of a lower holder 61 on the fixed side, and further includes a skin holding mechanism which is a part of the present invention. I have.
[0032]
That is, the skin set frame 63 is attached to the lower holder 61 so as to be vertically movable. The skin set frame 63 is supported by support pins 64 at four corners on its lower surface, and the support pins 64 are inserted through support pins 64 respectively corresponding to urethane rubber 65 attached to a predetermined location on the upper surface of the lower holder 61. The support pin 64 is held at that position by the frictional resistance between the outer peripheral surface of the support pin 64 and the urethane rubber 65.
[0033]
The lower holder 61 is provided with an ejector plate 66 for removing the molded product after molding. The ejector plate 66 is moved up and down by a predetermined stroke by a cylinder (not shown). The molded product is pushed upward from the lower mold plate 62 by an ejector pin 66a connected to the molded product.
[0034]
Further, when the ejector plate 66 rises, the support pins 64 are pushed upward, and the skin set frame 63 supported by the support pins 64 is also raised, and the skin set frame 63 returns to the initial position (reference position). Further, a manifold 70 is provided in the lower holder 61 and the lower mold plate 62 as a resin passage of the resin core 21, and molten resin as a material of the resin core 21 is supplied through the manifold 70 and the gate 71. It is supplied on the mold surface of the lower mold plate 62.
[0035]
Incidentally, the molding die 40 according to the present invention is provided with a spacer 67 that can change the pin length of the support pin 64 that supports the skin set frame 63 so that the set position of the skin 22 can be easily and variably adjusted to the optimum position. It is characteristic.
[0036]
That is, FIG. 3A shows an embodiment in which a spacer 67 is attached to the lower end of a support pin 64 that supports the skin set frame 63 and the support pin 64 is set to be long, and FIG. The embodiment in which the support pin 64 is set to a short dimension is shown. Therefore, in FIG. 3A and FIG. 3B, the difference in the d dimension at the height position of the skin set frame 63 by the length dimension (indicated by the symbol d in the figure) of the spacer body 67 a of the spacer 67 is different. Is set.
[0037]
The spacer 67 has a threaded portion 67b formed on the spacer body 67a, and can be easily attached to the lower end of the support pin 64 by screwing it into the recess 64a on the lower end side of the support pin 64. Further, a working opening 68 is provided on the wall surface of the lower holder 61 so that the spacer 67 can be easily attached to the support pin 64.
[0038]
As described above, the molding die 40 used in the method of the present invention is configured such that the spacer 67 is attached to the support pin 64 and the pin length of the support pin 64 is set to be long, so that the mold surface of the lower mold plate 62 is Thus, the skin set frame 63 can be set at a high position. Conversely, by setting the pin length of the support pin 64 short by removing the spacer 67, the skin set frame 63 can be set at a low position which is almost the same position as the mold surface of the lower mold plate 62. Therefore, for example, in the case where the expansion ratio of the door trim upper 20 is large and the door trim upper 20 has a complicated curved shape, or in the case where the expansion ratio of the skin 22 is small, the spacer 67 is attached as shown in FIG. Is set at a high position, when the skin 22 is set on the skin set frame 63, the skin 22 is sufficiently slackened downward so that cutting or the like does not occur during molding.
[0039]
Further, if the curved surface shape of the door trim upper 20 is a simple shape or the elongation of the skin 22 is large, as shown in FIG. 3B, if the skin set frame 63 is set at a low position, Wrinkles and the like are not generated on the outer skin 22, and good moldability is obtained.
[0040]
Next, as shown in FIG. 3A, a molding process of the door trim upper 20 when the skin set frame 63 is set at a high position will be described with reference to FIGS. FIG. 4 shows that the upper mold 50 is located at the uppermost position, and the skin 22 is set on the skin set frame 63 of the lower mold 60 when the mold is in the open state. At this time, the skin set frame 63 is located considerably above the mold surface of the lower mold plate 62.
[0041]
When the setting of the skin 22 is completed, the upper molding die 50 starts to be lowered by the drive of the elevating cylinder, and the skin holding frame 53 attached to the upper holder 51 is lowered to hold the skin with respect to the skin set frame 63. The frame 53 abuts, the peripheral portion of the skin 22 is sandwiched between the skin setting frame 63 and the skin holding frame 53, and the displacement of the skin 22 can be prevented by the set pin 54 piercing.
[0042]
Further, while the peripheral edge of the skin 22 is held between the skin set frame 63 and the skin holding frame 53, the lowering of the upper mold 50 is continued, and the upper mold plate 52 and the lower mold of the upper and lower molds 50 and 60 are continued. When the clearance between the dies and the plate 62 reaches the optimum position of 10 to 50 mm, the molten resin M is supplied from the injection machine connected to the lower molding die 60, and the two dies 52, 62 are passed through the manifold 70 and the gate 71. The molten resin is supplied into the cavity between the upper mold plate 50 and the molding upper die 50 descends to the bottom dead center, and as shown in FIG. Along with this, the resin core material 21 is formed into a required shape, and the skin 22 is press-integrated on the surface thereof. At this time, the skin set frame 63 is pressed downward by the skin holding frame 53, and the support pin 64 is lowered downward so as to be buried in the lower holder 61, and almost reaches a position where it comes into contact with the ejector plate 66. Has reached.
[0043]
Then, when the molding is completed between the upper mold plate 52 and the lower mold plate 62 in the molding upper and lower molds 50 and 60, as shown in FIG. An ejector pin 66a connected to the ejector plate 66 pushes up the door trim upper 20 formed into a required shape. At the same time, the ejector plate 66 pushes the support pin 64 upward, whereby the skin set frame 63 supported by the support pin 64 moves up to the upper position, that is, the initial position (reference position) shown in FIG. become.
[0044]
As described above, according to the method of the present invention, by attaching the spacer 67 to the support pin 64, removing the spacer 67, or appropriately selecting the length of the spacer 67, the pin length of the support pin 64 can be reduced. It can be variably adjusted, and thereby, the set position height of the skin set frame 63 can be adjusted to the optimum position, so that it can effectively respond to changes in physical properties such as the shape of the door trim upper 20 and the elongation rate of the skin 22, It is possible to form a laminated molded article having excellent appearance performance, such as no wrinkles or cuts on the product surface.
[0045]
Next, FIG. 7 shows a molding die 40 applied to the cold press molding method. When the cold press molding method is used, the resin core material 21 is placed on the mold surface of the lower mold plate 62 in the form of an original sheet. S is set in a state where it has been heated and softened in advance, and then the skin 22 is set on the skin set frame 63, and then the upper mold 50 is lowered to form the resin core material 21 into a required shape, The door trim upper 20 in which the skin 22 is press-bonded to the surface can be formed.
[0046]
As the raw sheet S of the resin core material 21, for example, a raw sheet S extruded into a sheet shape by a T-die extruder in a state where filler such as wood powder is mixed into polypropylene, if desired, may be used. . In this case as well, the same operation and effect can be obtained by adjusting the height position of the skin set frame 63 to the optimum position by selectively attaching the spacer 67 to the support pin 64 to adjust the height of the skin set frame 63 to the optimum position.
[0047]
Next, FIG. 8 shows a modified example of the molding die 40 used in the present invention, in which the attachment location of the spacer 67 attached to the support pin 64 is changed. In the molding die 40 shown in FIG. 8, a spacer 67 is interposed at the upper end side of the support pin 64. That is, a concave portion 64a is provided on the upper end surface of the support pin 64, a screw groove is formed on the inner peripheral surface of the concave portion 64a, and the screw portion 67b of the spacer 67 is tightened, so that the pin length of the support pin 64 is increased. Is set to.
[0048]
In this way, if the spacer 67 is interposed at the upper end of the support pin 64, the spacer 67 is exposed to the outside from the lower holder 61, so that it is not necessary to open the working opening 68 in the lower holder 61, and the spacer 67 There is an advantage that attachment and detachment work can be easily performed.
[0049]
The embodiment described above is applied to the molding of the door trim upper 20 in the door trim 10 of the upper and lower two-part system, but the mold is pressed on the surface of the resin core material by using a mold press molding method and a cold press molding method. The application is not limited as long as it is configured to be crimped.
[0050]
【The invention's effect】
As described above, the molding method and the molding die of the laminated molded body according to the present invention adopt a configuration in which a spacer is detachably mounted on a support pin that supports a skin set frame on which a skin is set. Since the height position of the skin set frame can be set freely with respect to the mold surface of the side mold plate and the appropriate skin set position can be selected in consideration of the shape of the laminated molded product and the physical properties of the skin, mold press molding Or, when the resin core material is formed into the required shape by cold press molding, and the surface is press-pressed to the surface, the surface does not wrinkle or cut, and the appearance is not defective This has the effect that a molded laminate having excellent performance can be formed.
[0051]
Furthermore, when adjusting the skin set position, the set position of the skin can be adjusted by a simple operation of screwing the spacer into the support pin, so that the support pin is removed from the mold and a new support pin is The troublesome replacement work of re-inserting into the mold can be abolished, can be easily dealt with, and is extremely practical.
[Brief description of the drawings]
FIG. 1 is a front view showing an automobile door trim manufactured by the method of the present invention.
FIG. 2 is a sectional view taken along line II-II in FIG.
FIG. 3 is a diagram illustrating a molding die used in the method of the present invention, in which (a) a spacer is attached and (b) a spacer is removed.
FIG. 4 is an explanatory view showing a set state of a skin in a method of molding a door trim upper according to the method of the present invention.
FIG. 5 is an explanatory view showing a state during a mold press molding step in the method for molding a door trim upper according to the method of the present invention.
FIG. 6 is an explanatory view showing a state in which a molded product is protruded in a method for molding a door trim upper according to the method of the present invention.
FIG. 7 is an explanatory view showing a cold press molding type molding die used in the method of the present invention.
FIG. 8 is an explanatory view showing a modified example of a molding die used in the method of the present invention.
FIG. 9 is a cross-sectional view showing a configuration of a conventional door trim.
FIG. 10 is a configuration explanatory view of a molding die for molding a conventional door trim.
FIG. 11 is an explanatory view showing a state in which a skin set frame is set at a high position in a conventional molding die.
FIG. 12 is an explanatory view showing a state in which a skin set frame in a conventional molding die is set at a low position.
[Explanation of symbols]
10 Automotive door trim
20 door trim upper
21 Resin core material
22 epidermis
30 door trim lower
40 Mold
50 Upper mold
51 Upper holder
52 Upper template
53 Skin holding frame
54 set pins
60 lower mold
61 Lower holder
62 Lower template
63 Skin Set Frame
63a Positioning guide
64 support pins
64a recess
65 urethane rubber
66 Ejector plate
66a Ejector pin
67 Spacer
67a Spacer body
67b screw part
68 Work opening
70 Manifold
71 Gate

Claims (3)

After placing the skin (22) on the skin set frame (63) in the lower molding die (60), the upper molding die (50) is lowered to operate the lower skin holding frame (53) in the upper molding die (50). The upper mold plate (52) and the lower mold of the upper and lower molds (50, 60) in a state where the peripheral portion of the skin (22) is sandwiched between the outer mold set (63) and the skin set frame (63) of the lower mold (60). The plate (62) is clamped, and a molten resin is injected and filled into the cavity between the two dies to form the resin core material (21) into a required shape, and a skin (22) is integrally formed on the surface thereof. A method for forming a laminated molded article (20) to be adhered,
Depending on the shape of the laminated molded body (20) or the physical properties of the skin (22), the height of the lower mold plate (62) in the lower molding die (60) is set to the height of the skin set frame (63). A method for molding a laminated molded article, characterized in that a skin (22) follows and integrates into a curved shape of a resin core material (21) by adjusting a height position. After setting the raw sheet (S) of the resin core material (21) on the lower mold plate (62) of the lower molding die (60) in a state where the raw sheet (S) is heated and softened, the skin (S) is placed on the skin set frame (63). 22) is placed, and then the upper molding die (50) is lowered, so that the epidermis (22) is placed between the epidermis holding frame (53) and the epidermis set frame (63) in the upper and lower molding dies (50, 60). ) Is pressed and pressed between the upper mold plate (52) and the lower mold plate (62) with the peripheral portion thereof held therebetween to form the resin core material (21) into a required shape. And a method of forming a laminate (20) by press-bonding a skin (22) to the surface of the resin core (21),
Depending on the shape of the laminated molded body (20) or the physical properties of the skin (22), the height of the lower mold plate (62) in the lower molding die (60) is set to the height of the skin set frame (63). A method for molding a laminated molded article, characterized in that a skin (22) follows and integrates into a curved shape of a resin core material (21) by adjusting a height position. Mold (40) for forming a laminated molded body (20) composed of a resin core material (21) molded into a required shape and a skin (22) pressed and pressed on the surface of the resin core material (21). At
The molding die (40) is composed of a molding upper die (50) and a molding lower die (60) that can be opened and closed with each other, and the molding upper die (50) has an upper side capable of moving up and down by a predetermined stroke. The upper mold plate (52) for clamping the resin core material (21) and the skin holding frame (53) for supporting the skin (22) are attached to the holder (51), while the lower molding die (60) is A lower mold plate (62) for forming the resin core (21) is fixed to the lower holder (61), and a skin set frame (63) for setting the skin (22) is supported by the support pins (64). A spacer (67) whose length can be adjusted is detachably attached to the support pin (64), so that the skin set frame (63) moves up to the reference position by the raising operation of the ejector plate (66). The base of the skin set frame (63) Molding die molded laminate, characterized in that the height position at the position to be adjusted.

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