JPS6227137A - Adhering mold and adhering method of synthetic resin sheet for which adhering mold is used - Google Patents

Abstract

PURPOSE:To manufacture a product which looks better in view of extermal appearance and is superior in durability by forming a hollowless adhesive line, by making use of a sheetlike adhering mold whose mold holding member and adhesive line forming member 8 are about flush with each other. CONSTITUTION:An adhesive line formation 8 shaped correspondingly to an adhesive line is provided on the surface of a mold holding member 6 composed of a polyester film of an adhering mold 5. The adhering mold 5 is arranged on a cushion member 9 of a high-frequency adhering machine, upon which a work 3 composed of two sheets of vinyl chloride sheets 1, 2 are put. Then when high-frequency voltage is impressed across both an upper and lower electrodes 34, 35 and the work 3 and adhering mold 5 are welded between both the upper and lower electrodes 34, 35 with pressure by making the upper electrode 34 lower, an adhesive part 11 of the vinyl chloride sheets 1, 2 of a part confronting to an adhesive line formation 8 of the adhering mold 5 is heated by high frequency and welded. In this case, as the mold holding member is sunk within the cushion member 9, there is no possibility that a hollow is formed on the bottom of the vinyl chloride sheet 1 through the adhesive line formation 8.

Description

DETAILED DESCRIPTION OF THE INVENTION Purpose of the Invention (Industrial Field of Application) This invention relates to an adhesive type, which is used for sealingly bonding a plurality of synthetic resin sheets in the manufacturing process of synthetic resin products such as air mats. The present invention also relates to a method for bonding synthetic resin sheets using the bonding type.

(Prior Art) Conventionally, a workpiece 30 consisting of a plurality of synthetic resin sheets, for example, two vinyl chloride sheets 31 and 32, as shown in FIG. 6, is attached to an annular adhesive line 37 (see FIG. 5). In the case of producing a sealed synthetic resin product such as an air mat by adhering the adhesive, the adhesive mold 33 is formed into a rectangular frame made of steel with a U-shaped cross section in accordance with the shape of the adhesive line 37,
The adhesive mold 33 is connected to both upper and lower electrodes 34 and 35 of a high frequency adhesive machine.
The workpieces 30 placed between them are overlapped and pressed together by the upper electrode 34 and the lower electrode 35, and the heat generated at the pressed part causes the two vinyl chloride sheets 31.3
2 were glued together in a sealed manner.

(Problems to be Solved by the Invention) However, according to the conventional adhesive type and the adhesive method using the same, as shown in FIG.
Since the adhesive mold 33 is pressed with the adhesive portions 36 of 31 and 32 softened, the thickness of the vinyl chloride sheet 32 on the side that contacts these corners becomes thinner due to both corners of the adhesive mold 33.
When used for a long period of time, the edges of the bonded portion 36 tend to tear due to air pressure, resulting in a problem in that the durability of synthetic resin products such as air mats is reduced. Moreover, the shape of the adhesive mold 33 causes the adhesive line 37 of the workpiece 30 to be depressed, resulting in a problem of poor appearance. Furthermore, if the shape of the bonding line 37 of the workpiece 30 becomes complicated, not only will the configuration of the bonding mold 33 become complicated accordingly, but also high precision is required for the entire contact surface with the workpiece 30, resulting in high manufacturing costs. There was the inconvenience of becoming Furthermore, since the adhesive mold 33 has a frame shape with a large planar area depending on the shape of the adhesive line 37, handling of the adhesive mold 33 is inconvenient, such as requiring a large space for storage.

Structure of the Invention (Means for Solving the Problems) In order to solve the above problems, in the first invention, an adhesive line forming body made of a conductive thin material is provided on a mold support made of a V@edge sheet material. The adhesive mold is formed by providing the adhesive mold. Further, in the second invention, an adhesive mold in which an adhesive line forming body made of a conductive thin material is provided on a mold support made of an insulating sheet material and a workpiece made of a plurality of synthetic resin sheets are overlapped, and both are stacked together. A method is provided in which the adhesive mold and the workpiece are placed between a pair of electrodes to which a high frequency voltage is applied, the adhesive mold and the work are brought into pressure contact with each other, and the synthetic resin sheet corresponding to the adhesive line forming body is internally heated by high frequency to adhere to each other. We are hiring.

(Function) Therefore, in the first invention, a sheet-like adhesive mold in which the mold support and the adhesive line forming body are substantially on the same plane is obtained;
Due to the adhesive line forming body, there is no risk of the surface of the workpiece being depressed when the adhesive mold and the workpiece are pressed together, and even if the adhesive line has a complicated shape, the adhesive mold can be manufactured simply and easily. Moreover, its handling is very convenient.

In addition, in the second invention, using the adhesive mold, it is possible to form a dent-free adhesive line on the surface of the workpiece, so that synthetic resin products such as air mats that have good appearance and excellent durability can be used. It can be manufactured.

(Example) An example of an adhesive mold for manufacturing an air mat and an adhesive method using the same will be described below with reference to FIGS. 1 to 4.

First, the structure of the adhesive mold 5 will be explained. As shown in FIG. 1, the sheet-shaped mold support 6 is made of a polyester film having a thickness of 0.1 to 0.5H. A desired adhesive line 4 (fourth
An adhesive line forming body 8 having a shape corresponding to the above (see figure) is provided. The adhesive line forming body 8 is obtained by printing a pattern on the mold support 6 whose entire surface is copper-plated using a screen on which the same image area as the adhesive line 4 is formed.
It can be formed by etching it to leave a copper plated portion that coincides with the adhesive line 4. Note that the thickness of the adhesive line forming body 8 is approximately 30 to 70 μm.

A method of bonding two sheets of vinyl chloride 1 and 2 using the adhesive mold 5 constructed in this way will be explained with reference to FIGS. 2 and 3.

FIG. 2 shows the configuration of the high-frequency adhesive machine, in which a cushion member 9 made of rubber having an appropriate thickness is fixed to the upper surface of the lower electrode 35, and a polyester film is attached to the lower surface of the upper electrode 34. An insulating sheet 10 of the following is attached. The adhesion work is performed as follows.

First, the adhesive mold 5 is placed on the cushion member 9. Next, two vinyl chloride sheets 1.
A workpiece 3 consisting of two pieces is placed one on top of the other at a predetermined position.

Then, a high frequency voltage is applied between the upper and lower electrodes 34, 35, and the upper electrode 34 is lowered to bring the workpiece 3 and the adhesive mold 5 into pressure contact between the upper and lower electrodes 34, 35.

Then, as shown in FIG. 3, the adhesive portion 11 of the vinyl chloride sheet 1.2 in the portion of the adhesive mold 5 facing the adhesive line forming body 8 is internally heated by high frequency and melted and bonded.

In this case, in the adhesive mold 5, the adhesive line forming body 8 slightly protrudes from the surface of the mold support 6, but due to the pressing force of the upper electrode 34, the mold supporting body 6 near the adhesive line forming body 8 is pushed into the cushion member 9. Therefore, there is no fear that a depression will be formed on the lower surface of the vinyl chloride sheet 1 by the adhesive line forming body 8. Therefore, unlike in the past, the adhesive part 1
The thickness of the vinyl chloride sheet 1.2 at one edge is the same as the thickness at the other parts, and even after long-term use, it does not tear from the edge of the bonded part 11 and has excellent strength and durability.

Furthermore, since the adhesive line is not recessed into the 4M vinyl chloride sheet 1, the appearance is good. In this embodiment, since the insulating sheet 10 is provided on the lower surface of the upper electrode 34, careless adhesion between the upper vinyl chloride sheet 2 and the upper electrode 34 is prevented.

Further, even if the shape of the bonding line 4 of the workpiece 3 is complicated, the bonding line forming body 8 having the complicated shape can be easily formed on the mold support 6 using screen printing, and 5 can be manufactured at low cost.

Furthermore, when the adhesive mold 5 is not in use, it can be rolled up and stored, which eliminates the need for a large space for storage, making it convenient to handle.

Note that the present invention is not limited to the above-mentioned embodiments, and may be modified and embodied as described below.

(1) In the above embodiment, two vinyl chloride sheets 1.2 were bonded together as the workpiece 3, but a plurality of vinyl chloride sheets, such as 3.4 sheets, may be bonded together.

(2) In the above example, two vinyl chloride sheets 1.2 were bonded together as the workpiece 3, but a synthetic resin sheet made of a different material, a plurality of woven sheets made of a plurality of synthetic fibers, or a synthetic resin The sheet and a woven sheet made of synthetic fibers may be bonded together.

(3) The adhesive line forming body 8 of the adhesive mold 5 is not limited to screen printing, but the adhesive line forming body 8 made of a conductive thin material such as copper or brass formed thinly according to the shape of the adhesive line 4 can be formed. It may also be attached to the mold support 6.

(4) As the mold support 6 and the insulating sheet 10, materials with excellent heat resistance and heat storage properties, such as fluorocarbon resin sheets and Empire Cloth (trade name), may be used.

(5) In the above embodiment, rubber was used for the cushion member 9, but a member having appropriate elasticity such as urethane may also be used.

Effects of the Invention As detailed above, according to the first invention, it is possible to obtain a sheet-like adhesive mold in which the mold support and the adhesive line forming body are substantially on the same plane. There is no risk that the surface of the workpiece will thicken due to the adhesive line forming body and the wall thickness becomes thinner when the adhesive line is formed, and even if the adhesive line has a complicated shape, the adhesive mold can be manufactured simply and easily. Its handling is very convenient.

Further, according to the method of the second invention, it is possible to form an adhesive line on the synthetic resin sheet without making a dent using the adhesive mold, so that the air mat etc. have a good appearance and are excellent in durability. It has the excellent effect of being able to produce synthetic resin products.

[Brief explanation of the drawing]

Figure 1 is a sectional view of an adhesive type embodying the present invention;
The figure is a cross-sectional view of the main part showing the state before bonding, FIG. 3 is a cross-sectional view showing an enlarged view of the bonded part, FIG. A perspective view showing a workpiece bonded by the bonding type and bonding method, No. 6
The figure is a cross-sectional view showing a conventional adhesive type and bonding method, and FIG. 7 is an enlarged cross-sectional view showing a bonded part by the conventional adhesive type. Workpiece 3, adhesive line 4, adhesive mold 5, mold support 6, adhesive line forming body 8°

Claims (1)

[Scope of Claims] 1. An adhesive mold characterized in that a mold support (6) made of an insulating sheet material is provided with an adhesive line forming body (8) made of a conductive thin material. 2. The adhesive mold according to claim 1, wherein the mold support (6) is a synthetic resin film such as polyester. 3. The adhesive mold according to claim 1, wherein the adhesive line forming body (8) is made of copper or brass. 4. The adhesive line forming body (8) is attached to the mold support (6)
The adhesive mold according to claim 1 or 3, wherein the adhesive mold is formed using screen printing. 5. An adhesive mold (5) in which an adhesive line forming body (8) made of a conductive thin material is provided on a mold support (6) made of an insulating sheet material, and a workpiece made of a plurality of synthetic resin sheets (
3), and both (5, 3) are placed between a pair of electrodes (35, 34) to which a high frequency voltage is applied, and both electrodes (35, 34) connect the adhesive mold (5) and the workpiece (3). ) are brought into pressure contact with each other, and the synthetic resin sheet corresponding to the adhesive line forming body (8) is internally heated by high frequency to adhere to each other.