KR100244135B1 - Conncetor of flat panel display device - Google Patents

Abstract

The present invention discloses a novel structure for connecting an FPC to a panel of a flat panel display element.

Conventionally, FPC has been bonded to the electrode pad of a panel by thermal fusion of a conductive adhesive. However, since the work is complicated, the connection of a plurality of FPCs is difficult, and the connection of an overhang structure panel is more difficult.

In the present invention, by connecting the panel between the two cover having a receiving groove for accommodating the two substrates of the panel and the connection surface for fixing the FPC, so that the connection between the panel and the FPC by mutual coupling of the two cover, to the panel of the overhang structure Even if a large number of FPCs are combined, quick connection is possible, and regeneration in case of panel failure and cover or circuit board coupling are also facilitated.

Description

Connection structure of flat panel display device

1 is an exploded perspective view showing a general connection structure by FPC.

2 is a plan view of the connected state thereof.

3 is an exploded perspective view showing a connection structure according to the present invention.

4 is an exploded perspective view of the main part.

5 is an exploded cross-sectional view of the main part.

6 is an exploded sectional view showing main parts of another embodiment of the present invention.

* Explanation of symbols used in the main part of the drawing

D: panel F, R: front and back substrate

P1, P2: electrode pad 10: front cover

20: rear cover 21: storage groove

22: connection surface 23: fixture

24: recess groove 40: elastic plate

The present invention relates to a flat panel display device, and more particularly to a connection structure thereof.

BACKGROUND OF THE INVENTION Flat panel display devices composed of flat panels are widely used in the field of portable imaging devices, in particular, due to the tendency to reduce the thickness of electronic devices.

Most flat panel display devices, such as plasma display panels (PDPs) and liquid crystal displays (LCDs), employ a dot matrix method for displaying raster images. In general, this method is a method in which a plurality of electrode groups are arranged on the two substrates so as to intersect with each other, and pixels of the intersection points are displayed by selection of the two electrodes.

Accordingly, the end of the plurality of electrodes (E) is exposed at the end of the panel (D) of the device to form an electrode pad (P), as shown in Figure 1, such an electrode pad (P) A flexible panel connector (FPC) is generally used to connect the plurality of electrodes E to a circuit board or the like.

The FPC is formed between the two insulating layers 11 and 12 by connecting patterns X formed at the same pitch as the electrodes E of the electrode pad P by patterning copper foil or the like. The end of the exposed connection pattern X is attached to the electrode E of the electrode pad P with a conductive adhesive A, so that each electrode E is connected to the connection pattern (as shown in FIG. 2). X is connected to 1: 1.

Here, the conductive adhesive (A) is generally composed of a heat-adhesive adhesive to press the upper portion of the FPC in contact with the electrode pad (P) with a heating block, so that the conductive adhesive (A) is connected to the FPC connection pattern (X) And the electrode E of the electrode pad P are bonded and electrically connected at the same time.

However, since the conductive adhesive A is applied to the end of each connection pattern X of the FPC with a relatively thin film, the adhesive force with the electrode pad P is not very large.

Accordingly, when an excessive force is applied to the FPC when the panel D connected to the FPC is assembled to a circuit board or an image device, the connection to some electrodes E is lifted even though the FPC is not separated as a whole. There arises a problem that (D) cannot be driven normally and stably.

On the other hand, as the flat panel display device becomes higher in resolution, the number of electrodes E also gradually increases, making it difficult to connect one or two FPC end portions of the electrodes E drawn out to the electrode pads P.

Accordingly, a connection structure in which electrodes E of the electrode pad P are separated into dozens of connection groups G as shown in FIG. 2 to connect separate FPCs for each connection group G is generally used. It is used.

However, such a connection structure has a problem that the connection structure of FPC, which is difficult to connect and handle even more complicated, requires a lot of labor for the connection, and some FPC is separated during handling, resulting in frequent connection failure.

On the other hand, since the electrodes E are arranged on the two substrates of the panel D so as to face each other, an overhang structure in which an end portion of the substrate E extends in the direction in which the electrodes E extend, extends more than the other substrates (see FIG. 3). It is effective for drawing out and connecting the electrode E. However, it is common that the front cover of the imaging device is located on the front surface of the panel D, and the circuit board is located on the rear surface. In a low resolution flat panel display device, a complicated structure in which the electrode pad P is concentrated on one substrate is used as a connection means between substrates such as silver dots.

In view of the various problems of the related art, the object of the present invention can be easily achieved, and in particular, it is easy to connect a flat panel display device having a high resolution and / or overhang structure, and also serves as a frame of a front cover or a circuit board. It is to provide a connection structure.

In order to achieve the above object, the connection structure according to the present invention has an accommodating groove in which the front substrate and the rear substrate of the panel are respectively accommodated, and the connection surface contacting the electrode pads of the respective substrates is respectively connected to corresponding portions of the electrode pads. The panel is sandwiched between a front cover and a rear cover on which a fixture for fixing one or a plurality of FPCs is installed.

According to such a configuration, after fixing a plurality of FPCs to both covers with a fixture, and storing the panels in the receiving grooves to combine the two covers, even a panel having a plurality of electrodes or connection groups can be quickly and accurately connected.

In addition, both covers can be used as a frame for fixing the front cover or the circuit board of the image device using the panel, thereby simplifying the overall configuration of the image device and facilitating its assembly.

Such a connection structure of the present invention will become more apparent from the following description of the preferred embodiment with reference to the accompanying drawings and specific features and other advantages.

In FIG. 3, for example, the front and rear surfaces of the panel D having the overhang structure such that the electrode pads P1 and P2 protrude outward from the counter substrate on the front substrate F and the rear substrate R are characterized by the present invention. The front cover 10 and the rear cover 20 which can be mutually coupled by a screw 30 or the like are positioned.

Receiving grooves 21 for accommodating the substrates F and R in the corresponding directions are formed in each cover 10 and 20, and the electrode pads P1 and P2 of the substrates F and R contact in opposite directions. One or more FPCs are fixed by the fixture 23 at the position to be ie, the connection surface 22.

3 shows only the electrode pads P2 of the rear substrate R because of the illustrated direction, and the receiving groove 21 and the connection surface 22 are also visible only on the rear cover 20 side. When the rear substrate R of the panel D is accommodated in the groove 21, the electrode pads P1 (see FIGS. 5 and 6) of the front substrate F are connected to the connection surface 22 of the rear cover 20. Contact with the FPC on the image. When the front cover 10 is coupled to the upper portion thereof, the front cover 10 is accommodated in the receiving groove (not shown) of the front cover 10 of the front substrate F. In this state, the electrode pad P2 of the rear substrate R is covered with the front cover. It is connected to the FPC on the connection surface (not shown) of (10).

In FIG. 3, the remaining reference numerals 14 and 24 are drawout grooves for accommodating the thickness of the FPC. When a plurality of FPCs are installed, the drawout grooves 14 and 24 may be separated into a plurality of pieces to guide the positions of the respective FPCs. have.

Here, the installation of the FPC on the connecting surface 22, as shown in Figure 4, after placing the FPC in the corresponding position, the fastener 23 in the inner position than the tip of the FPC at the upper portion of the screw 25, etc. By combining.

As described above, the fixing plate 23 of the pressing plate type coupled to the screw 25 is merely an example, and in addition to the fixing of the FPC, various kinds of fixings 23 may be adopted. However, for reasons described below, the fixture 23 preferably has a fixing method that can be coupled and separated.

An elastic plate 40 such as a sponge or rubber is installed on the bottom surface of the front end side of the FPC fixed by the fastener 23, that is, the back surface of the FPC in contact with the electrode E of the electrode pad P1 in the opposite direction. desirable.

According to this configuration, as shown in FIG. 5, when the electrode pad P1 of the opposite side substrate, for example, the front substrate F, contacts the FPC, the elastic plate 40 gives an elastic force, thereby covering both covers. When the (10, 20) is combined, each electrode (E) of the electrode pads (P1, P2) and the FPC to maintain a reliable contact.

Accordingly, the FPC to be used in the implementation of the present invention can maintain the connection without using a conductive adhesive (A in FIG. 1) as in the prior art. There is no need for a thermocompression process.

On the other hand, the FPC is formed by forming the connection pattern X on the flexible insulating layer I by copper foil or the like, so that the FPC itself has considerable elastic force. Accordingly, in the embodiment of FIG. 6, instead of providing a separate elastic plate 40, the tip of the FPC is folded and installed in a loop so that the connection between the FPC and the electrode pads P1 and P2 is performed by the elastic force of the FPC itself. Is keeping.

As described above, according to the present invention, the FPCs are fixedly mounted on the connection surfaces 22 of the covers 10 and 20 with the fixture 23, and then the panel D is positioned between the covers 10 and 20. When the (10, 20) is combined, the panel D forms an assembly in a state of being connected to the FPC.

Such an assembly may be installed on the front side of the image device using the panel D to form a front cover or a part thereof, and may be used as a frame of the circuit board by coupling the circuit board to the rear surface thereof.

In addition, in the case where the connection is to be released, if both covers 10 and 20 are removed by disassembly of the screw 30, the connection between the panel D and the FPC is not only released, but also between the electrode pads P1 and P2 and the FPC. If the conductive adhesive (A) is not used for connection, it can be reused as long as the connection is released. Therefore, it is easy to salvage when there is a functional defect in the panel D. Also, the cost of regeneration is extremely low. .

The present invention has been described above through the panel of the overhang structure, but this is for the purpose of illustration only and is not intended to limit the present invention. The connection structure of the present invention can be applied to the panel of any structure as it is.

Claims (4)

In a connection structure of a flat panel display panel having a front substrate and a rear substrate coupled to each other and having an electrode pad for connecting an FPC to an end of at least one of the two substrates, the two substrates of the panel are respectively accommodated. A front cover and a rear cover having a receiving groove and a fixture for fixing one or a plurality of FPCs to be connected to corresponding portions of the electrode pads, respectively, on a connection surface contacting the electrode pads of the respective substrates; Connecting the two covers to each other by sandwiching the panel between the covers. The flat panel display device connection structure according to claim 1, wherein the fastener is coupled to a connection surface of each cover at an inner position of the FPC. The flat panel display device connection structure according to any one of claims 1 to 3, wherein an elastic plate is provided on a lower surface of the front end of the FPC fixed by the fastener. The flat panel display device connection structure according to any one of claims 1 to 3, wherein the tip of said FPC is folded in a loop shape and fixed to said fastener.