JPH019098Y2 - - Google Patents

Description

[Detailed Description of the Invention] [Technical Field of the Invention] The present invention relates to a film-like heat seal connector.

[Technical background of the invention]

A film-type heat-seal connector is made by forming a large number of conductive bands and insulating bands made of heat-activated insulating adhesive on a synthetic resin film, adjacent to each other alternately.This film-type heat-seal connector can be bent freely. Because of its ability to perform Widely used as a connector for connections. Note that this film-like heat-seal connector can be bonded with heat and pressure at the activation temperature of the heat-activated insulating adhesive by bringing its end into contact with the terminal arrangement portion of a display panel, circuit board, etc. The conductive band is adhesively connected to a display panel, a circuit board, etc. with the end of the conductive band brought into close contact with each terminal of the terminal arrangement section.

Figures 1 to 3 show conventionally used film-type heat-seal connectors. In the figures, 1 is a synthetic resin film as a base film, 2 is a conductive band, and 3 is a heat-activated insulator. The conductive band 2, which is an insulating band made of adhesive, is made up of a conductive metal layer 2a and a carbon layer 2b covering the conductive metal layer 2a. Note that some film-type heat-seal connectors have a conductive band made of only a carbon layer, but these film-type heat-seal connectors have a high resistance value in the conductive band and a large power loss in the connector, so they are generally not used. As described above, the conductive band 2 is formed of the conductive metal layer 2a and the carbon layer 2b covering it, and the resistance value of the conductive band is reduced. The conductive band 2 is formed by printing a conductive metal paste (mainly silver paste) on the synthetic resin film 1 by screen printing to form a strip-shaped conductive metal layer 2a having a length spanning the entire length of the synthetic resin film 1; The carbon layer 2b is formed by screen-printing a carbon paint on the carbon layer 2b, and the insulating layer 3 is formed by screen-printing a thermally activated insulating adhesive.

[Problems with background technology]

However, the above-mentioned conventional film-type heat seal connector had the following drawbacks because the end surface of the conductive metal layer 2a of the conductive band 2 was exposed at the end surface of the connector as shown in FIG. . That is, the film-like heat-seal connector is connected to the terminal arrangement part of a display panel, circuit board, etc. by bonding the upper end of the insulating band 3 made of the heat-activated insulating adhesive to the terminal arrangement part. In the conventional film-like heat seal connector, the end face of the conductive metal layer 2a of the conductive band 2 is exposed, so the end face of the conductive metal layer 2a comes into direct contact with the air and is exposed to moisture (moisture) in the air. It turns out.
Since the conductive metal layer 2a is mainly formed of a metal such as silver that causes a chemical reaction due to the action of moisture when energized in a humid atmosphere, the end surface of the conductive metal layer 2a is When a current flows through the conductive metal layer 2a while it is exposed to moisture, migration (migration phenomenon) occurs on the end face of the conductive metal layer 2a, causing the end face of the conductive metal layer 2a to repeat energization. As a result, it gradually spreads to the surrounding area, and eventually the conductive metal layers 2a, 2a of the conductive bands 2, 2 adjacent to each other with the insulating band 3 in between become short-circuited at the end face of the connector. Therefore, the above-mentioned conventional film-type heat-seal connectors have a problem of short lifespan.

[Purpose of invention]

The present invention was developed in view of the above-mentioned circumstances, and its purpose is to prevent the end face of the conductive metal layer of the conductive band from coming into direct contact with air, and to prevent the end face of the conductive metal layer of the conductive band from coming into direct contact with air. To provide a film-like heat-sealed connector which prevents migration due to the action of moisture inside, prevents short circuit between conductive metal layers due to migration, and has a long service life.

[Key points of the idea]

That is, in the present invention, by covering at least the end face of the conductive metal layer of the conductive band with an end face coating layer made of a substance that does not cause migration, the end face of the conductive metal layer is prevented from being exposed to moisture in the air. This is to prevent migration from occurring.

[Example of idea]

An embodiment of the present invention will be described below with reference to the drawings.

4 to 6, 1 is a synthetic resin film, 2 and 3 are conductive bands and insulating bands formed alternately adjacent to each other on the synthetic resin film 1, and the conductive bands 2 is a conductive metal layer 2a formed by screen printing a silver paste on the synthetic resin film 1, and a carbon paint or carbon adhesive (heat activated adhesive) on top of the conductive metal layer 2a.
and a carbon layer 2b formed by screen printing, and the insulating band 3
The lower insulating adhesive layer 3a is formed by printing a heat-activated insulating adhesive on the synthetic resin film 1 by screen printing, and the lower insulating adhesive layer 3a is formed by printing the heat-activated insulating adhesive on the synthetic resin film 1 by screen printing. It has a two-layer structure consisting of the formed upper insulating adhesive layer 3b. The conductive band 2 has a length such that both end surfaces thereof are located slightly inside of both end edges of the synthetic resin film 1, and both end surfaces of the conductive band 2 are located on the synthetic resin film 1. It is covered with an edge covering layer 4 of a non-migration material, for example a heat-activated insulating adhesive, printed by screen printing. The heat-activated insulating adhesive forming this end-face covering layer 4 is the same as the heat-activating insulating adhesive forming the above-mentioned insulating band 3; It has a two-layer structure consisting of a lower insulating adhesive layer 4a and an upper insulating adhesive layer 4b, and the outer end surface of this end face covering layer 4 is flush with the end surfaces of the synthetic resin film 1 and the insulating band 3. .

Next, a method for manufacturing the film-shaped heat seal connector of the above embodiment will be explained. First, a thermally activated insulating adhesive is printed on the synthetic resin film 1 by screen printing to form the insulating band 3 and the lower insulating adhesive layers 3a and 4a of the end surface coating layer 4 as shown in FIG. do. Next, after drying the heat-activated insulating adhesive, a silver paste is printed on the synthetic resin film 1 in a portion surrounded by the lower insulating adhesive layers 3a and 4a by screen printing,
The conductive metal layer 2a of the conductive band 2 is formed as shown in FIG. Note that in FIG. 8, the conductive metal layer 2a is shaded for convenience. After this, carbon paint or carbon adhesive is first printed on each of the conductive metal layers 2a, 2a by screen printing to form a carbon layer 2b, which becomes the upper layer of the conductive band 2.
2b is formed as shown in FIG. 9, and after drying, a heat-activated insulating adhesive is printed on the lower insulating adhesive layers 3a, 4a by screen printing to form the insulating band 3. The upper insulating adhesive layers 3b and 4b of the end face covering layer 4 are formed as shown in FIG. 10, dried and then cut along the cutting line a shown by the dashed line in FIG. 10 to form a film. Complete the seal connector.

Therefore, in the film-like heat seal connector of this embodiment, the end surfaces of the conductive bands 2, 2 are covered with an end surface coating layer 4 made of a heat-activated insulating adhesive. Display panel 5 shown
When a film-like heat-seal connector is heat-pressed to the terminal arrangement portion of a circuit board or the like, the heat-activated insulating adhesive of the end face coating layer 4 is also melted and solidified, and the conductive metal layer 2a of the conductive bands 2, 2 and the carbon are bonded together. layer 2
The end face of b is protected in an airtight state. Therefore, according to this film-like heat-seal connector, the end face of the conductive metal layer 2a of the conductive band 2 is not exposed to moisture in the air by directly touching the air, so that the conductive metal layer of the conductive band 2 is not exposed to moisture when electricity is applied. To prevent short circuit between conductive bands 2 and 2 due to migration caused by the action of moisture in the air on the end face of 2a,
Its lifespan can be maintained for a long time.

Note that in the above embodiment, the conductive metal layer 2 of the conductive band 2
Although the conductive metal layer 2a is made of silver paste, the conductive metal layer 2a may be made of other conductive metals, and these conductive metals undergo migration due to the action of moisture in the air when electricity is applied. Even if the metal is a metal that is likely to cause migration, migration can be prevented in the same manner as described above. Further, in the above embodiment, the insulating band 3 has a two-layer structure, but the insulating band 3 may have a single-layer structure.

Furthermore, in the above embodiment, both the conductive metal layer 2a and the carbon layer 2b of the conductive band 2 are covered by the end face coating layer 4.
However, since the carbon layer 2b does not have the problem of migration, the end face coating layer 4 may cover only the conductive metal layer 2a. That is, FIG. 11 shows another embodiment of the present invention, and the film-like heat seal connector of this embodiment has a conductive metal layer 2 of a conductive band 2.
An end surface coating layer 4 made of a material that does not cause migration, such as a heat-activated insulating adhesive, only on the end surface of a.
The carbon layer 2b is formed over the conductive metal layer 2a and the end face coating layer 4 over the entire length of the connector so as to cover them. Figures 12 and 13 show the manufacturing method of the film-type heat-seal connector of this example. This film-type heat-seal connector is first synthesized in the same manner as in the manufacturing of the film-type heat-seal connector of the previous example. A heat-activated insulating adhesive is screen printed on the resin film 1 to form a lower insulating adhesive layer 3a of the insulating band 3.
After that, a conductive metal layer 2a is formed by screen printing silver paste or the like on a portion of the synthetic resin film 1 surrounded by the lower insulating adhesive layer 3a and the end surface coating layer 4. , screen-print carbon paint or carbon adhesive on the conductive metal layer 2a and the end surface coating layer 4 to form a carbon layer 2b as shown in FIG. After screen-printing a heat-activated insulating adhesive on the insulating adhesive layer 3a to form the upper insulating adhesive layer 3b as shown in FIG. 13, the upper insulating adhesive layer 3b is cut along the cutting line a. manufactured by

In the film-like heat-seal connector of this embodiment, the end face of the conductive metal layer 2a, which may cause migration, is covered with the end face covering layer 4 made of a heat-activated insulating adhesive. As in the example, migration can be prevented from occurring on the end face of the conductive metal layer 2a.

[Effect of idea]

According to the present invention, by preventing the end face of the conductive metal layer of the conductive band from coming into direct contact with air, it is possible to prevent migration from occurring on the end face of the conductive metal layer due to the action of moisture in the air. This prevents short circuits between conductive metal layers due to migration, that is, short circuits between conductive bands, thereby extending the life of the film heat seal connector.

[Brief explanation of the drawing]

Figure 1 is a perspective view of a conventional film-type heat seal connector, and Figures 2 and 3 are A-A in Figure 1.
4 is a perspective view of a film-like heat seal connector showing an embodiment of the present invention, and FIGS. 5 and 6 are enlarged perspective views taken along lines C--B in FIG.
The enlarged perspective views taken along lines C and D-D, and FIGS. 7 to 10 show the process steps for manufacturing the film heat-sealed connector shown in FIGS. 4 to 6 during the manufacturing process. FIG. 11 is a partial perspective view of a film-type heat-seal connector showing another embodiment of the present invention, and FIGS. 12 and 13 are perspective views of a state in the middle of manufacturing, also showing the manufacturing method. It is. 1... Synthetic resin film, 2... Conductive band, 2a
...Conductive metal layer, 2b...Carbon layer, 3...Insulating band, 3a...Lower insulating adhesive layer, 3b...Upper insulating adhesive layer, 4...End surface coating layer, 4a...Lower insulating adhesive Layer 4b...Top insulating adhesive layer 5...
...display panel.

Claims (1)

[Scope of utility model registration request] In a film-like heat-seal connector in which conductive bands made of a conductive metal layer and a carbon layer covering the same and insulating bands made of a heat-activated insulating adhesive are alternately formed on a synthetic resin film, at least A film-like heat seal connector characterized in that the end face of a conductive metal layer is covered with an end face coating layer made of a substance that does not cause migration.