JPS59176017A - Adhering method of film - Google Patents

Abstract

PURPOSE:To weld firmly a film positioned at an overlapped part by high frequency without using a core material, by electrifying a high-frequency current between a high-frequency oscillating die and the following conductive material after the flexible conducting material has been provided between an overlapped part of a thermoplastic film and an insulator. CONSTITUTION:Conducting material 13 having flexibility such as metal foil and a thin wire is provided between an overlapped part 14c of one side ends of thermoplastic films 14a, 14b which are to be sticked each other and an insulator 12 consisting of foamed rubber and foamed synthetic resin. Then the films are sticked to the outer skins of various components easily without necessitating a supporting stand and a core material, by making high-frequency welding of thermoplastic films 14a and 14b positioned at an overlapped part 14c by applying a high-frequency current from a high-frequency oscillating source 16 to a space between a high-frequency oscillating die 15 provided so as to pinch the foregoing overlapped part 14c and the foregoing flexible conducting material 13.

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention provides interior parts for automobiles, such as the outer skin of a headrest, the outer skin of a seat, etc.
In a product in which an insulating material such as a fiber layer is interposed, and a synthetic resin covering piece or other covering film is attached to the surface of the insulating material.

The present invention relates to a method of laminating the thin film.

Conventionally, when bonding a thin film such as the above-mentioned synthetic resin covering piece, a thermoplastic resin having a large dielectric power factor, such as PVA resin, has been used as the material for the film.

Polyvinylidene chloride or the like is used, and depending on the application, acetate film, nylon film, etc. are used, and the polymerized portions of these films are fixed by thermal welding using a high-frequency welder. FIG. 1 shows an example of the above-mentioned conventional bonding method. In the figure, 1 is a metal support stand, and a thermoplastic film 3a is applied at 3°C to the upper surface of an insulator 2 mounted on the support stand 1. In order to weld the overlapping portion 3c, a high frequency current is caused to flow from a high frequency oscillation source 5 between the high frequency oscillation die 4 pressed from above and the support base 1.

This high-frequency current causes the polymerized portions 30 of the thermoplastic films 3a, 3b to generate heat, and the film materials are melted and bonded. In the conventional example described above, it is desirable that the thicknesses of the thermoplastic films 3a and 3b be approximately the same in order to limit the heat generating portions.

However, in such a conventional film bonding method, the thickness of the insulator 2 interposed between the high frequency oscillation die 4 and the support base 1 becomes large, resulting in an insulator 2a as shown in FIG. In this case, there is a problem that thermal welding of the films 3a and 3b cannot be carried out. This is because the heating point f located approximately in the middle between the support base 1 and the high frequency oscillation die 4 is
Since it is located inside the insulator 2a, not only does the polymerized portion 30 of the film not generate heat, but also the insulator 2a
If a foamed material or the like is used as the material, this may result in destruction of the foamed material. In particular, when a thermoplastic sponge material such as vinyl, urethane, styrene, etc. is used as the foam material, it will induce a thermal melting phenomenon during the high-frequency bathing process, and the insulator 2a will eventually break off. As a result, it is not possible to use a material with a large wall thickness. However, depending on the application, it may be necessary to use foamed rubber, foamed synthetic resin, rag, paper, cardboard, synthetic resin panels, etc. as the insulator 2a. It has the disadvantage that it cannot be used.

The object of the present invention is to provide a method which eliminates the drawbacks of the conventional film bonding methods described above and which allows a film to be easily drawn into an adhesive structure no matter what kind of insulator is used. The gist is that after providing a flexible conductive material between the overlapping part of the film and the insulator, a gastric frequency current is passed between the flexible conductive material and a high frequency oscillation die placed to sandwich the overlapping part. Another object of the present invention is to provide a method for adhering films, which is characterized by high-frequency welding of films located at polymerized parts.

A detailed explanation of the film adhesion method according to the present invention will be given below. That is, in FIG. 3, 12 indicates an insulator, which is made of foamed rubber, foamed synthetic resin, etc.
Moreover, it has an appropriate thickness.

13 is a flexible conductive material, and a thermoplastic film 14a
and 141), and has approximately the same area as the overlapping portion 140 of the lower film 14.1) and the insulator 1.
It is located between the two. In addition, the flexible conductive phase 13 extends over the insulator [2] so as to correspond to the length of the overlapping portion 14Q. Alternatively, the thermoplastic film 14b may be bonded in advance to the back surface of the end portion of the thermoplastic film 14b. As for the material of the flexible conductive material (3), metal foil, Il, IB wire, 7!4 Kishika, etc. can be used. Aluminum foil is a metal foil.

It is sufficient to use a copper film or the like, and it is a historical document that a single-sided or double-sided adhesive is applied to the metal foil for adhesion. A large number of thin copper wires are used as the thin wires and are similarly bonded to predetermined positions. 44 paints include acrylic resin, nickel,
Make a paint composition sprinkled with silver or other gold JF41B and apply it to designated areas. In this way, the flexible conductive material J3 is provided, and the thermoplastic films 14a, J3 are provided on the flexible conductive material.
After overlapping the overlapping portions 140 of the ibs, a high frequency current is applied from a high frequency oscillation source [6 to the overlapping portions 14Q between the high frequency oscillation die 15 arranged to sandwich the overlapping portions and the flexible conductive material 13. Thermoplastic film located1.
By high-frequency welding 4a and 1,4b, the adhesion of the film is completed.

In the above method, the insulator 12 may be a cloth, a fiber layer, paper, cardboard, a synthetic resin panel, etc. other than the foamed rubber or foamed synthetic anti-greasing material, and is appropriately selected depending on the material to which it is applied. be able to. At that time, in order to increase the bonding strength of the flexible adhesive such as aluminum foil, the adhesive is applied from both sides of the aluminum foil to firmly adhere to both the insulator and the film.
It can be used with any insulator regardless of the material. In addition, the flexible conductive material is placed on the insulator! ! 1. Since it is set up,
It goes without saying that the contact with the same wave oscillation source does not have to penetrate through the insulator 12 as shown in the figure, and the connection point can be taken out from any part of the extended portion.

As explained in detail above, the film bonding method according to the present invention requires a metal support or core material when polymerizing and bonding the synthetic resin plate covering pieces that constitute the outer skin of various members. It has the feature that it can be bonded without any interference and even if it becomes thick with inclusions such as insulators. Adhesion can be positioned on the heavy part of the film, so there is no need to heat other parts, and a strong bond is possible without changing the physical properties. 'If dark paint is used, it can be used even if the adhesion position is bent or changed, and when a flexible conductive material is fixed with adhesive tape, etc., the flexible conductive material can be Since the film can be mounted while positioning the overlapping portion, workability is also improved. Therefore, the attachment of the outer skin of a headrest or seat as an interior part of an automobile can also be applied to the manufacture of several synthetic leather products, belts with core materials, or heat insulation protector covers, and has a wide range of applications. have

[Brief explanation of the drawing]

FIG. 1 is a sectional view showing a conventional film bonding method, FIG. 2 is a sectional view showing another conventional example, and FIG. 3 is a sectional view showing a film bonding method according to the present invention. 12...Insulator, 1:3-flexible conductive material, 14 a,
14 b film, 140... polymerization part, 15...
- High frequency oscillation die, 16... High frequency oscillation source.

Claims (1)

[Claims] (1) In a method of high-frequency bath bonding of a polymerized portion of a thermoplastic film which is cast on an insulator and has a polymerized portion to be layered at one end, the polymerized portion of the thermoplastic film and the insulator are After providing a flexible conductive material, a cylindrical frequency wave is caused to flow between a high frequency oscillation die arranged to sandwich the overlapping portion and the flexible conductive material, so that the thermoplastic film located at the overlapping portion is energized by high frequency. Film adhesion method 6 characterized by welding