WO2012105665A1 - Housing having layered textile/resin structure and manufacturing method therefor - Google Patents

Abstract

Provided is a device for manufacturing a housing having a layered textile/resin structure, said device being capable of improving the adhesion of a textile layer to a base resin layer and eliminating wrinkles and pattern distortion in the textile layer. Said manufacturing device is provided with a press and an injection-molding machine (20). The press is provided with: a female mold (10) into which a thermocompression-bonded body, consisting of an A-PET sheet (2) thermocompression-bonded to one surface of a textile layer (4), is placed with the textile layer facing outwards; and a male mold (11) that moves towards the fixed mold so as to press the thermocompression-bonded body into the fixed mold in order to mold said thermocompression-bonded body. The injection-molding machine (20) is provided with: a female mold (12) into which the molded thermocompression-bonded body is placed with the textile layer facing outwards; an male injection mold (22) that moves towards the thermocompression-bonded body in the female mold (12); and an injection unit that injects a material that will constitute a base resin layer into the space between the thermocompression-bonded body in the female mold (12) and the male injection mold (22). The A-PET sheet (2) is peeled off after said injected material has solidified.

Description

Textile / resin laminated structure housing and manufacturing apparatus thereof

The present invention relates to a textile / resin laminated housing and a manufacturing apparatus thereof, and more particularly, to a textile / resin laminated housing in which a textile layer is laminated on a base resin layer and a manufacturing apparatus thereof.

In the technical field of housings for electronic devices, home appliances, etc. and housings for automobile interior parts, the housings are often made by resin molding in which a decorative material is laminated on the outer surface. Recently, various types of housings are applied to resin molded housings. Decorative material is an indispensable element for differentiating from other products. In such a situation, some companies can freely select a decorative design of a product by applying various decorative materials to the resin molded housing even for the same product.

As a method for decorating a resin molded housing, there is a technique for painting, transferring, and gravure printing on a resin sheet (see, for example, Patent Document 1), and a decorative material containing fibers (textiles) with excellent decorative properties is used. A resin molded body formed on the surface of a resin container by molding is proposed (for example, see Patent Document 2). In this resin molded body, a base material film and a decorative material made of a textile material bonded to each other are fused to the surface of the object to be decorated. As an example, the decorative material is made of a textile material covered with a base film, and the base material is made of a polyester resin, a polyamide resin such as nylon, a polyolefin resin, a polystyrene resin, or the like.

In addition, as a technique for bonding textile materials as decorating materials to the body to be decorated, the textile materials are stretched over the mold cavity surface, and then molten resin is injected into the cavities to melt into the decorating materials. There is a technique in which a resin is infiltrated and both are laminated and pressure-bonded in a throwing state (see, for example, Patent Document 3).

JP 2000-25168 A JP 2010-36366 A JP-A-2005-471161

However, in the technology of Patent Document 1, the decoration by painting is not only a flat decoration part, but also the volatile organic compound (VOC) used in the painting process causes health damage, In many cases, the paint is easily peeled off from the plastic molded casing, and the decoration by gravure printing is not suitable for individual small-scale production because of the need to prepare a mold roll for each pattern.

In addition, in the technique of Patent Document 2, the base material film covering the textile material is inferior in impact resistance and easily damaged, and the textile material for the object to be decorated is low in resistance at high temperatures during in-mold molding. In order to form a product housing, it is necessary to subject the object to be decorated to which the decorative material has been fused to a further housing processing step.

In the technology of Patent Document 3, the adhesion of the textile material to the material to be decorated is not sufficient, and the low-volume productivity for diversification of products and the versatility of each product are not always taken into consideration. Further, in the technique of Patent Document 3, the textile material is liable to wrinkle or the pattern is distorted when the molten resin is injected under pressure, and the yield during mass production is poor.

The object of the present invention is to provide an apparatus for producing a textile / resin laminated structure housing which can improve the adhesion of the textile layer to the base resin layer and can eliminate the generation of wrinkles and distortion of the pattern of the textile layer. It is an object of the present invention to provide a textile / resin laminated housing having no adhesion to the base resin layer, wrinkles of the textile layer, and distortion of the pattern.

In order to achieve the above object, the textile / resin laminated housing manufacturing apparatus according to claim 1 represents a textile layer thermocompression bonded body having an A-PET sheet thermocompression bonded on one surface. And a movable mold that is moved toward the fixed mold so as to push the received thermocompressed body into the fixed mold to form the thermocompressed body. Another fixed mold for receiving the formed thermocompression bonded body with the textile layer as a surface, and an injection mold that is moved toward the thermocompressed body received in the other fixed mold, An injection unit that injects a raw material of the base resin layer into a space defined by the thermocompression body received in the other fixed mold and the injection mold; and the A-PET sheet is injected Raw material of base resin layer solidified Characterized in that it is peeled off.

An apparatus for manufacturing a textile / resin laminated structure housing according to claim 2, comprising: a stationary mold for receiving a thermocompression body of a textile layer having an A-PET sheet thermocompression bonded on one surface with the textile layer as a front surface; A movable mold that is moved toward the fixed mold so as to push the received thermocompressed body into the fixed mold in order to form the thermocompressed body, and is pressed into the fixed mold. The base resin layer material is injected into a space defined by the injection mold that is moved toward the thermocompression body, the thermocompression body that is received in the other fixed mold, and the injection mold. The A-PET sheet is peeled off after the raw material of the injected base resin layer is solidified.

The textile / resin laminated structure housing according to claim 11 is manufactured by the textile / resin laminated structure housing manufacturing apparatus.

According to the manufacturing apparatus for a textile / resin laminated structure housing according to claim 1 or 2, it is possible to improve the adhesion of the textile layer to the base resin layer, and to eliminate generation of wrinkles in the textile layer and distortion of the pattern.

The textile / resin laminated structure housing according to claim 11 has excellent adhesion of the textile layer to the base resin layer, and does not cause wrinkles of the textile layer or distortion of the pattern.

1 is an external perspective view of a textile / resin laminated structure housing according to an embodiment of the present invention. It is sectional drawing of the textile / resin laminated structure housing which follows the line II-II of FIG. It is a figure used for demonstrating the manufacturing apparatus of the textile / resin laminated structure housing which concerns on embodiment of this invention. It is an external appearance perspective view of the textile / resin laminated structure housing which concerns on other embodiment of this invention. FIG. 5 is a cross-sectional view of the textile / resin laminate housing taken along line VV in FIG. 4. FIG. 5 is a cross-sectional view of the textile / resin laminate housing taken along line VI-VI in FIG. 4.

Hereinafter, the present invention will be described in detail with reference to the drawings.

FIG. 1 is an external perspective view of a textile / resin laminated structure housing according to an embodiment of the present invention.

In FIG. 1, a textile / resin laminated structure housing 1 (hereinafter sometimes simply referred to as “housing 1”) is an upper casing for a remote control device having a reverse boat structure, and two openings 6 are formed at the bottom of the reverse boat structure. Have.

FIG. 2 is a cross-sectional view of the textile / resin laminate housing taken along line II-II in FIG.

The housing 1 includes a textile layer 4 and a base resin layer 5 fixed to the textile layer 4 while infiltrating the gaps between the fibers of the textile layer 4.

The textile layer 4 is made of textile including fiber products such as woven fabric and knitted fabric. Examples of the textile include polyester fabric, knitted fabric, lace, and carbon fiber.

This textile allows various designs to be easily obtained, and the three-dimensional feeling of the fiber fabric appears as it is. Further, the use of the textile has the effect of increasing the strength of the housing 1 in addition to increasing the degree of freedom of design of the housing 1.

The base resin layer 5 is made of a thermoplastic synthetic resin, preferably a synthetic resin for injection molding, and specifically includes ABS (acrylbutyl styrene) resin, PC (polycarbonate) resin, ABS-PC resin, PMMA (polymethacrylate acrylate). ) One material selected from the group of resins (acrylic resins), preferably an ABS resin, and the thickness is arbitrarily set according to the product, and in this embodiment is about 2 mm. The raw material of the base resin layer 5 is heated and melted by an injection molding machine 20 shown in FIG. 3 to be described later. It is injected into a die die 22 shown in FIG. 3 to be described later, which is mounted with the textile layer 4 as a table, and is fixed to the textile layer 4 while infiltrating the gaps between the fibers of the textile layer 4 (FIG. 3). . The base resin layer 5 is more firmly fixed to the textile layer 4 due to the shrinkage of the textile layer 4 and the base resin layer 5 during cooling and solidification.

According to the housing 1 of FIG. 1, since the base resin layer 5 is fixed to the textile layer 4 while infiltrating the gaps between the fibers of the textile layer 4, the textile layer 4 adheres to the base resin layer 5 by the anchor effect. Each fiber of the textile layer 4 can improve the strength of the housing 1 as well as improving the properties. Further, according to the housing 1 of FIG. 1, the pattern on the surface of the housing 1 can be variously selected by changing the textile 4.

1 has an inverted boat structure with the textile layer 4 as the front, but the housing 1 may have an inverted boat structure with the base resin layer 5 as the surface. The use of these housings 1 is not limited to the remote control structure upper casing.

FIG. 3 is a diagram used for explaining a textile / resin laminated housing manufacturing apparatus according to an embodiment of the present invention.

In FIG. 3, steps I and II are performed by a press machine, and steps III and IV are performed by an injection molding machine. Finally, Step V is performed by an appropriate method.

First, a thermocompression body of a textile layer 4 to which an A-PET sheet 2 described later is thermocompression bonded is prepared, and in step I of FIG. The table is placed on the female die 10 (fixed die) of the press machine. This thermocompression bonded body may be cut into a predetermined shape in advance.

A-PET sheet 2 is made of amorphous polyethylene terephthalate. Thereby, when laminating | stacking the A-PET sheet 2 on the textile layer 4, an adhesive agent can be made unnecessary.

Next, in step II, the male die 11 (movable die) of the press machine is pressed so as to push the thermocompression-bonded body of the A-PET sheet 2 and the textile layer 4 placed in step I into the female die 10. Move toward the female mold 10. Thereby, the thermocompression-bonded body of the A-PET sheet 2 and the textile layer 4 is formed into a shape defined by the female mold 10 and the male mold 11, and thereafter, the formed thermocompression-bonded body is taken out from the press machine. . At this time, the periphery of the formed thermocompression bonded body may be deburred by cutting with a laser cutter or a cutting die (cutting unit).

Subsequently, in step III of FIG. 3, the thermocompression bonded body of the A-PET sheet 2 and the textile layer 4 formed by a press machine is placed in the female die 22 (other fixed die) with the textile layer 4 as a table. After mounting, the injection molding male mold 12 (injection molding mold) is moved toward the thermocompression body received in the mold die 22, and the injection hole 20a of the injection molding machine 20 is moved through the injection molding male mold. After pressing against the injection molding hole 12 a of the mold 12, the injection screw 21 is rotated clockwise to define the raw material 31 of the base resin layer 5 in the tank 30 by the thermocompression body and the injection molding male mold 12. Is injected into the space. At this time, the raw material 31 of the base resin layer 5 infiltrates into the gaps between the fibers of the textile layer 4 and the textile layer 4 and the base resin layer 5 are more firmly fixed to each other due to the shrinkage of the textile layer 4 and the base resin layer 5 when the raw material 31 is cooled and solidified. become.

Next, in Step IV, after the raw material 31 of the injection molded base resin layer 5 is cooled and solidified, the injection machine 20 and the injection molded male mold 12 are separated from the female mold 10 and the housing 1 is taken out. .

Finally, the A-PET sheet 2 is peeled off to complete the desired textile / resin laminated structure housing 1.

The female mold 10 and the male mold 11 constitute a press machine, and the female mold 22, the injection molding male mold 12 and the injection machine 20 constitute an injection molding machine. The press machine and the injection molding machine are the housing 1. The manufacturing apparatus is configured. As a modification, the press machine and the injection molding machine may be integrated, and the female die 10 may be used as the female die 22. In this case, the injection molding male mold 12 is moved toward the laminated body of the transparent acrylic sheet layer 2 and the textile layer 4 molded in the female mold 10.

According to the textile / resin laminated housing manufacturing apparatus of FIG. 3, in step III, the raw material 31 of the base resin layer 5 infiltrates into the gaps between the fibers of the textile layer 4, and the textile layer 4 when the raw material 31 is cooled and solidified. In addition to the firmness of the substrate layer 5 and the textile layer 4 being fixed, the manufacturing process of the housing 1 can be simplified and the surface coating process can be omitted. Furthermore, polycarbonate that can be molded only at high temperatures can be used as the material of the base resin layer 5.

In addition, according to the textile / resin laminated housing manufacturing apparatus of FIG. 3, the adhesion of the textile layer 4 having excellent decorativeness to the base resin layer 5 is improved, and the textile layer 4 is formed on the base resin layer 5 during injection molding. Generation of wrinkles and distortion of the pattern can be eliminated.

In the textile / resin laminated housing manufacturing apparatus of FIG. 3, the housing 1 has an inverted boat structure with the textile layer 4 as the front, but the housing 1 may have an inverted boat structure with the base resin layer 5 as the front. Good. The use of these housings 1 is not limited to the upper casing for the remote control device.

FIG. 4 is an external perspective view of a textile / resin laminated structure housing according to another embodiment of the present invention.

In FIG. 4, a textile / resin laminated structure housing 40 (hereinafter sometimes simply referred to as “housing 40”) is a casing having an inverted basin structure, and has one protrusion 41 and one opening at the bottom of the inverted basin structure. 42.

The structure of the housing 40 in FIG. 4 and the manufacturing apparatus thereof are the same as the structure of the housing 1 in FIG. 1 and the manufacturing apparatus thereof, and the same components are denoted by the same reference numerals.

The cross section of the protrusion 41 is shown in FIG. 5 as a cross-sectional view along line VV in FIG. 4, and the cross section of the opening 42 is shown in FIG. 6 as a cross sectional view along line VI-VI in FIG. .

In the embodiment of the present invention and the other embodiments, the textile / resin structure housings 1 and 40 are described as the upper casing for the remote control device. However, as another application technical field of the embodiment of the present invention, Is intended for decorative products by in-mold molding with a surface coating layer. Specifically, miscellaneous goods including containers and stationery, housings for electronic devices and home appliances including mobile phones and laptop computers, buildings, Examples include housings for interior and exterior products of automobiles and interior housings for aircraft.

DESCRIPTION OF SYMBOLS 1 Textile / resin laminated structure housing 2 A-PET sheet 4 Textile layer 5 Base resin layer 6 Opening part 10 Female mold 11 Male mold 12 Injection molding male mold 20 Injection machine 21 Injection screw 22 Female mold 30 Tank 31 Raw material 40 Textile / Resin Laminated Structure Housing 41 Projection 42 Opening

Claims (9)

1. A fixed mold for receiving a textile layer thermocompression bonded body having an A-PET sheet thermocompression bonded on one side with the textile layer as a surface, and the received thermocompression bonded body for forming the thermocompressed body A movable mold that is moved toward the fixed mold so as to push it into the fixed mold, and another fixed mold that receives the molded thermocompression body with the textile layer as a front surface, A space defined by an injection mold that is moved toward the thermocompression body received by the other fixed mold, and a thermocompression body that is received by the other fixed mold and the injection mold. And an injection unit for injecting the raw material of the base resin layer, and the A-PET sheet is peeled off after the injected raw material of the base resin layer is solidified. apparatus.
2. A fixed mold for receiving a textile layer thermocompression bonded body having an A-PET sheet thermocompression bonded on one side with the textile layer as a surface, and the received thermocompression bonded body for forming the thermocompressed body A movable mold that is moved toward the fixed mold so as to be pushed into the fixed mold, an injection mold that is moved toward the thermocompression body pressed into the fixed mold, and An injection unit that injects the raw material of the base resin layer into a space defined by the thermocompression body received in another fixed mold and the injection mold, and the A-PET sheet is injected An apparatus for manufacturing a textile / resin laminated housing, wherein the raw material of the base resin layer is peeled off after solidification.
3. The textile / resin laminated housing manufacturing apparatus according to claim 1 or 2, further comprising a cutting unit for cutting a periphery of the molded thermocompression body.
4. 4. The textile / resin laminated housing manufacturing apparatus according to claim 1, wherein the base resin layer is made of a thermoplastic synthetic resin.
5. 5. The textile / resin laminated housing manufacturing apparatus according to claim 4, wherein the thermoplastic synthetic resin is made of a synthetic resin for injection molding.
6. 6. The textile / resin laminated structure manufacturing apparatus according to claim 5, wherein the synthetic resin for injection molding is made of one material selected from the group consisting of ABS, PC, PMMA, and PC-ABS.
7. 7. The textile / resin laminated housing manufacturing apparatus according to claim 6, wherein the synthetic resin for injection molding is made of ABS or PMMA.
8. The apparatus for manufacturing a textile / resin laminated housing according to any one of claims 1 to 7, wherein the A-PET sheet is made of amorphous polyethylene terephthalate.
9. A textile / resin laminated structure housing manufactured by the textile / resin laminated structure manufacturing apparatus according to claim 1 or 2.

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