KR20190003037U - Signal transmission wiring assembly structure of touch device - Google Patents

Abstract

The signal transmission wiring assembly structure of the touch device of the present invention includes a touch panel, a touch signal wiring, and a functional circuit unit. In the touch panel, a plurality of touch sensing units are connected to first electrical terminals through first conductive wires, and the first electrical terminals are installed in signal output pads at one edge of the touch panel. The touch signal line has a plurality of conductive wires arranged in parallel at equal intervals, a front circumference of each of the wires is connected to a second electric terminal, and a rear end of the wire is connected to a third electric terminal, The upper and lower sides are each coated with a flexible insulating layer, a high-conductivity thin film and an insulating film in order, and the second electric terminal and the third electric terminal are provided to be exposed. The functional circuit unit has a signal input pad on a substrate, and a plurality of fourth electrical terminals are provided in the signal input pad. The second electrical terminal may be electrically connected to correspond to the first electrical terminal, and the third electrical terminal may be electrically connected to correspond to the fourth electrical terminal.

Description

Signal transmission wiring assembly structure of touch device {SIGNAL TRANSMISSION WIRING ASSEMBLY STRUCTURE OF TOUCH DEVICE}

The present invention relates to a signal transmission wiring structure, and more particularly, to a flexible signal transmission wiring structure used for touch panel signal transmission and having an electromagnetic interference shielding effect.

A general touch device generally includes a touch panel unit, a touch signal processing unit, and signal transmission wires connected between the two. Typically, the touch panel unit is provided with a plurality of touch sensing electrodes in the touch sensing unit, signal conductors are connected to each touch sensing electrode, and the signal conductors are collected by one signal output adhesive pad, and the signal transmission line A front end of is electrically connected to the signal output pad, and a rear end of the signal transmission wire is again electrically connected to a signal input pad of the touch signal processing unit, wherein the touch sensing signal of the touch panel unit is It is transmitted to the touch signal processing unit via a signal transmission line to perform arithmetic processing.

Currently, touch devices are already widely applied to digital electronic products such as PCs, telecommunications and consumer electronics, and in recent years, the requirements of digital electronic products for electronic component performance are increasing. For example, due to the trend toward miniaturization and high density, it is most concerned that the occurrence of electromagnetic interference (EMI), radio frequency interference (RFI), and electrostatic discharge (ESD) occurs in electronic products. However, since the signal transmission wiring used in the conventional touch device is used to electrically connect the touch panel unit and the touch signal processing unit, the signal transmission wiring typically has a relatively long extension length and its metal conductors. Because of its narrow thin line spacing, it is easy to cause signal errors or attenuation due to external electromagnetic interference or radio frequency interference. Therefore, how to block the interference of EMI and RFI is an urgent problem to solve in terms of design and application of signal transmission wiring of touch devices.

In addition, the connection between the signal transmission wiring used in the above-described conventional touch panel and the touch signal processing unit is typically provided with a terminal plug at an insertion connection end of the signal transmission wiring, and the signal input adhesive pad of the touch signal processing unit. A terminal socket is installed on the terminal to form an electrical connection through an insertion connection combination of the terminal plug and the terminal socket. However, the use of terminal plugs and sockets as insert connection combination kits is not suitable for the trend of miniaturization of electronic circuits and additional material costs.

The main object of the present invention is to provide an improved signal transmission wiring of the touch device and its assembly structure. The signal transmission wiring of the present invention has an electromagnetic interference shielding effect, and is fixed to the signal input pad of the functional circuit unit and directly electrically bonded, thereby reducing the installation cost of the wiring connection socket and improving the precision and signal transmission quality of the assembly connection. You can.

In order to achieve the above object, the signal transmission wiring assembly structure of the touch device proposed in the present invention includes a touch panel, a touch signal wiring, and a functional circuit unit.

In this case, the touch panel includes a plurality of touch sensing units connected to first electrical terminals through a first conductive line, respectively, and the first electrical terminals are installed in a signal output pad at one edge of the touch panel.

The touch signal line has a plurality of conductive wires arranged in parallel at equal intervals, a front circumference of each wire is connected to a second electric terminal, a rear end of the wire is connected to a third electric terminal, and The upper and lower sides are each coated with a flexible insulating layer, a high-conductivity thin film, and an insulating film in order, and the second electric terminal and the third electric terminal are installed to expose each other, and a hollow hole is provided above the insulating film. The high-conductivity thin film is exposed to the hollow hole.

The functional circuit unit has a signal input pad on its substrate, and a plurality of fourth electrical terminals are provided in the signal input pad.

The second electrical terminal of the signal transmission line may be electrically connected to correspond to the electrical terminal of the signal output pad of the touch panel, and the third electrical terminal of the signal transmission line may be a signal of the functional circuit unit. A touch signal triggered by the touch sensing unit may be electrically connected to the fourth electrical terminal of the input pad by implementing an electrical connection between the touch panel and the functional circuit unit through the signal transmission line. It can be transferred smoothly to the circuit unit to perform the necessary processing.

Here, the third electrical terminal of the signal transmission line and the fourth electrical terminal of the functional circuit unit are electrically bonded and fixed through an anisotropic conductive film (ACF). Here, both can reduce the installation of external connectors or connection sockets, thereby reducing costs, improving the accuracy of the electrical combination and the quality of the signal transmission.

The high-conductivity thin film is coated on the outer surface of the signal transmission line to form a shielding effect, and the high-conductivity thin film is electrically contacted with an electric metal shell disposed thereon at an exposed portion of the hollow hole to ground. grounding) state. Through this, the signal transmission line can suppress external interference of high frequency electromagnetic waves, and can also prevent other facilities from affecting as an interference source.

Here, the high-conductivity thin film is a thin film manufactured by selecting from various aluminum foils, copper foils, gold foils, or various conductive materials. Furthermore, the high-conductivity thin film may be a network thin film, but the scope of implementation is not limited to the above-described materials.

Next, the characteristics of the present invention will be described in more detail with reference to the preferred embodiments.

The signal transmission wiring of the present invention has an electromagnetic interference shielding effect, and is fixed to the signal input pad of the functional circuit unit and directly electrically bonded, thereby reducing the installation cost of the wiring connection socket and improving the precision and signal transmission quality of the assembly connection. You can.

1 is an explanatory view in which parts of the present invention are separated; And
Figure 2 is a partial side cross-sectional view combining the components of the present invention.

The accompanying drawings include a touch panel 1, a signal transmission wiring 2 and a functional circuit unit 3 mainly as a relatively preferred embodiment of the present invention. Here, the substrate 10 of the touch panel 1 is a glass sheet having a high light transmittance with excellent mechanical strength, and a colored edge portion 11 made of a non-conductive material is installed at the bottom circumference of the substrate 10. The colored edge portion 11 distinguishes the shielding portion 11a forming a frame shape on the periphery from the substrate 10 and the visible portion 10a in the center portion. The transparent touch sensor 12 is installed in the visible portion 10a of the substrate, and is composed of a plurality of rows of sensing arrays 12a, each sensing array 12a having one sensing electrode 121 and a plurality of driving electrodes. There is a 122, and the sensing electrode 121 and the driving electrode 122 are installed correspondingly to each other in a complementary form. The sensing electrode 121 and the driving electrode 122 of each sensing array 12a are connected to the electrical terminal 125 of the signal output pad 124 on the signal conductor 123. The signal output pad 124 is provided in the shield 11a on one side of the substrate 10 (as shown in FIG. 1).

The signal transmission wiring 2 shown in the drawing has a plurality of flat copper foil conductors 21 arranged in parallel at equal intervals. The front end of the copper foil conductor 21 is connected to the input electric terminal 22, and the rear end is It is connected to the output electrical terminal 23, and the upper and lower surfaces of the copper foil lead 21, in order to flexible polyester (PET) thin film 24, aluminum foil 25 having excellent conductivity and insulating mylar ( 26) (for example, polycarbonate (PC), a thin film of polyester) is coated, and the copper foil conductor 21 is covered in the middle, and both the input electrical terminal 22 and the output electrical terminal 23 are exposed. Install in the form. In addition, a hollow hole 27 is further provided on the insulating mylar 26 to install the aluminum foil 25 in an exposed form at the hollow hole 27 point.

The functional circuit unit 3 is a printed circuit board (PCBA), a signal input pad 32 is provided on the substrate 31, and a plurality of electrical terminals 33 are installed in the signal input pad 32. The electrical terminal 33 is connected to the control circuit 35 through the signal conductor 34.

As shown in FIG. 1, the front end portion of the signal transmission line 2 is connected on the signal output pad 124 so that the input electrical terminal 22 and the signal output pad (around the front end of the copper conductor 21) are connected. The electrical terminals 125 in 124 may be connected to each other in correspondence with each other, and an anisotropic conductive film is used as an adhesive to realize electrical coupling between the two terminals. In addition, a rear end of the signal transmission wiring 2 is bonded on the signal input pad 32 so that the output electric terminal 23 around the rear end of the copper foil lead 21 and the electric power in the signal input pad 32 are connected. The terminals 33 can be connected correspondingly to each other, and the anisotropic conductive film is used as an adhesive to realize electrical coupling between them. Through this, the detection signal triggered on the touch panel 1 is transmitted to the functional circuit unit 3 via the signal transmission line 2, and the operation is performed.

In the embodiment of the present invention, the signal transmission wiring (2) has an electromagnetic interference shielding effect by covering the aluminum foil 25 having excellent conductivity on the outer surface of the copper foil conducting wire (21) having a narrow arrangement interval, and the aluminum foil ( 25) electrically contacts the exposed portion of the hollow hole 27 point with the metal shell of electricity used therein to form a ground state (not shown), wherein the signal transmission wire 2 is a high frequency External interference of electromagnetic waves can be suppressed, and the influence of other equipment as an interference source can be prevented.

The drawings and the embodiments are intended to fully describe the present invention, the embodiment is only a relatively preferred embodiment of the present invention does not limit the embodiment of the present invention. Those skilled in the art to which the present invention pertains can make various changes and modifications to the present invention based on the above contents. All such changes and modifications fall within the protection scope of the present invention.

Claims (7)

A touch panel, touch signal wiring, and a functional circuit unit;
The touch panel may include a plurality of touch sensing units connected to first electrical terminals through a first conductive line, and the first electrical terminals may be installed in signal output pads on one edge of the touch panel.
The touch signal line has a plurality of conductive wires arranged in parallel at equal intervals, a front circumference of each of the wires is connected to a second electric terminal, and a rear end of the wire is connected to a third electric terminal, The upper and lower surfaces are each coated with a flexible insulating layer, a high conductivity film, and an insulating film in order, and the second electrical terminal and the third electrical terminal are provided to be exposed;
The functional circuit unit has a signal input pad on a substrate, and a plurality of fourth electrical terminals are provided in the signal input pad;
The second electrical terminal may be electrically connected to correspond to the first electrical terminal, and the third electrical terminal may be electrically connected to correspond to the fourth electrical terminal. rescue. The method of claim 1,
The signal transmission wiring assembly structure of the touch device, wherein the first electrical terminal and the second electrical terminal are electrically bonded and combined with each other using an anisotropic conductive film. The method of claim 1,
And the third electrical terminal and the fourth electrical terminal are electrically bonded to each other by an anisotropic conductive film to be combined. The method of claim 1,
A hollow hole is provided above the insulating film, and the high conductivity film is exposed so as to be exposed at a portion of the hollow hole. The method of claim 4, wherein
And a metal housing using electricity in a portion where the high conductivity film is exposed to the hollow hole so as to be electrically connected and grounded. The method of claim 1,
The high conductivity film is aluminum foil, copper foil or gold foil, the signal transmission wiring assembly structure of the touch device. The method of claim 1,
And said high conductivity film is a reticular (mesh) thin film.

Images