JP2006137066A - Manufacturing method of metal-like decorative part, manufacturing method of resin molded product and mold for molding metal-like decorative part - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a manufacturing method of a metal-like decorative part capable of well holding metal-like gloss even if a metal-like molding sheet is molded into the metal-like decorative part, a manufacturing method of a resin molded product and a mold for molding the metal-like decorative part. <P>SOLUTION: The whole of the metal-like molding sheet 10 or the slackened part of the metal-like molding sheet 10 is drawn by pressing a part of the metal-like molding sheet 10 toward a sheet mold 72 by a molding auxiliary mold 71 before a sheet close bonding process to be deformed so as to almost follow the uneven shape of the sheet mold 72. Since the sheet adhesion process is performed in this state, the wall thickness of the metal-like molding sheet 10 is prevented from locally becoming thin as is conventional at a part where the height difference of the unevenness of the sheet mold 72 changes suddenly. By this constitution, even if the metal-like molding sheet 10 is molded into the metal-like decorative part 29, metal-like gloss can be hold well. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

  The present invention relates to a metal-like decorative part that forms a metal-like decorative part having a three-dimensional structure by closely attaching a metal-like molded sheet provided with a plurality of thermoplastic resin layers and metal layers to a heated sheet molding die. The present invention relates to a manufacturing method of the above, a manufacturing method of a resin molded product using the metallic decorative component, and a metallic decorative component molding die used in the manufacturing method.

In recent years, when a resin molded product is decorated in a metallic style, a metallic molded sheet has been used instead of plating (for example, see Patent Document 1). Specifically, in order to decorate the upper surface of the resin molded product 1 shown in FIG. 18 in a metallic style, as shown in FIG. 19, a sheet molding die having an uneven shape corresponding to the upper surface of the resin molded product 1 After heating 2 and laying the metal-molded sheet 3 thereon, the upper surface of the sheet mold 2 is covered with a sealing mold 5 as shown in FIG. Then, the gas between the metal-molded sheet 3 and the sheet mold 2 is sucked through the gas discharge hole 2A formed in the sheet mold 2 and sealed through the gas charge hole 5A formed in the seal mold 5. The gas filling space 5B between the mold 5 and the sheet forming mold 2 is filled with compressed gas. As a result, the metal tone forming sheet 3 is brought into close contact with the sheet forming die 2, and the metal tone decorative part 4 having a three-dimensional structure is formed from the metal tone forming sheet 3. Then, the metallic decorative component 4 is cut out from the metallic decorative sheet 3 and the resin molded product 1 is insert-formed using the metallic decorative component 4. Thereby, as shown in FIG. 18, the upper surface of the resin molded product 1 is covered with the metallic decorative component 4 and decorated in a metallic manner.
JP 2002-370111 A (Claim 1, paragraphs [0001] to [0003])

  However, in the above-described conventional method for manufacturing a metallic tone decorative part, as shown in FIG. 19, in a state where a part of the metallic tone forming sheet 3 is stretched between the convex and concave portions of the sheet molding die 2, Since the entire metal-molded sheet 3 is brought into close contact with the sheet-molding mold 2 almost simultaneously with the suction and charging of the gas, the metal-molded sheet 3 is formed in the portion of the sheet-molding mold 2 where the level of the unevenness changes rapidly. Is locally plastically deformed (deep drawing), and the wall thickness is reduced. For this reason, as shown in FIG. 18, there is a case where a gloss reduction portion 4A in which the metallic luster is impaired is generated in a part of the metallic decorative component 4.

  The present invention was made in view of the above circumstances, and a method for producing a metallic decorative component capable of maintaining a good metallic gloss even when a metallic decorative sheet is molded into a metallic decorative component, The object is to provide a method for producing a resin molded product and a metal-like decorative part molding die.

  In order to achieve the above object, a method for producing a metallic decorative part (29) according to the invention of claim 1 comprises laminating a plurality of thermoplastic resin layers (11, 14) and a metal layer (13). In the method for producing a metal-like decorative part (29) in which the provided metal-like molded sheet (10) is closely attached to a heated sheet-forming mold (72) to form a metal-like decorative part (29) having a three-dimensional structure. A sheet disposing step of disposing the metal-formed sheet (10) opposite to the sheet-forming mold (72), and a part of the metal-formed sheet (10) is directed to the sheet-forming mold (72) by the forming auxiliary mold (71). A sheet pressing step of pressing and deforming the metal-like formed sheet (10) substantially following the uneven shape of the sheet-forming mold (72); and the metal-formed sheet (10) substantially in the uneven shape of the sheet-forming mold (72). In a state of being copied and deformed, And a sheet adhering step for sucking a gas between the metal-formed sheet (10) and the sheet-forming mold (72) to bring the metal-formed sheet (10) into close contact with the sheet-forming mold (72). Have

  A second aspect of the present invention is the method for manufacturing a metallic decorative part (29) according to the first aspect, wherein a plurality of pressing portions (80X, 80Y) are provided in the forming auxiliary mold (71), and the pressing portions ( 80X, 80Y) is characterized in that the timing of pressing the metal-formed sheet (10) is varied.

  According to a third aspect of the present invention, in the method for producing a metallic decorative component (29) according to the second aspect, the plurality of pressing portions (80X, 80Y) are made of a metallic decorative component (10) of the metallic molded sheet (10). 29) It is characterized in that after pressing the portion that becomes the central portion first, the outer portion of the portion that becomes the central portion is pressed.

  According to a fourth aspect of the present invention, there is provided the method for producing a metallic decorative component (29) according to the second or third aspect, wherein the guide portion (80A) is next to the pressing portion (80X, 80Y) of the auxiliary molding die (71). ), And in the sheet pressing step, the guide portion (80A) has a clearance (C greater than the thickness of the metallic tone forming sheet (10) with respect to the convex portion (73A) provided in the sheet forming die (72). ), And the metal shaped sheet (10) is pressed by the pressing portions (80X, 80Y).

  According to a fifth aspect of the present invention, in the method for manufacturing a metallic decorative component (29) according to any one of the first to fourth aspects, the auxiliary molding die (71) and the sheet molding die (72) are brought closest to each other. Further, a clearance (C) larger than the thickness of the metal-molded sheet (10) is interposed between the molding auxiliary mold (71) and the portion of the sheet mold (72) where the metal-shaped decorative part (29) is molded. However, it has characteristics.

  According to a sixth aspect of the present invention, in the method for manufacturing a metallic decorative component (29) according to the fifth aspect, t + 0.2 [mm] where t is the thickness of the metallic molded sheet (10) and C is the clearance. ] ≦ C ≦ t + 1.0 [mm].

  A seventh aspect of the present invention is the method for producing a metallic decorative component (29) according to any one of the first to sixth aspects, wherein at least a portion of the auxiliary molding die (71) that is in contact with the metallic molded sheet (10). Is made of an olefin-based or urethane-based synthetic rubber.

  The invention according to claim 8 is the method for producing a metallic decorative component (29) according to any one of claims 1 to 6, wherein the forming auxiliary mold (71) is made of aluminum or iron and at least a metallic adjusted sheet. Surface polishing is applied to the portion that contacts (10), and the temperature of the auxiliary molding die (71) is set to 50 to 90 degrees.

  The invention of claim 9 is the method for producing a metallic decorative component (29) according to any one of claims 1 to 8, wherein a peelable masking film (23) is laminated on the surface of the metallic decorative component (29). It has the characteristics in place.

  A tenth aspect of the present invention is the method for producing a metallic decorative component (29) according to any one of the first to ninth aspects, wherein the metallic molded sheet (10) is heated and softened before the sheet arranging step. It is characterized in that the sheet softening process is performed.

  The invention of claim 11 is the method for producing a metallic decorative component (29) according to any one of claims 1 to 10, wherein in the sheet adhering step, a metallic molded sheet (10) and a sheet molding die (72) And the pressure by compressed gas is applied to the opposite side of the sheet mold (72) to the metal-molded sheet (10), and the metal-molded sheet (10) is formed into a sheet mold (72) has a feature in close contact.

  A method for producing a resin molded product (50) according to the invention of claim 12 is a metal-like decorative part (29) produced by the method for producing a metal-like decorative part (29) according to any one of claims 1 to 11. It is characterized in that the resin molded product (50) is insert-molded using

  A metal-tone decorative part molding die (70) according to the invention of claim 13 is provided with a metal-tone molded sheet (10) comprising a plurality of laminated thermoplastic resin layers (11, 14) and a metal layer (13). A metal-like decorative part molding die (70) for molding a metal-like decorative part (29) having a three-dimensional structure, and a sheet-molding die (72) formed from the metal-like decorative part (29), and a sheet A part of the metal-molded sheet (10) laid on the mold (72) is pressed against the sheet-mold (72), and the metal-molded sheet (10) is uneven on the sheet mold (72). In a state in which the forming auxiliary die (71) for deforming substantially following the shape and the metal-like formed sheet (10) are deformed substantially following the uneven shape of the sheet-forming die (72), these metal-like formed sheets ( 10) and the gas between the sheet mold (72) is sucked It has a characteristic that the gas suction part (73C, 74C, 78,78P) at which a.

  The invention according to claim 14 is the metal decorative part molding die (70) according to claim 13, wherein the molding auxiliary mold (71) is provided with a plurality of pressing metal molding sheets (10) at different timings. It is characterized in that the pressing portion (80X, 80Y) is provided.

  According to a fifteenth aspect of the present invention, in the metal tone decorative part molding die (70) according to the fourteenth aspect, the plurality of pressing portions (80X, 80Y) are formed of a metal tone decorative part (10) of the metal tone molded sheet (10). 29) It is characterized in that it is configured to press the portion that becomes the central portion and then press the outer portion of the portion that becomes the central portion.

  A sixteenth aspect of the present invention is the metallic decorative part molding die (70) according to the fourteenth or fifteenth aspect, wherein the molding auxiliary mold (71) is provided next to the pressing portion (80X, 80Y) and pressed. Before the portion (80X, 80Y) presses the metal-molded sheet (10), the thickness of the metal-molded sheet (10) is between the convex part (73A) provided in the sheet mold (72). It has a feature in that it is provided with a guide portion (80A) arranged to face each other with a large clearance (C).

  According to a seventeenth aspect of the present invention, in the metallic decorative part molding die (70) according to any one of the thirteenth to sixteenth aspects, the molding auxiliary mold (71) and the sheet molding mold (72) are brought closest to each other. Further, a clearance (C) larger than the thickness of the metal-molded sheet (10) is interposed between the molding auxiliary mold (71) and the portion of the sheet mold (72) where the metal-shaped decorative part (29) is molded. It has the characteristic in the place comprised in this way.

  According to the eighteenth aspect of the present invention, in the metallic decorative part molding die (70) according to the seventeenth aspect, t + 0.2 [mm] where the thickness of the metallic molded sheet (10) is t and the clearance is C. ] ≦ C ≦ t + 1.0 [mm].

  A nineteenth aspect of the present invention is the metallic decorative part molding die (70) according to any one of the thirteenth to eighteenth aspects of the present invention, wherein a portion of the auxiliary molding die (71) that abuts at least the metallic molded sheet (10). Is made of an olefin-based or urethane-based synthetic rubber.

  According to a twentieth aspect of the present invention, in the metallic decorative part molding die (70) according to any one of the thirteenth to eighteenth aspects, the molding auxiliary mold (71) is made of aluminum or iron and the molding auxiliary mold (71). This is characterized in that surface polishing is applied to at least a portion that contacts the metal-like molded sheet (10).

  A twenty-first aspect of the present invention is the metallic decorative part molding die (70) according to any one of the thirteenth to twentieth aspects, wherein the metallic decorative part (29) in the auxiliary molding die (71) and the sheet molding die (72) is provided. ) And a surrounding wall (75A) for forming a sealed compressed gas filling space (70L) between the auxiliary molding die (71) and the sheet molding die (72), and a gas suction portion ( 73C, 74C, 78, 78P) is characterized in that it has a gas supply part (75C) for supplying compressed gas to the compressed gas filling space (70L) when the gas is sucked.

[Inventions of Claims 1, 12, and 13]
According to the manufacturing method of the metallic decorative component (29) of claim 1 and the metallic decorative component molding die (70) of claim 13, the metallic decorative sheet (10) is entirely formed into a sheet molding die (72). Before the metal mold forming sheet (10) is pressed, a part of the metal-molded sheet (10) is pressed by the molding auxiliary mold (71), and the metal-molded sheet (10) is deformed substantially following the uneven shape of the sheet mold (72). Let At this time, even if the metal tone forming sheet (10) is pressed toward the portion of the sheet forming die (72) where the level of the unevenness changes rapidly, the metal tone forming sheet (10) is entirely formed by the sheet forming die. Since it is before making it closely_contact | adhere to (72), the loose part of the whole metal tone forming sheet (10) or the metal tone forming sheet (10) becomes the part where the level of the unevenness | corrugation in a sheet forming die (72) changes rapidly. It is pushed in and the local plastic deformation of the metallic tone-formed sheet (10) is alleviated. Then, in a state where the metal tone forming sheet (10) is deformed substantially following the concavo-convex shape, the gas between the metal tone forming sheet (10) and the sheet forming die (72) is sucked, and the metal tone forming sheet (10). ) Are in close contact with the sheet mold (72) as a whole, so that the thickness of the metal-molded sheet (10) is prevented from being locally reduced as in the prior art. As a result, even when the metal tone molded sheet (10) is molded into the metal tone decorative part (29), the metal tone gloss can be maintained well.

  Moreover, since the resin-molded product (50) is insert-molded using the metallic decorative component (29) manufactured by the manufacturing method of the metallic decorative component (29) according to the present invention, the metallic decorative component (29) It is possible to maintain the metallic gloss of the surface well (the invention of claim 12).

[Inventions of Claims 2, 3, 14, and 15]
According to the manufacturing method of the metallic decorative component (29) of claim 2 and the metallic decorative component molding die (70) of claim 14, the plurality of pressing portions (80X, 80Y) provided in the auxiliary molding die (71). ) Have different timings for pressing the metal-molded sheet (10), respectively, so that the portion that is relatively difficult to deform is pressed first in the metal-molded sheet (10) and then relatively easy to deform. Can be pressed, and the metal-molded sheet (10) can be distributed substantially evenly to the plurality of uneven portions provided in the sheet mold (72).

  Further, since the outer side of the metallic tone-formed sheet (10) is finally removed from the portion that becomes the metallic tone decorative part (29), the manufacturing method of the metallic tone decorative part (29) according to claim 3 and claim 15 As in the case of using the metal-like decorative part molding die (70), the central part of the metal-like decorative part (29) is pressed according to the shape of the metal-like decorative part (29). By pressing the outer portion, the portion finally removed of the metallic tone-formed sheet (10) is efficiently drawn to the side that becomes the metallic tone decorative part (29), and is prepared for the sheet molding die (72). In addition, the metal-molded sheet (10) can be distributed substantially evenly to the plurality of uneven portions.

[Inventions of Claims 4 and 16]
According to the manufacturing method of the metallic decorative component (29) of claim 4 and the metallic decorative component molding die (70) of claim 16, the guide portion (80A) and the convex portion (73A) in the sheet molding die (72). ) Is placed in the clearance (C) between the metal-formed sheet (10) and the metal-formed sheet (10) is pressed when the pressing portions (80X, 80Y) press the metal-formed sheet (10). It is possible to prevent the protrusion (73A) from floating. Thereby, a metal tone-forming sheet | seat (10) can be deform | transformed in general following the convex part (73A) and the shape of its vicinity.

[Inventions of Claims 5, 6, 17 and 18]
According to the manufacturing method of the metallic decorative component (29) of claim 5 and the metallic decorative component molding die (70) of claim 17, between the molding auxiliary mold (71) and the sheet molding mold (72). By providing the clearance (C), it is possible to prevent the metallic tone forming sheet (10) from being crushed between the auxiliary forming die (71) and the sheet forming die (72). Also, since the clearance (C) is provided, the metal-molded sheet (10) is not sandwiched between the forming auxiliary mold (71) and the sheet forming mold (72). When the gas between the metallic tone forming sheet (10) is sucked, the entire metallic tone forming sheet (10) can be deformed. Here, the clearance (C) is t + 0.2 [mm] ≦ C ≦, where t is the thickness of the metal-molded sheet (10) and C is the clearance, as in the inventions of claims 6 and 18. It is preferable that t + 1.0 [mm].

[Inventions of Claims 7 and 19]
As in the manufacturing method of the metallic decorative component (29) of claim 7 and the metallic decorative component molding die (70) of claim 19, at least the metallic decorative sheet (10) of the auxiliary molding die (71). By forming the abutting part with an olefin-based or urethane-based synthetic rubber, the metal-forming sheet (10) is scratched when the forming auxiliary mold (71) contacts the metal-forming sheet (10). Can be prevented. Further, since the olefin-based or urethane-based synthetic rubber is excellent in heat insulation, it is also possible to prevent heat from escaping from the metal-like molded sheet (10) to the molding auxiliary mold (71).

[Inventions of Claims 8 and 20]
As in the manufacturing method of the metallic decorative component (29) of claim 8 and the metallic decorative component molding die (70) of claim 20, the auxiliary molding die (71) is formed of aluminum or iron and polished. By applying the above, it is possible to prevent the metal-like shaped sheet (10) from being damaged when the auxiliary molding die (71) comes into contact with the metal-like shaped sheet (10). Moreover, it can also prevent that a heat | fever escapes from a metal tone-forming sheet | seat (10) to the shaping | molding auxiliary die (71) by setting the temperature of an auxiliary shaping | molding die (71) to 50-90 degree | times.

[Invention of claim 9]
According to the method for producing a metallic decorative component (29) of claim 9, since the masking film (23) is provided on the surface of the metallic molded sheet (10), the masking film (23) is finally peeled off. Thus, a metallic decorative component (29) having a stable surface decoration can be provided.

[Invention of Claim 10]
According to the manufacturing method of the metallic decorative component (29) of claim 10, the metallic molded sheet (10) is heated and softened in advance, and then the metallic molded sheet (10) is placed on the sheet molding die (72). ) Are arranged opposite to each other, the metal tone-formed sheet (10) can be easily and quickly deformed into a shape generally following the uneven shape of the sheet forming die (72).

[Inventions of Claims 11 and 21]
According to the manufacturing method of the metallic decorative component (29) of claim 11 and the metallic decorative component molding die (70) of claim 20, between the metallic molded sheet (10) and the sheet molding die (72). And by applying a pressure by compressed gas on the opposite side of the sheet mold (72) to the metal-molded sheet (10), it is more reliable than the case where only the gas is sucked. The molded sheet (10) can be brought into close contact with the sheet mold (72).

[First Embodiment]
Hereinafter, an embodiment of the present invention will be described with reference to FIGS. As shown in FIG. 1, the metal-like molded sheet 10 of the present embodiment includes, for example, a thermoplastic resin layer 11, an adhesive layer 12, a metal layer 13, a transparent thermoplastic resin layer 14, and a primer layer 18. And a blue pigment ink layer 15, a transparent weather-resistant ink layer 16, a release layer 22, and a masking film 23.

  The thermoplastic resin layer 11 is made of, for example, an ABS (acrylonitrile-butadiene-styrene resin) film. The thickness of this thermoplastic resin layer 11 is 50-1500 micrometers, for example. An adhesive layer 12 is formed on one surface of the thermoplastic resin layer 11 by applying a urethane or acrylic adhesive to a thickness of, for example, 1 to 20 μm.

  In addition to the ABS, the thermoplastic resin layer 11 may be appropriately changed to a thermoplastic resin such as polyvinyl chloride, polyolefin, polystyrene, polyacryl, polyurethane, polyamide, or polycarbonate.

  The transparent thermoplastic resin layer 14 is made of, for example, a film made of PET (polyethylene terephthalate), and has a thickness of, for example, 25 to 300 μm. Moreover, for example, indium is vapor-deposited so as to have a thickness of 5 to 300 nm on one surface of the front and back surfaces of the transparent thermoplastic resin layer 14, and the metal layer 13 is formed. The layer 13 constitutes a metal vapor deposition film 21. Then, the metal layer 13 side of the metal vapor-deposited film 21 is brought into close contact with the above-described adhesive layer 12, thereby forming a so-called laminate structure in which the metal layer 13 is sandwiched between a pair of thermoplastic resin layers 11 and 14. . Further, a primer layer 18 is formed on the surface of the transparent thermoplastic resin layer 14 opposite to the metal layer 13 by applying a primer for increasing the adhesion strength of the paint.

  The blue pigment ink layer 15 is obtained by screen-printing a commonly used urethane-based or acrylic-based ink containing an industrial blue pigment on the surface of the transparent thermoplastic resin layer 14 provided with the primer layer 18. It is formed with. The weather resistant ink layer 16 is formed by screen-printing a commonly used urethane or acrylic weather resistant ink on the blue pigment ink layer 15.

  Here, each thickness of the blue pigment ink layer 15 and the weather-resistant ink layer 16 is 5 to 8 μm. Therefore, the total thickness of the blue pigment ink layer 15 and the weather-resistant ink layer 16 is 10 It is ˜16 μm. Each thickness of the blue pigment ink layer 15 and the weather-resistant ink layer 16 can be adjusted by the number of meshes of the screen used for screen printing. Specifically, by using a screen of 150 to 350 mesh, the blue pigment ink layer 15 and the weather resistant ink layer 16 having a thickness of 5 to 8 μm can be formed by one screen printing.

  Note that it is preferable to perform screen printing using a 150 to 350 mesh screen depending on the target thickness. Further, the thickness of the blue pigment ink layer 15 and the weather resistant ink layer 16 may be adjusted by performing screen printing a plurality of times.

  The masking film 23 is formed, for example, by forming a polyester resin into a film shape having a thickness of 25 to 300 μm. In addition, one surface of the masking film 23 is subjected to, for example, an etching process, and the release layer 22 is formed by applying an acrylic pressure-sensitive adhesive thereto. The release layer 22 is in close contact with the weather-resistant ink layer 16. Thereby, the masking film 23 can be peeled from the weather-resistant ink layer 16 together with the peeling layer 22.

  An example of a resin molded product manufactured using the metal-like molded sheet 10 configured as described above is an automobile wheel part 50 shown in FIG. The wheel component 50 is formed by integrally forming a plurality of locking claws 53 on a circular base 51. Specifically, as shown in FIG. 3, the circular base 51 is curved so as to gradually swell upward from the peripheral edge toward the center as shown in FIG. 3. The peripheral wall 52 protrudes toward the lower side of 3. The plurality of locking claws 53 project from the lower end of the peripheral wall 52, and these locking claws 53 are inserted into a hole formed at the center of an aluminum wheel (not shown) and fixed.

  On the surface 50 </ b> A of the wheel component 50, a ring portion 54 protrudes upward from its peripheral edge. Further, an emblem portion 55 shaped like a letter “P” (see FIG. 2) is raised upward in the center of the surface 50A. The wheel component 50 is composed of a thermoplastic resin (for example, ABS, modified PPE, PC, PC + ABS, PP, PA, etc.) as a whole, and the metal-molded sheet 10 is used for the entire surface of the circular base 51. Decorated.

  In order to manufacture the wheel part 50, a metal-like decorative part 29 (see FIG. 3) having a three-dimensional structure is formed from the metal-like molded sheet 10, and the wheel part 50 is insert-molded using the metal-like decorative part 29. To do. FIGS. 4 to 9 show a metal tone decorative part molding die 70 for molding the metal tone decorative part 29 from the metal tone molded sheet 10. The metal-like decorative part molding die 70 includes a molding auxiliary die 71 and a sheet molding die 72 arranged so as to be opposed to each other in the vertical direction. Opening and closing of the decorative part molding die 70 are performed.

  The sheet molding die 72 includes a lower base portion 74 and a plurality of molding uneven portions 73 (only one forming uneven portion 73 is shown in FIGS. 4 to 7). The molding uneven part 73 protrudes from the flat upper surface in a flat disk shape. A protruding portion from the upper surface of the lower base 74 in the molding uneven portion 73 corresponds to the circular base 51 of the wheel component 50. Specifically, a ring forming convex part 73 </ b> B for forming the ring part 54 of the wheel component 50 protrudes from the upper surface peripheral part of the forming uneven part 73. Further, at the center of the upper surface of the molding uneven portion 73, an emblem molding convex portion 73 </ b> A having a letter “P” (see FIG. 2) corresponding to the emblem portion 55 of the wheel component 50 protrudes. 4 to 7, the portion surrounded by the upper annular portion in the letter “P” is shown as the first molding concave portion 73X, and the emblem molding convex portion 73A and the ring molding convex portion 73B. The space is shown as the second molding recess 73Y.

  In addition, gas discharge holes 73C are formed at a plurality of predetermined positions in the formed uneven portion 73, and these gas discharge holes 73C communicate with the gas discharge holes 74C formed in the lower base 74, and the gas discharge holes 74C are, for example, It is connected to a suction pump 78 via a pipe 78P.

  The molding auxiliary mold 71 includes an upper base 75 and a plurality of pressing uneven portions 76 (only one pressing uneven portion 76 is shown in FIGS. 4 to 7). The upper base 75 is formed with a downward recess 75 </ b> L having an open lower surface and capable of receiving the molding uneven portion 73. The surrounding wall 75 </ b> A surrounding the downward recess 75 </ b> L can be joined to the periphery of the upper surface of the lower base 74. Further, an O-ring groove 75M is formed on the entire lower surface of the surrounding wall 75A, and an O-ring 75D is attached thereto.

  The pressing uneven portion 76 of the auxiliary forming die 71 is disposed on the upper surface on the back side of the downward recess 75 </ b> L and faces the forming uneven portion 73 of the sheet forming die 72. The pressing uneven portion 76 is made of, for example, an olefin-based or urethane-based synthetic rubber having a JIS A hardness of 30 to 90 degrees, and has a shape in which the unevenness of the formed uneven portion 73 is substantially reversed. Specifically, the first pressing portion 76X protruding toward the first molding recess 73X of the molding uneven portion 73 and the second pressing portion protruding toward the second molding recess 73Y of the molding uneven portion 73. 76Y, and a convex portion receiving portion 76A in which a portion corresponding to the emblem molding convex portion 73A of the molded concave and convex portion 73 is depressed is formed.

Then, as shown in FIG. 6, the upper base 75 of the auxiliary molding die 71 is joined to the lower base 74 of the sheet molding die 72 via the metal-like molded sheet 10, and the metal-like decorative part molding die 70 is closed. In this state, the first and second pressing portions 76X and 76Y of the pressing uneven portion 76 enter the first and second forming concave portions 73X and 73Y of the forming uneven portion 73, and the pressing uneven portion 76 The emblem molding convex portion 73A of the molding concavo-convex portion 73 is received by the convex portion receiving portion 76A. At this time, a clearance C larger than the thickness of the metal-molded sheet 10 is formed between the formed uneven portion 73 and the pressed uneven portion 76 as shown in FIG. More specifically, the clearance C between the formed uneven portion 73 and the pressed uneven portion 76 is a metal-like decorative part molding metal, where t is the total thickness of the metal-like formed sheet 10 including the masking film 23. The dimension C of the clearance C in the mold closing direction (vertical direction in FIG. 8) of the mold 70 is
t + 0.2 [mm] ≦ C ≦ t + 1.0 [mm]
, Is set to be.

  The configuration of the metallic decorative component molding die 70 is as described above, and the metallic decorative component 29 is molded from the metallic molded sheet 10 using the metallic decorative component molding die 70 as follows. With the side of the metal tone forming sheet 10 provided with the masking film 23 facing upward, the edge of the metal tone forming sheet 10 is held by a clamp 77 (see FIG. 4) and held in a substantially horizontal state. In this state, the sheet softening process according to the present invention is performed. That is, both surfaces of the metallic tone-formed sheet 10 are heated and softened by a heater (not shown).

  Subsequently, the sheet | seat arrangement | positioning process which concerns on this invention is performed. That is, as shown in FIG. 4, the metal-like decorative sheet 10 is placed between the auxiliary molding die 71 and the sheet-forming die 72 with the metal-like decorative part molding die 70 in an open state. The clamp 77 is disposed at a position that is laterally disengaged from between the forming auxiliary mold 71 and the sheet forming mold 72. Then, the sheet forming mold 72 is heated, the clamps 77 and 77 are moved downward, and the metal tone forming sheet 10 is pressed against the upper surface of the sheet forming mold 72 as shown in FIG. As a result, the metallic tone forming sheet 10 partially abuts on the upper end portions of the emblem forming convex portion 73A and the ring forming convex portion 73B of the sheet forming die 72, and the emblem forming convex portion 73A and the ring forming convex portion 73B. Between the first and second molding recesses 73X and 73Y,

  In this state, the sheet pressing step according to the present invention is performed. For this purpose, the forming auxiliary mold 71 is lowered toward the sheet forming mold 72. Then, in the process, the first and second pressing portions 76 </ b> X and 76 </ b> Y of the pressing concavo-convex portion 76 in the auxiliary molding die 71 come into contact with the metallic tone forming sheet 10. Then, when the forming auxiliary die 71 is further lowered, the first pressing portion 76X pushes the metal tone forming sheet 10 into the first forming recess 73X of the forming uneven portion 73, and the second pressing portion 76Y becomes the metal tone forming sheet. 10 is pushed into the second molding recess 73 </ b> Y of the molding uneven part 73. At this time, since the entire metal tone forming sheet 10 is not yet in close contact with the sheet forming die 72, the entire metal tone forming sheet 10 is pulled substantially evenly. In particular, the slack portion between the portion in contact with the ring forming convex portion 73 </ b> B and the clamp 77 in the metal tone forming sheet 10 is pulled. Thereby, it can prevent that the part which the 1st and 2nd press part 76X, 76Y contact | abutted among the metal tone-forming sheets 10 deform | transforms locally.

  When the forming auxiliary die 71 is further lowered, the outer portion of the metal forming sheet 10 that becomes the metallic decorative component 29 is sandwiched between the surrounding wall 75A of the forming auxiliary die 71 and the upper peripheral edge of the sheet forming die 72. As a result, the metallic decorative part molding die 70 is closed. At this time, since the pressing uneven portion 76 of the forming auxiliary mold 71 and the forming uneven portion 73 of the sheet forming die 72 are separated via a clearance C larger than the thickness of the metal tone forming sheet 10 as shown in FIG. The metallic tone-formed sheet 10 is not crushed between the pressing unevenness portion 76 and the forming unevenness portion 73, and the metallic tone-forming sheet 10 is not locally rolled. Further, since the pressing uneven portion 76 is made of synthetic rubber, it has higher elasticity than that made of metal and prevents the metal-like molded sheet 10 from being damaged. In addition, since the surface of the metal-like molded sheet 10 is covered with the masking film 23, even if the metal-like molded sheet 10 is damaged, the masking film 23 is peeled off after the metal-like decorative component 29 is completed. Thus, the scratch is removed together with the masking film 23. Further, since the olefin-based or urethane-based synthetic rubber is excellent in heat insulation, it is also possible to prevent heat from escaping from the metallic tone forming sheet 10 to the forming auxiliary mold 71.

  When the metallic decorative part molding die 70 is in the closed state, as shown in FIG. 6, the downward recess 75L of the molding auxiliary mold 71 is closed by the sheet molding mold 72, and the molding auxiliary mold 71 and the sheet molding are formed. A compressed gas filling space 70 </ b> L is formed between the mold 72. In this state, the sheet contact process according to the present invention is performed. For this purpose, the suction pump 78 is activated to suck the gas between the auxiliary molding die 71 and the metallic tone forming sheet 10, and from the gas charge hole 75C formed in the upper base 75 into the compressed gas filling space 70L. Charge with compressed gas. Thereby, as shown in FIG. 7, the metallic tone forming sheet 10 is in close contact with the upper surface of the sheet forming die 72. At this time, since the metal-formed sheet 10 has been deformed in advance in a shape substantially following the irregularities of the sheet-forming mold 72 in the sheet pressing process, the amount of deformation of the metal-formed sheet 10 in the sheet contact process is small. Specifically, in the emblem molding convex portion 73A and the first molding concave portion 73X, which are portions where the level of the unevenness in the sheet molding die 72 changes abruptly, as shown in FIG. In addition, the metallic tone forming sheet 10 is in contact with the upper surface of the emblem forming convex portion 73A and is floating from the inner side surface and the bottom surface of the first forming concave portion 73X. And if a sheet | seat contact | adherence process is performed, as shown in FIG. 9, the metal tone shaping | molding sheet | seat 10 will deform | transform slightly, and will closely_contact | adhere to the inner surface and bottom face of the 1st shaping | molding recessed part 73X. Here, the metallic tone-formed sheet 10 extends relatively freely between the forming auxiliary mold 71 and the sheet forming mold 72 by providing the clearance C between the forming auxiliary mold 71 and the sheet forming mold 72. That is, the wide range of the metal-like molded sheet 10 becomes an extension allowance, and it is possible to prevent the thickness of the metal-like molded sheet 10 from being locally reduced even when the sheet adhesion is high or low.

  When the sheet adhering step is completed, the sheet forming die 72 is cooled, and when the metal tone forming sheet 10 is cured, the metal tone forming sheet 10 is removed from the metal tone decorative part molding die 70. The metal tone forming sheet 10 taken out from the metal tone decorative part molding die 70 has a structure in which a plurality of dome parts 10B corresponding to the metal tone decorative part 29 are raised from the flat part 10A as shown in FIG. ing. And each dome part 10B is cut | disconnected from 10A of flat parts, and the dome part 10B becomes the metallic decoration component 29. FIG. This completes the manufacturing process of the metallic decorative component 29.

  The wheel part 50 is insert-molded using the metallic decorative part 29 manufactured in this way. FIG. 11 shows an injection mold 60 for performing insert molding. The injection mold 60 includes, for example, an upper mold 61, a lower mold 62, and slide molds 66 and 67. On the lower surface of the upper mold 61, an upper mold recess 63 is formed which is depressed corresponding to the shape of the metallic decorative component 29. Further, the lower mold 62 is formed with a hill portion 64 protruding toward the upper mold recess 63, and a pair of slide molds 66 and 67 are arranged opposite to each other so as to sandwich the hill portion 64 from the side. Yes.

  In order to insert-mold the wheel part 50, the injection mold 60 is opened and the metallic decorative part 29 is fitted and fixed to the upper mold recess 63. Then, the injection mold 60 is closed, and the hill part 64 of the lower mold 62 is plunged into the metal-like decorative part 29, and molding with a substantially uniform thickness is performed between the metal-like decorative part 29 and the hill part 64. A space (not shown) is formed, and a pair of slide molds 66 and 67 are abutted on the side surface of the hill portion 64 to form a locking claw forming space 68. In this state, molten resin is filled into the molding space from the gate portion 69 provided in the lower mold 62. The injection mold 60 is opened after the injection mold 60 is cooled and the molten resin is solidified. As a result, as shown in FIGS. 2 and 3, the surface 50 </ b> A of the wheel component 50 is covered with the metal-like molded sheet 10, so that a metal-like decoration is applied, and the manufacturing process of the wheel component 50 is performed. Ends.

  The wheel component 50 is assembled to a wheel (not shown), and, for example, the masking film 23 is peeled off from the metal-molded sheet 10 before a vehicle equipped with the wheel is delivered to the purchaser. In order to peel off the masking film 23 from the metal-like molded sheet 10, for example, the pressure-sensitive adhesive sheet may be pressed after being pressed against the surface 50 </ b> A of the wheel component 50.

  As described above, according to the manufacturing method of the metallic tone decorative part 29 and the metallic tone decorative part molding die 70 of the present embodiment, the molding auxiliary mold is formed before the metallic tone molded sheet 10 is entirely adhered to the sheet molding die 72. 71, a part of the metallic tone forming sheet 10 is pressed to deform the metallic tone forming sheet 10 substantially following the concave and convex shape of the sheet forming die 72. Even if the metal-molded sheet 10 is pressed toward the portion that changes, the overall roughness of the metal-molded sheet 10 or the slack portion of the metal-molded sheet 10 changes rapidly in the unevenness of the sheet mold 72. It is pushed into the part, and local plastic deformation of the metallic tone-formed sheet 10 is alleviated. Then, in a state where the metal tone forming sheet 10 is deformed substantially following the concavo-convex shape, the gas between the metal tone forming sheet 10 and the sheet forming die 72 is sucked, and the metal tone forming sheet 10 is wholly the sheet forming die. Since it adheres to 72, it is prevented that the thickness of the metallic tone-formed sheet 10 is locally reduced as in the prior art. As a result, even when the metal-like molded sheet 10 is molded into the metal-like decorative part 29, it is possible to maintain a good metallic tone gloss. In addition, since the wheel part 50 is insert-molded using the metallic decorative part 29 manufactured in this way, the metallic gloss of the wheel part 50 can be maintained well. Furthermore, since the masking film 23 is provided on the surface of the metal-like molded sheet 10, the metal-like decorative component 29 having a stable surface decoration can be provided by finally peeling the masking film 23.

[Second Embodiment]
This embodiment is shown in FIG. 12 to FIG. 17, and the configuration of the pressing uneven portion 80 provided in the forming auxiliary mold 71 is different from the pressing uneven portion 76 provided in the forming auxiliary mold 71 of the first embodiment. . Hereinafter, only the configuration different from that of the first embodiment will be described, and the same configuration as that of the first embodiment will be denoted by the same reference numerals and redundant description will be omitted.

  As shown in FIG. 12, the pressing uneven portion 80 provided in the auxiliary molding die 71 of the present embodiment is a fixed portion 80Z fixed to the upper base 75 and a first moving in the vertical direction relative to the fixed portion 80Z. The first and second pressing portions 80X and 80Y are provided. The lower end portion of the first pressing portion 80X has the same shape as the first pressing portion 76X of the first embodiment, and faces the first molding concave portion 73X provided in the sheet molding die 72. For example, a linear motion rod of the first hydraulic cylinder 81 is connected to the upper end portion of the first pressing portion 80X.

  Further, the lower end portion of the second pressing portion 80Y has the same shape as the second pressing portion 76Y of the first embodiment, and faces the second forming recess 73Y provided in the sheet forming die 72. For example, a direct acting rod of the second hydraulic cylinder 82 is connected to the upper end of the second pressing portion 80Y. These first and second hydraulic cylinders 81 and 82 are driven at different timings. When the first and second pressing portions 80X and 80Y are moved to the lower end position as shown in FIG. 16 by driving the first and second hydraulic cylinders 81 and 82, the entire lower surface of the pressing uneven portion 80 is moved. The concavo-convex shape of the sheet forming die 72 is generally reversed. Moreover, in this embodiment, the part which opposes the emblem shaping | molding convex part 73A of the sheet | seat shaping | molding die 72 among the fixing | fixed part 80Z is the guide part 80A which concerns on this invention.

  The configuration of the metallic decorative part molding die 70 of the present embodiment is as described above. A method for manufacturing the metallic decorative component 29 for forming the metallic decorative component 29 from the metallic molded sheet 10 using the metallic decorative component molding die 70 will be described below.

  The sheet arrangement process is performed in the same manner as in the first embodiment (see FIGS. 12 and 13). Then, the first and second pressing portions 80X and 80Y of the pressing uneven portion 80 are pulled up above the fixed portion 80Z, the forming auxiliary mold 71 is lowered, and the surrounding wall 75A of the forming auxiliary mold 71 is metal-molded. The sheet is brought into contact with the peripheral edge of the upper surface of the sheet forming mold 72 through the sheet 10. Then, as shown in FIG. 14, the guide portion 80A is arranged at a position via the clearance C between the guide portion 80A and the emblem forming convex portion 73A.

  In this state, the sheet pressing step is performed. In the seed pressing step of this embodiment, first, the first pressing portion 80X is lowered. And as shown in FIG. 15, if the 1st press part 80X moves to the position which opposes via the clearance C between the bottom face of the 1st shaping | molding recessed part 73X, the 1st press part 80X will be stopped, and then Then, the second pressing portion 80Y is lowered. And as shown in FIG. 16, if the 2nd press part 80Y moves to the position which opposes via the clearance C between the bottom face of the 2nd shaping | molding recessed part 73Y, the 2nd press part 80Y will be stopped.

  In this way, the second pressing portion 80Y first presses the metallic tone forming sheet 10 by the second pressing portion 80Y, so that the portion that becomes the central portion of the metallic tone decorative component 29 is pressed first before the outer side thereof. The part will be pressed. As a result, the part of the metal-like molded sheet 10 that is finally removed outside the part that becomes the metal-like decorative part 29 is efficiently pulled toward the side that becomes the metal-like decorative part 29, and the sheet-forming mold 72 The metal tone molded sheet 10 can be distributed substantially evenly to the plurality of uneven portions provided.

  In addition, since the metal tone forming sheet 10 is contained in the clearance C between the guide portion 80A and the emblem forming convex portion 73A of the sheet forming die 72, the first and second pressing portions 80X and 80Y are metal tone forming. When the sheet 10 is pressed, it is possible to prevent the metallic tone forming sheet 10 from floating from the emblem forming convex portion 73A. In addition, when the metallic tone forming sheet 10 is stretched, the metallic tone forming sheet 10 is stretched relatively freely within the clearance C. Thereby, the metal tone-molded sheet 10 can be deformed substantially following the shape of the emblem-shaped convex portion 73A and the vicinity thereof. When the sheet pressing step is completed in this way, the sheet contact step is performed as in the first embodiment (see FIG. 17).

  As described above, according to the manufacturing method of the metallic decorative component 29 and the metallic decorative component molding die 70 of the present embodiment, the first and second pressing portions 80X and 80Y of the auxiliary molding die 71 are the metallic molded sheet 10. By making the timing of pressing different, it becomes possible to press the portion that is relatively difficult to deform first in the metal tone molded sheet 10 and then press the portion that is relatively easy to deform. The metal tone-formed sheet 10 can be distributed substantially evenly to the plurality of uneven portions provided in the above.

[Other Embodiments]
The present invention is not limited to the above-described embodiment. For example, the embodiments described below are also included in the technical scope of the present invention, and various other than the following can be made without departing from the scope of the invention. It can be changed and implemented.

(1) The metallic decorative part molding die 70 according to the first embodiment has a configuration in which the molding auxiliary mold 71 is lowered with respect to the sheet molding mold 72, but the sheet molding mold 72 is changed to the molding auxiliary mold 71. It is good also as a structure which raises with respect to it. In this case, the clamps 77 and 77 holding the metal-forming sheet 10 are maintained at fixed positions so that the metal-forming sheet 10 is pressed against the upper surface of the sheet-forming mold 72 in the ascending process of the sheet-forming mold 72. May be.

(2) In the first embodiment, the forming auxiliary mold 71 is disposed on the upper side and the sheet forming mold 72 is disposed on the lower side. Conversely, the forming auxiliary mold 71 is disposed on the lower side and the sheet forming mold 72 is disposed on the lower side. It may be arranged on the upper side. Furthermore, you may arrange | position so that the shaping | molding auxiliary die 71 and the sheet | seat shaping die 72 may oppose in a horizontal direction.

(3) The pressing uneven portion 76 in the auxiliary molding die 71 of the first embodiment is made of an olefin-based or urethane-based synthetic rubber, but the pressing uneven portion 76 of the auxiliary forming die 71 is made of aluminum or iron. For example, the surface may be polished by # 1000 or more. Also with this configuration, it is possible to prevent the metal tone forming sheet 10 from being damaged when the forming auxiliary die 71 contacts the metal tone forming sheet 10. Moreover, when the press uneven | corrugated | grooved part 76 is formed with aluminum or iron, the temperature of the press uneven | corrugated part 76 is set to 50-90 degree | times, and it prevents that heat escapes from the metal tone-forming sheet 10 to the press uneven | corrugated part 76. Is preferred.

(4) Although the metal tone molded sheet 10 of the first and second embodiments has the masking film 23 on the surface, the metal tone decorative component 29 is molded with the metal tone molded sheet 10 that does not have the masking film 23. May be.

(5) In the sheet contact step in the manufacturing methods of the first and second embodiments, the compressed gas is charged into the compressed gas filling space 70L while sucking the gas between the metal-formed sheet 10 and the sheet mold 72. However, the metal-molded sheet 10 may be brought into close contact with the sheet forming die 72 only by gas suction without charging the compressed gas.

Sectional drawing of the metal tone forming sheet which concerns on 1st Embodiment of this invention Wheel parts perspective view Cross section of wheel parts Sectional view of metallic decorative part molding die in sheet placement process Sectional view of metal mold decorative part mold with metal mold sheet pressed against sheet mold Sectional view of metal-like decorative part molding die in sheet pressing process Cross-sectional view of metal-like decorative part molding die in sheet contact process Partial enlarged cross-sectional view of a metallic decorative part molding die in the sheet pressing process Partial enlarged cross-sectional view of a metallic decorative part molding die in the sheet adhesion process The perspective view in the state where a plurality of dome parts were fabricated in the metal tone molding sheet Sectional view of metal-like decorative parts inserted into an injection mold Sectional drawing of metal tone decorative component molding die of 2nd Embodiment Sectional view of metallic decorative part molding die in sheet placement process Sectional view of a metal-like decorative part molding die with the guide part on the metal-like molded sheet Sectional view of metal-like decorative part molding die in sheet pressing process Sectional view of metal-like decorative part molding die in sheet pressing process Cross-sectional view of metal-like decorative part mold in sheet pressing contact Perspective view of a conventional resin molded product Sectional view of a conventional sheet molding die Sectional view of a conventional sheet molding die

Explanation of symbols

DESCRIPTION OF SYMBOLS 10 Metal-like molded sheet 11,14 Thermoplastic resin layer 13 Metal layer 29 Metal-like decorative part 50 Wheel part 70 Metal-like decorative part molding die 70L Compressed gas filling space 71 Molding auxiliary mold 72 Sheet molding die 73 Molding uneven part 73A Emblem Molding convex part 73B Ring molding convex part 73C, 74C Gas discharge hole (gas suction part)
75A Enclosure 75C Gas charge hole (gas charge part)
76X, 80X 1st press part 76Y, 80Y 2nd press part 78 Suction pump (gas suction part)
78P pipe (gas suction part)
80A Guide part C Clearance

Claims (21)

A metal-like molded sheet (10) comprising a plurality of laminated thermoplastic resin layers (11, 14) and a metal layer (13) is brought into close contact with a heated sheet molding die (72) to form a three-dimensional structure. In the method for producing a metal-like decorative part (29) to be molded into the metal-like decorative part (29),
A sheet disposing step of opposingly disposing the metal-molded sheet (10) on the sheet mold (72);
A part of the metal-molded sheet (10) is pressed toward the sheet-molding mold (72) by the molding auxiliary mold (71), and the metal-molded sheet (10) is uneven in the sheet-molding mold (72). A sheet pressing step for deforming generally following the shape;
The gas between the metal-formed sheet (10) and the sheet-forming mold (72) in a state in which the metal-formed sheet (10) is deformed substantially following the uneven shape of the sheet-forming mold (72). A method for producing a metallic decorative component (29), wherein a sheet adhering step of sucking the metal-adjusted sheet (10) into close contact with the sheet forming die (72) is performed.   A plurality of pressing portions (80X, 80Y) are provided in the forming auxiliary mold (71), and the timing of pressing the metal tone forming sheet (10) by the pressing portions (80X, 80Y) is different. A method for producing a metallic decorative component (29) according to claim 1.   The plurality of pressing portions (80X, 80Y) are the portions that become the central portion after first pressing the portion that becomes the central portion of the metallic decorative component (29) in the metallic tone forming sheet (10). 3. The method for producing a metallic decorative part (29) according to claim 2, wherein the outer part of the metallic part is pressed.   A guide portion (80A) is provided next to the pressing portion (80X, 80Y) in the forming auxiliary die (71), and in the sheet pressing step, the guide portion (80A) is moved to the sheet forming die ( 72) with respect to the convex part (73A) provided in 72), after being arranged at a position through a clearance (C) larger than the thickness of the metal tone forming sheet (10), the pressing part (80X, 80Y) The method for producing a metallic decorative part (29) according to claim 2 or 3, wherein the metallic molded sheet (10) is pressed.   When the forming auxiliary mold (71) and the sheet forming mold (72) are brought closest to each other, the metallic decorative component (29) in the forming auxiliary mold (71) and the sheet forming mold (72) is formed. 5. A method for producing a metallic decorative component (29) according to any one of claims 1 to 4, characterized in that a clearance (C) larger than the thickness of the metallic tone forming sheet (10) is interposed between the portions. . When the thickness of the metal-like molded sheet (10) is t and the clearance is C,
t + 0.2 [mm] ≦ C ≦ t + 1.0 [mm]
The method for producing a metallic decorative part (29) according to claim 5, characterized in that:   7. The molding auxiliary die according to claim 1, wherein at least a portion in contact with the metallic tone forming sheet is formed of an olefin-based or urethane-based synthetic rubber. Manufacturing method for metallic decorative parts (29).   The forming auxiliary mold (71) is formed of aluminum or iron, and at least a portion that comes into contact with the metallic tone forming sheet (10) is polished, and the temperature of the forming auxiliary mold (71) is set to 50. It sets to -90 degree | times, The manufacturing method of the metallic tone decoration component (29) in any one of Claim 1 thru | or 6 characterized by the above-mentioned.   A method for producing a metallic decorative part (29) according to any one of claims 1 to 8, wherein a peelable masking film (23) is laminated on the surface of the metallic decorative part (29). .   The metallic decorative component (29) according to any one of claims 1 to 9, wherein a sheet softening step of heating and softening the metallic tone-formed sheet (10) is performed before the sheet arranging step. Manufacturing method.   In the sheet adhering step, gas between the metal-formed sheet (10) and the sheet-molding mold (72) is sucked, and the sheet-forming mold (72) with respect to the metal-formed sheet (10). The metal according to any one of claims 1 to 10, wherein a pressure by a compressed gas is applied to a side opposite to the metal forming sheet (10) to closely contact the sheet forming mold (72). A manufacturing method of the decorative component (29).   A resin-molded product (50) is insert-molded using the metal-like decorative part (29) produced by the method for producing a metallic-like decorative part (29) according to any one of claims 1 to 11. A method for producing a resin molded product (50). Metal for molding a metal-like molded sheet (10) comprising a plurality of thermoplastic resin layers (11, 14) and a metal layer (13) laminated into a three-dimensional metal-like decorative part (29) In the decorative part molding die (70),
A sheet molding die (72) shaped from the metallic decorative part (29);
A part of the metallic tone forming sheet (10) laid on the sheet forming die (72) is pressed toward the sheet forming die (72), and the metallic tone forming sheet (10) is formed into the sheet. A molding auxiliary mold (71) for generally following and deforming the concave-convex shape of the mold (72);
In a state where the metal-like shaped sheet (10) is deformed substantially following the uneven shape of the sheet-shaped mold (72), the gas between the metal-like shaped sheet (10) and the sheet-shaped mold (72) is discharged. A metallic decorative part molding die (70), comprising a gas suction part (73C, 74C, 78, 78P) for suctioning.   The metal according to claim 13, wherein the forming auxiliary mold (71) is provided with a plurality of pressing portions (80X, 80Y) for pressing the metal tone forming sheet (10) at different timings. Decorative decorative part mold (70).   The plurality of pressing portions (80X, 80Y) press the portion that becomes the central portion of the metallic tone decorative component (29) in the metallic tone forming sheet (10), and then the outside of the portion that becomes the central portion. 15. Metallic decorative part mold (70) according to claim 14, characterized in that it is configured to press the part.   Of the auxiliary molding die (71), it is provided next to the pressing portion (80X, 80Y), and before the pressing portion (80X, 80Y) presses the metallic tone forming sheet (10), the sheet forming A guide portion (80A) disposed opposite to the tip of the convex portion (73A) provided in the mold (72) via a clearance (C) larger than the thickness of the metal-like molded sheet (10). Metallic decorative part mold (70) according to claim 14 or 15, characterized in that   When the forming auxiliary mold (71) and the sheet forming mold (72) are brought closest to each other, the metallic decorative component (29) in the forming auxiliary mold (71) and the sheet forming mold (72) is formed. The metallic decorative part molding metal according to any one of claims 13 to 16, wherein a clearance (C) larger than the thickness of the metallic tone forming sheet (10) is interposed between the portions. Mold (70). When the thickness of the metal-like molded sheet (10) is t and the clearance is C,
t + 0.2 [mm] ≦ C ≦ t + 1.0 [mm]
18. Metallic decorative part molding die (70) according to claim 17, characterized in that   19. The molding auxiliary die (71), wherein at least a portion in contact with the metallic tone forming sheet (10) is formed of an olefin-based or urethane-based synthetic rubber. Metallic decorative part mold (70).   The said auxiliary shaping | molding die (71) is formed with aluminum or iron, and surface polishing was given to the part which contact | abuts at least the said metallic tone shaping | molding sheet | seat (10) of the said auxiliary shaping die (71). A metallic decorative part molding die (70) according to any one of items 18 to 18. Surrounding a portion of the forming auxiliary mold (71) and the sheet forming mold (72) where the metallic decorative part (29) is formed and between the forming auxiliary mold (71) and the sheet forming mold (72). A surrounding wall (75A) for forming a sealed compressed gas filling space (70L);
A gas supply unit (75C) for supplying compressed gas to the compressed gas filling space (70L) when the gas suction unit (73C, 74C, 78, 78P) sucks gas. 21. A metallic decorative part molding die (70) according to any one of claims 13 to 20.