JPS62272291A - Mounting of display panel - Google Patents

Abstract

(57) [Summary] This bulletin contains application data before electronic filing, so abstract data is not recorded.

Description

[Detailed Description of the Invention] 3. Detailed Description of the Invention [Summary] As a method for mounting a display panel that has excellent vibration resistance and is easy to remove, a plurality of synthetic rubber suction cups are attached to the back surface of the display panel. The mounting method involves inserting and fixing the printed wiring board into a fixing hole that has been prepared in advance on the printed wiring board.

[Industrial application field]

The present invention relates to a display panel mounting method with improved vibration resistance and maintainability.

BACKGROUND OF THE INVENTION Due to the need to process large amounts of information at high speed, information processing devices have made remarkable progress, and various display devices have been put into practical use as peripherals and terminal devices.

Among them, glass plates are transparent and flat, such as in plasma display devices and liquid crystal display devices.

It is generally used as a display panel substrate by patterning electrodes made of a transparent metal film on its inner surface, taking advantage of its excellent chemical resistance and its ability to be made into a large area at low cost.

[Conventional technology]

Although glass is suitable as a substrate for display panels as described above, it has the disadvantage of being easily broken.

That is, the disadvantage is that mechanical properties such as vibration resistance and impact resistance are inferior.

Therefore, when mounting a glass display panel as a display device, a special mounting structure is required.

Initially, when the display panel was small, a hole was made in the edge of the glass substrate and a rubber cushioning material (damper) was used to screw it onto the wiring board, but as the display panel became larger. However, as shown in FIG. 4, the end of the display panel 2 is fixed to the metal plate 3 using a plurality of fasteners 1, as shown in FIG. 4. .

However, as the display panel 2 increases in size and weight, fixing only the ends cannot withstand mechanical stress such as vibration resistance and shock resistance.

Therefore, as shown in FIG. 3, many places employ a method of adhesively fixing the display panel 2 to the printed wiring board 5 using double-sided adhesive tape 4 or an adhesive.

Circuit connection is performed by soldering the electrode terminals provided around the display panel 2 to the electrode terminal portions provided on the printed wiring board 5 using lead wires.

This method has the advantage that electronic components 6 such as ICs can be mounted around the printed wiring board on which the display panel 2 is mounted, as shown in the figure.

Furthermore, since the adhesive is bonded over the entire surface of the substrate, sufficient strength can be maintained against mechanical stress.

However, when repairing initial defects or failures of the display panel, it is not easy to separate the display panel 2 from the printed wiring board 5, which often leads to destruction of either the display panel 2, the printed wiring board 5, or both.

Therefore, there has been a demand for a new fixing method that allows display panels to be separated while maintaining sufficient strength against mechanical stress.

[Problem that the invention seeks to solve]

As mentioned above, since display panels are constructed using glass substrates, there is a problem that they are vulnerable to vibrations, shocks, etc. However, there is a method that can fix display panels with sufficient strength while still being removable. The challenge is to find out.

Measures for Solving Problems] The above problem is solved by a display panel in which two glass substrates each having a striped electrode pattern are placed facing each other to form a matrix of electrodes, with a display medium interposed between them. As a method of attaching the display panel to a printed wiring board that drives the display panel, a suction cup is positioned on the back side of the display panel and the suction cup is sucked, and then the suction cup is inserted into a plurality of fixing holes provided in advance on the printed wiring board. However, this problem can be solved by a fixed display panel mounting method.

[Effect]

The present invention uses a suction cup made of synthetic rubber to suction a display panel to a printed wiring board.

Both FIGS. 1 and 2 are cross-sectional views showing embodiments of the present invention, including printed layouts, v! A fixing hole 8 for fixing the suction cup is provided on the substrate 7, and the fixing position of the suction cup 9 is marked on the adhesive surface of the display panel 2, and after the suction cup is attached to this position, The stem 10 is inserted into the fixing hole 8 of the printed wiring board 7 and fixed by soldering to a metal part that has been previously formed in the fixing hole by electroless plating or the like.

Here, the advantage of using the suction cup 9 is that it is made of synthetic rubber, which has a shock absorbing effect and is vibration resistant.

It has excellent mechanical properties such as impact resistance, and can be separated if necessary.

On the other hand, the drawback is that air gradually penetrates into the suction cup, which has been reduced to a vacuum state by pressurization, weakening the reduced pressure state and causing the holly to lose its adsorption ability.

To prevent this, press the suction cup 9 on the adhesive surface of the printed wiring board 7, and after fixing it, apply silicone rubber (for example, product name RTV, manufactured by Toshi Silicone Co., Ltd.) along the circumference of the suction cup 9. air diffusion through the adhesive surface.
By blocking penetration, silicone rubber has excellent moisture resistance, has considerable adhesion, and is elastic even after curing, so it can maintain a vacuum state for a long period of time.

In addition, in order to break the vacuum inside the suction cup, the display panel 2 can be peeled off by inserting a sharp-tipped spatula along the glass surface of the display panel 2.

Next, if the present invention is used, of course the conventional usage method can be improved.
It is also possible to mount components on the printed wiring board 7 on which the display panel 2 is mounted.

FIG. 2 shows this state. When attaching the display panel 2 with the suction cup 9 adhered to the printed wiring board 7, if you use a jig and solder it while keeping a distance of about 5 mm, the same result can be achieved. The electronic component 6 can be mounted as shown in the figure.

〔Example〕

When attaching a plasma display (abbreviation: FDP) panel with a length of 40 cm and a width of 30 cm to a printed wiring board, the adhesive surface of the POP board was divided into 12 loan angles, and a marking with a diameter of 4 cm was placed in the center of each IO area on the periphery. After cleaning and degreasing, a suction cup made of silicone rubber and having an opening diameter of 4 cm was crimped and fixed at this position.

Next, room temperature curing silicone rubber (product name: RTV) was applied along the joint surface of the suction cup.

In this case, the suction cup has a nickel (Ni) plated brass stem with a diameter of 4 mm and a length of 71 mm.

Next, the printed wiring board on which this FDP panel is mounted has a large number of dual in-line type I/Os, similar to the one shown in Fig.
C is installed, and the relative position of the suction cup has a diameter of 4.5
There is a fixing hole with metallized inside.

Then, to attach the FDP panel, a jig with a height of 5 dragons was placed on both sides to maintain a distance from the printed wiring board, and the panel was soldered and fixed using a reflow machine.

In this way, it is possible to put into practical use an FDP device that has excellent vibration resistance and impact resistance and is removable.

〔Effect of the invention〕

As described above, by carrying out the present invention, it becomes possible to put into practical use a display device that can be removed without destroying the display panel or printed wiring board and has excellent vibration resistance and impact resistance.

[Brief explanation of drawings]

FIG. 1 is a sectional view showing an embodiment of the present invention, FIG. 2 is a sectional view showing another embodiment of the invention, FIG. 3 is a sectional view showing a conventional mounting method on a printed wiring board, and FIG. The figure is a sectional view showing a conventional mounting method on a metal plate. In the figure, 1 is a stopper, 2 is a display, a panel, 4 is double-sided adhesive tape, 6 is an electronic component, 5.7 is a printed wiring board, 8 is a fixing hole, 9 is a suction cup, the banquet hall of the present invention. 1 cross-sectional view shown on the left 1 Figure 1 - Another collection of cross-sections that can be shown by JE斤, 1st ward, cross-sectional view No. 3, 1st five-shogo sectional view of one bundle of gold, figure A4

Claims (1)

[Claims] A display panel is formed by making two glass substrates provided with striped electrode patterns face each other to form a matrix of electrodes, with a display medium interposed therebetween, and driving the display panel. The method for attaching the display panel to the printed wiring board is characterized in that a suction cup is positioned on the back side of the display panel to attract the display panel, and then the suction cup is inserted into a plurality of fixing holes provided in advance on the printed wiring board and fixed. How to install the display panel.