JPH01173696A - Laminated circuit board - Google Patents

Abstract

PURPOSE:To surely volatilize and remove a solvent contained in an electrical connection material and/or an insulating material sandwiched between different circuit boards and a secondary product of a hardening reaction by a method wherein a through hole is made in at least one circuit board coming into contact with a conductive paste or an adhesive. CONSTITUTION:Through holes 13 piercing a circuit board are made in parts where evaporating and drying conductive pastes 3 and/or evaporating and drying adhesives are sandwiched inside a laminated circuit board. Accordingly, a volatile component contained in the evaporating and drying conductive pastes 3 and/or the evaporating and drying adhesives is volatilized efficiently through the through holes 13. By this setup, the evaporating and drying conductive pastes 3 and/or the evaporating and drying adhesives can be dried sufficiently even when the area of a connection part is large or the size of the board is large.

Description

[Detailed description of the invention]

Further, the evaporative drying type conductive paste and the thermosetting type conductive paste are originally intended to ensure continuity, but do not have strong adhesive strength like general adhesives. Therefore, more sufficient drying and curing are required to ensure electrical properties and mechanical strength. The present invention solves these problems and provides a laminated circuit board that can reliably volatilize and remove solvents and curing reaction byproducts contained in electrical connection materials and/or insulating materials sandwiched between different circuit boards. The purpose is to provide

[Means to solve the problem]

In order to achieve the above object, the present invention is configured as follows. That is, in the laminated circuit board of the present invention, at least one of the conductive paste that is interposed between two circuit boards and electrically connects different circuit boards, or the adhesive that connects different circuit boards is evaporative drying type or heat-dried type. In a hardening type laminated circuit board, at least one circuit board that is in contact with a conductive paste or a contact cutter is provided with a through hole. As the circuit board to be laminated, a copper-clad circuit board, a composite circuit board, a flexible printed circuit board (FPC), an indium-tin oxide transparent conductive film (ITo) circuit board, etc. can be used. A through hole is formed in at least one of two adjacent circuit boards to be stacked. Therefore, the number of laminated layers of the laminated circuit board is not limited to two, but may be three or more layers. When the conductive paste is used when circuit boards are stacked, the through holes are provided in or near the circuit to which the circuit boards are to be connected. Furthermore, when the adhesive is used as an adhesive or as an adhesive that also serves as an insulator when circuit boards are stacked, the through holes are provided in a portion other than the circuit. The through hole is formed by a method such as drilling or punching. When through-holes are provided on a circuit, their size, shape, and number must not interfere with the function of electrical connection between circuits. The size and number of through holes varies depending on the density of the circuit, but for example, if the electrical connection on the circuit is a terminal with a diameter of 3 mm, there is a hole in the terminal with a diameter of about 0°1 to 0.5 mm. It is preferable to provide several through holes. Examples of the shape of the through holes include circular or angular shapes. Moreover, if the shape is like a notch, even if the circuit board is one that undergoes large dimensional changes due to heat, such as an FPC, it is possible to alleviate distortion caused by thermal contraction or thermal expansion. A conductive paste or adhesive is applied or filled onto a circuit board provided with through holes by screen printing or a dispenser, and then bonded together. Moreover, a sheet adhesive or a double-sided adhesive sheet can also be used as an adhesive layer that also serves as insulation. By heating at a temperature within a range that the circuit board can withstand, the solvent contained in the evaporative conductive paste or the evaporative adhesive is volatilized through the through holes and dried. In addition, when using thermosetting conductive paste or adhesive,
After being applied to a substrate and dried, through-holes are formed in predetermined portions, the layers are laminated, heated and pressed, and then thermally cured for electrical connection and adhesion. At that time, curing reaction byproducts are volatilized and removed from the through holes. In addition, if there is a risk that water, etc. may enter through the through-holes and damage the electrical connections due to the usage conditions of the laminated circuit board, after the conductive paste or adhesive has dried, seal the through-holes with resin or rubber. The circuit board may be stopped, a protective layer may be formed on the surface of the circuit board, or a protective film may be attached. In addition, when the conductive paste fills the inside of the through-hole and extends through the through-hole to the opposite side of the circuit board's electrical connection surface and covers the vicinity of the opening of the through-hole, it acts like a rivet on the circuit board at the same time. It will get caught on both sides. Therefore, since the electrical connection part is pressurized by the volumetric contraction when the conductive paste dries or heats, the connection resistance is reduced and the mechanical strength of the connection part is increased. Similarly, in the case of adhesive, if the adhesive is used to fill the inside of the through hole and pass through the through hole to the surface opposite to the adhesive surface of the circuit board and cover the vicinity of the through hole 4-1, the circuit board may be liberated. It will be pinched from both sides like...). Therefore, the volumetric shrinkage of the adhesive upon drying increases the adhesive strength of the connection portion.

[Effect]

A through hole is provided through the circuit board at the portion of the laminated circuit board where the evaporative conductive paste and/or the evaporative adhesive is sandwiched, so that the evaporative conductive paste and/or the evaporative adhesive are sandwiched. The volatile components contained in the conductive paste and/or the evaporative adhesive are efficiently volatilized through the through holes, and the evaporative conductive paste and/or the evaporative adhesive are sufficiently dried. Particularly, even when the area of the connection part is large or the size of the board is large, it can be sufficiently dried. Since a through hole is provided through the laminated circuit board at the portion where the thermosetting conductive paste and/or thermosetting adhesive is sandwiched, the curing reaction by-products can efficiently pass through the through hole. After volatilization, the thermosetting conductive paste and/or thermosetting adhesive are sufficiently dried. In addition, since the contact area between the circuit and the evaporative conductive paste and/or the evaporative adhesive can be set large,
The adhesive strength between electrical connections and circuit boards is improved, resulting in a laminated circuit board with excellent electrical properties and adhesive strength.

【Example】

An example in which FPC and ITO circuit glass substrates are laminated and electrically connected will be described below with reference to the drawings. FIG. 1 is a cross-sectional view showing an embodiment of the laminated circuit board of the present invention. 1 is FPC12 is ITO circuit glass substrate,
3 is silver paste for circuit connection, 4 is double-sided adhesive sheet, 1
1 is a polyester film, 12 is a silver paste circuit and connection terminal, 13 is a through hole, 21 is glass, 22 is IT
The O circuit and connection terminals are shown respectively. First, a polyester film 11 with a thickness of 50 μm is printed on an FPC.
A predetermined circuit and connection terminals 12 were formed by screen printing using a silver paste of Composition 1 as a base material, and after heating and drying, F'PCI was produced. Further, an etching resist of a predetermined circuit was formed by a screen printing method on an ITO film formed on a 1.1 mm mm glass 21 by a vapor deposition method, and an ITO circuit glass substrate 2 was produced by the etching method. Next, one side of a 12 μm thick polyester double-sided adhesive sheet 4 punched in the shape of a portion of the circuit between the FPCI and the ITO circuit glass substrate 2 to be insulated was adhered to the circuit-forming surface of the FPCI. Next, a through hole 13 with a diameter of 1.0 mm is made in the center of the connection terminal 12 with the ITO circuit glass substrate 2 with a diameter of 3 mm formed in the silver paste circuit of the FPCI.
It was opened from the circuit side until the CI was penetrated. Next, a silver paste 3 for circuit connection having composition 2 was applied in a circular shape of 4 mm in diameter on the connection terminal 22 with F)) C1 formed on the circuit of the ITO circuit glass substrate 2 with a diameter of 4 mm using a screen method. did. At this time, the number of meshes of the screen plate was set to 150 meshes and 1 mesh, and the thickness of the emulsion layer was set to 30 μm so that the dry film thickness of the silver paste 3 was the same as or slightly thicker than the thickness of the double-sided pressure-sensitive adhesive sheet 4. Next, remove the other release paper of the double-sided adhesive sheet 4 adhered to the FPCI, and leave the silver paste 3 in an undried state.
It was adhered to a predetermined position on the O-circuit glass substrate 2. Next, the laminated circuit boards are heated at 80°C for 30 minutes to volatilize the volatile content in the silver paste 3, and the connecting terminals 12
A laminated circuit board was obtained in which the and connecting terminals 22 were electrically connected. Composition 1 (parts by weight) flaky silver powder 65 polyester resin
10 Ethyl carpitol acetate
25 Composition 2 (Parts by weight) Spherical silver powder 65 Polyester resin 10 Butyl carpitol acetate 25 and 1 In place of polyester film 11 in Example 1, a polyimide film was used, and in place of silver paste 3 for circuit connection, silver of composition 3 was used. The FPC 1 and the ITO circuit glass substrate 2 were bonded together using a paste in the same manner as in Example 1 except that the paste was used. Next, the silver base plate was cured by heating the laminated circuit board at 150° C. for 60 minutes. At this time, by-products produced by the curing reaction were volatilized from the through holes to obtain a laminated circuit board in which the connecting terminals 12 and 22 were electrically connected. Composition 3 (parts by weight) Silver powder
80 epoxy resin
10 Butyl carpitol acetate 1
0

【Effect of the invention】

In this invention, at least one circuit board of the laminated circuit board is provided with a through hole, so that the volatile matter contained in the evaporative drying type conductive paste and/or the evaporative drying type adhesive and the ripe hardening type conductive paste are removed. The curing reaction by-products of the paste and/or thermosetting adhesive are efficiently volatilized, and sufficient electrical properties and adhesive strength can be obtained.

[Brief explanation of the drawing]

FIG. 1 is a sectional view showing the implementation P'li of the laminated circuit board of the present invention. 1...FPC22...ITO circuit glass substrate, 3.
...Silver paste for circuit connection, 4...Double-sided adhesive sheet, 11...Polyester film, 12...Silver paste circuit and connection terminal, 13...Through hole, 21...
Glass, 22...170 circuits and connection terminals. Patent applicant Nissha Printing Co., Ltd. 1...FPC 2...ITO circuit strength glass board 3...Silver base for circuit connection 11...Double-sided adhesive sheet 11...Polyester film 12...Silver Paste circuit and connection terminal 13...Through hole 21...Glass 22 ・170 circuit and connection terminal

Claims (3)

[Claims] (1) A laminated circuit board in which at least one of the conductive paste that is interposed between two circuit boards and electrically connects different circuit boards or the adhesive that connects different circuit boards is evaporative drying type or thermosetting type. 1. A laminated circuit board according to claim 1, wherein at least one of the circuit boards in contact with the conductive paste or adhesive is provided with a through hole. (2) The laminated circuit board according to claim 1, wherein the conductive paste fills the inside of the through hole, extends through the through hole to a surface opposite to the electrical connection surface between the circuit boards, and covers the vicinity of the opening of the through hole. . (3) The laminated circuit board according to claim 1, wherein the adhesive fills the inside of the through hole, extends through the through hole to the surface opposite to the adhesive surface between the circuit boards, and covers the vicinity of the opening of the through hole.