JPS595022A - Manufacture of continuous product with plastic sheets unstuck - Google Patents

Abstract

PURPOSE:To obtain polymers of continuous products and complicatd goods easily by a method wherein one of electrode plates facing oppositely between which unstuck sheets are pinched is made conduction unabled that can not be welded by heating. CONSTITUTION:A conductive plate C that is not connected with a positive and negative electrodes, insulators D, D' applied usually for the purpose of hot adhesion, a positive mold electrode plate A having an upper and a lower adhesive surface, a non-conductive E, a negative conductor upper electrode plate B' face each other in opposed manner, are stacked up by turns on a lower electrode plate B. When a voltage, a pressure and heating are applied thereon, the space between the negative conductor upper electrode plate B' and the positive mold electrode plate A is not welded because a non-conductor is interposed therebetween while other portions are welded, thereby obtaining polymer product Y of multiple sets wherein sheet units U<1>-U<5> are made continuous at joined positiones V<1>-V<4>.

Description

[Detailed Description of the Invention] The purpose of the conventional production process using plastic ivy sheets using an internal heat bonding machine is to bond products, and products manufactured using the production method of the present invention are also applicable. Therefore, the present invention is characterized in that the electrode portion that faces (or faces) the plastic sheet other than the adhesive portion exhibits no adhesive force during heat bonding. The details are explained below.

As shown in Figure 1, the conductor plate C1 is stacked one after another on the negative lower electrode plate B and is not connected to the positive and negative electrodes.The insulator D' is used for the purpose of bonding normally during heat bonding. The positive mold electrode plate A, the nonconductor E, and the negative conductor upper electrode plate B', whose surfaces are on the top and bottom (or both), are placed opposite each other, and the bottom electrode plate B and the nonconductor E are placed between any of the opposing surfaces. Sheet unit that requires adhesive at least on the pressurized part)U
When applying pressure and heating so that U is applied, there is a nonconductor E between the negative conductor upper electrode plate B' and the positive mold electrode plate A, so there is no bonding between them and the others are bonded, as shown in Figure 2. The sheet units UUUUU are connected by the bonding positions vl V2 VF V4 to form a large number of sets of polymers Y.

Therefore, even if A B' in Fig. 1 is the same electrode board, B
Even if ′ is an electrode mold that does not connect to the positive and negative electrodes, remove B′ and place it at any part below the nonconductor E (in the direction of A) to avoid contact failure with A with the mold electrode that is not connected to the positive and negative electrodes. J
Even if 4B' is removed and only the nonconductor E is used, a large number of polymers Y shown in FIG. 2 can be obtained by applying pressure and heating using any method.

Therefore, in order to connect the polymer Z of ul C2 and the polymer Z' of C3C4, as shown in FIG.
4, a new polymer Z consisting of a conductor plate C on the inside of U3, an insulator D on the inside of U3, and a sheet unit UIU2 on top of it. Mold A with an adhesive surface on the inside of 2 is used as a positive electrode plate. When a nonconductor E is placed on one side (A' force direction) and stacked on top of the polymer Z Ul, a mold with an adhesive surface is applied as a positive electrode plate A' and pressure is heated. The sheets between AD are not bonded, and the sheets between AD are bonded, resulting in a large number of polymers Y' consisting of the bonding positions vl and v3 and the new bonding position v2, as shown in Fig. 4. In this case, the sheets between AD Already uses a polymer for the adhesive part, but it shows a new adhesive force.A cover sheet GG' with a paper base plate F sandwiched between GG' and a sheet GG' around the outer edge of the paper GG' is heat-bonded. Place H and then seat unit on top of it) U I
When U2 is pressurized and heated, only the pressurized portion of the sheet portion facing the sheet G of the cover H is adhered, as shown in FIG. 6, and connected at adhesive portion position 4. In this case, if the applied pressure and heating time exceeds the time limit, there is a high risk that adhesive marks will be transferred to the sheet G' side.

As mentioned above, by not adhering sheets other than the adhesive part during heat adhesion, it is possible to easily create continuous polymer products and complex products, and even if there are defects in the finished product of the polymer, conventional processing can be performed. However, by using the method of the present invention, this problem can be easily remedied and products with advanced technology that have never been seen before can be developed.

front view of the

A, A'...Positive electrode board B, B'...
Negative electrode board C...conductor plate E...nonconductor,
D'...Insulator ul used during heat bonding,
C2, C3, C4, C5... Sheet unit z,
z'...Polymer Y of the sheet unit, Y'...
- Multiple sets of polymers vl', v2. v3. v4 ... Adhesive part position F ... Cover G, G' ... Sheet patent applicant Masuhiro Mitsuyama 1 distribution [

Claims (1)

[Scope of Claims] 1) An arbitrary number of opposing positive and negative electrode plates, with or without a mold (or conductive plate) attached or not, and with or without polymerization, using an internal heating bonding machine, or between the positive and negative electrode plates. Only an arbitrary number of molds (or conductive plates) that serve as electrodes with no positive or negative connections between them, or
Either an arbitrary number of insulators normally used during heat bonding, or an arbitrary number of insulators used in heat bonding in any combination with a mold (or conductor plate) that serves as an electrode that is not connected to the positive or negative sides,
In either case, the plastic sheet to be bonded is sandwiched between arbitrarily opposing sides, and the plastic sheet sandwiched between arbitrary positive and negative electrode plates is bonded to a commercially acceptable level during application of heat bonding, and the bonding is performed within the bonding time. In order to avoid adhering the plastic sheet on either side of the positive or negative electrode plate to the other side, use this plastic sheet. A manufacturing method that does not require bonding of plastic sheets, characterized by creating a heated, non-conductive state in which bonding is impossible between electrode plates facing each other with a gap between them. 11. A method of manufacturing a plastic sheet without adhesion as claimed in claim 1, characterized in that the plastic sheet is made into a non-conductor that can be used as a non-conductor. 2. A manufacturing method without bonding a plastic sheet according to claim 1, characterized in that, even in electrode molds that are not connected negatively, a nonconductor that cannot be heat bonded is interposed between the opposing electrode molds.