CN205486021U - Electronic device display touch structure capable of preventing noise interference - Google Patents

Abstract

The utility model discloses a display touch structure of an electronic device that prevents noise interference, which includes a display touch device, a glue layer, an absorbing layer and a protective layer. The backlight module in the display touch device is provided with a surface on one side. The LCD touch panel has an absorbing layer attached to the adhesive layer formed on the surface of the LCD touch panel, and the absorbing layer is attached to the frame glue formed around the surface on the other side of the LCD touch panel for protection. This kind of absorbing layer is positioned between the display touch device and the protective layer and forms a layer-like structure. It can absorb electromagnetic interference, static electricity, crosstalk and other noise interference generated by the electronic device during operation through the absorbing layer. , and guide the transmission to the ground terminal for release, making the quality of the overall signal transmission more stable, and also reducing the harm and adverse effects of electromagnetic waves caused by the use of electronic devices by the human body.

Description

Anti-noise interference electronic device display touch structure

technical field

The utility model relates to an anti-noise interference display touch structure of an electronic device, in particular to a wave-absorbing layer positioned between a display touch-control device and a protective layer, and the wave-absorbing layer absorbs electromagnetic wave interference generated by the electronic device during work, Noise interference such as static electricity and crosstalk makes the quality of the overall signal transmission more stable.

Background technique

Today's electronic technology is changing with each passing day. With the rapid development of network communication technology, people's life, study, work and entertainment have entered a new look. Therefore, electronic devices such as smart phones, tablet computers, notebook computers, e-books, and global satellite navigation machines have become It has become an indispensable tool and is widely used.

However, when the above-mentioned electronic devices are in use, the internal electronic components will release electromagnetic waves, static electricity, etc. due to electromagnetic effects, and will also generate noise and other interference during the signal sending and receiving or transmission process, which is not easy to eliminate, resulting in signal transmission of electronic devices. Even when the electronic device is operating on a call, connected to the Internet, satellite communication or connected to the host system, it will be affected by noise interference or other surrounding electronic equipment, etc., which may easily lead to unsmooth, interrupted or interrupted signal transmission of the electronic device. Pause and other situations occur, thereby affecting the stability and smoothness of the operation of the electronic device; in addition, the electromagnetic radiation released by the electronic device may also cause harm and adverse effects on the health of the user, especially the electronic device has It is easy to use, not limited by time, place or region, and some electronic devices are easy to carry, so that users of electronic devices can be found in all age groups. Therefore, how to effectively block various noises and other interferences when using electronic devices, and Avoiding affecting the quality of electronic devices and harming users is the key to research and improvement that those engaged in this industry are eager to research.

Utility model content

In view of the fact that the existing electronic devices are easily disturbed and affected by electromagnetic waves, static electricity or noise released by electronic components, the inventor of this case collected relevant data after multiple evaluations and considerations, and made use of years of experience in research and development in this industry. After trial production and modification, this kind of anti-noise interference display and touch structure of the electronic device was designed.

The main purpose of the present utility model is to display a liquid crystal touch panel on one side surface of the backlight module in the display touch device, and the adhesive layer formed on the surface of the liquid crystal touch panel is bonded with a wave-absorbing layer, and the wave-absorbing layer A protective layer is pasted on the frame glue formed around the surface of the other side of the liquid crystal touch panel. This wave-absorbing layer is positioned between the display touch device and the protective layer and forms a layered structure, which can pass through The wave-absorbing layer absorbs electromagnetic wave interference (EMI), static electricity, crosstalk and other noise interference caused by electromagnetic effects when the electronic device is working, and guides and transmits it to the ground terminal for release, so as to effectively prevent noise interference and make the whole The quality of signal transmission is more stable, and it can also reduce the harm and influence of electromagnetic waves caused by the human body when using electronic devices, which is more practical.

The secondary purpose of this utility model is that the wave-absorbing layer is a frame-shaped structure made of iron, zinc, nickel or metal alloy materials, and because the center of the wave-absorbing layer is hollowed out, the glue layer The display touch device and the protective layer can be bonded together through the wave-absorbing layer, so as to improve the overall structural strength and stability, while ensuring the quality and pass rate of manufacturing.

In order to achieve the above purpose, the anti-noise interference display and touch structure of the electronic device provided by the utility model includes a display touch device, a glue layer, a wave-absorbing layer and a protective layer, wherein:

The display touch device has a backlight module, and a liquid crystal touch panel is arranged on one side surface of the backlight module;

The adhesive layer and the wave-absorbing layer are formed on the other side of the liquid crystal touch panel relative to the backlight module, and the wave-absorbing layer is attached to the adhesive layer and used to absorb noise interference generated by preset electronic devices;

A sealant and the protective layer are formed around the other side surface of the wave-absorbing layer relative to the liquid crystal touch panel, the protective layer is attached to the frame glue, and the wave-absorbing layer is located between the display touch device and the protective layer. A layered structure is formed between the protective layers.

In one embodiment of the present invention, the backlight module in the display touch device has a light guide plate, and an optical film group attached to the liquid crystal touch panel is arranged on one surface of the light guide plate, and A reflection plate is provided on the other side surface of the light guide plate opposite to the optical film group.

In an embodiment of the present invention, the absorbing layer is made of iron, zinc, nickel or metal alloy.

In an embodiment of the present invention, the wave-absorbing layer is a frame shape with a hollow center.

In an embodiment of the present invention, a printing layer is formed on a surface of the protective layer adjacent to the absorbing layer.

In one embodiment of the present invention, the protective layer is made of hard acrylic or hardened glass.

Description of drawings

Fig. 1 is the three-dimensional exploded view of the utility model;

Fig. 2 is the structural representation of the utility model before bonding;

Fig. 3 is a structural schematic diagram of the utility model after bonding.

Explanation of reference signs: 1-display touch device; 11-backlight module; 111-light guide plate; 112-optical film group; 113-reflector; 12-liquid crystal touch panel; 2-adhesive layer; 3-absorbing layer; 31-frame glue; 4-protective layer; 41-printing layer.

detailed description

In order to achieve the above-mentioned purpose and effect, the technical means and the structure adopted by the utility model are hereby illustrated in detail with respect to the preferred embodiment of the utility model and its structure and function are as follows.

As shown in Fig. 1, Fig. 2 and Fig. 3, they are respectively the three-dimensional exploded view of the utility model, the structural diagram before bonding and the structural schematic diagram after bonding. It can be clearly seen from the figure that the utility model includes display touch Control device 1, adhesive layer 2, wave-absorbing layer 3 and protective layer 4, so the main components and features of this case are described in detail below, of which:

The display touch device 1 has a backlight module 11, and a liquid crystal touch panel 12 is arranged on one side surface of the backlight module 11, and the backlight module 11 has a light source (not shown in the figure) and can be used to project light from the light source to emit light. The light guide plate 111, the preferred implementation of the light source can be a light emitting diode (LED), but in actual application, it can also be a cold cathode tube (CCFL), an electroluminescent device (EL) or other visible light sources, and the light guide plate 111 An optical film set 112 attached to the liquid crystal touch panel 12 is provided on one side surface, and a reflective plate 113 is provided on the other side surface of the light guide plate 111 opposite to the optical film set 112. Because the backlight module 11 There are many types and types, and the structural design can be changed according to the actual application or requirement, so as to provide the uniform surface light source required by the liquid crystal touch panel 12 .

The adhesive layer 2 can be formed by coating acrylic or silicon.

The wave-absorbing layer 3 is a hollowed-out frame in the center, and is made of iron, zinc, nickel, metal alloy or other metal materials into a sheet-like structure, and a frame glue 31 is formed around the surface of the wave-absorbing layer 3 , and the sealant 31 can also be formed by coating acrylic or silicon.

The protective layer 4 is made of hard acrylic or hardened glass, and has the optical effects of anti-finger stain, wear resistance, high light transmittance and low haze, and the surface of the protective layer 4 is processed by printing The printing layer 41 is formed in a manner, and the printing layer 41 can cooperate with the interface equipment or the frame of the preset electronic device located on the protective layer 4, such as buttons, volume keys, lens holes or other preset electronic devices located on the periphery of the protective layer 4. The remaining slots, etc., or the frame around the protective layer 4 for the screen are designed to facilitate the printing of the printing layer 41 on the surface of the protective layer 4, and cooperate with the preset position of the interface device or frame of the electronic device.

When the utility model is assembled, the adhesive layer 2 is first combined with the liquid crystal touch panel 12 in the display touch device 1 by pasting to form a flat surface on the other side of the backlight module 11, and make the After the wave-absorbing layer 3 is aligned with the adhesive layer 2, the wave-absorbing layer 3 is attached downward to the surface of the adhesive layer 2 to form a flat shape, and the protective layer 4 is attached to the wave-absorbing layer 3 relative to the liquid crystal touch panel. After the sealant 31 around the surface on the other side of the panel 12 is applied, the wave-absorbing layer 3 can be positioned between the display touch device 1 and the protective layer 4 to form a layered structure, and a hollow frame in the center can be used Type wave-absorbing layer 3, so that the adhesive layer 2 can bond the display touch device 1 and the protective layer 4 into one body through the wave-absorbing layer 3, so as to improve the overall structural strength and stability, and at the same time ensure the quality and qualification of the manufacturing Rate.

The best specific embodiment of the anti-noise interference display and touch structure of the electronic device provided by the utility model is applied to smart phones, but in actual application, it can also be applied to notebook computers, tablet computers, e-books or other electronic devices. device (not shown in the figure), when the user touches the screen of the electronic device, it can be manipulated or perform its functions by the liquid crystal touch panel 12, and the protective layer 4 is used to protect the screen from being scratched or broken by external impact, The overall structure of this wave-absorbing layer 3 is quite simple and easy to manufacture, so as to effectively save the cost required for manufacturing, and the wave-absorbing layer 3 can be used to inductively absorb electromagnetic wave interference (EMI), static electricity and Noise interference such as crosstalk, and guided transmission to the ground terminal for release, while suppressing electromagnetic waves, static electricity and noise interference such as crosstalk generated during high-frequency signal transmission of electronic devices, so that the overall signal transmission quality is more stable and can also reduce The harm and adverse effects caused by long-term exposure to electromagnetic waves caused by the use of electronic devices on the human body are more practical.

The above detailed description is just a description of a preferred feasible embodiment of the present utility model, but this embodiment is not used to limit the scope of the claims of the present utility model, and all others are completed without departing from the technical spirit disclosed in the present utility model All equivalent changes and modification changes should be included in the scope of the claims of the present utility model.

Claims (6)

1. An anti-noise interference display touch structure of an electronic device, characterized in that it includes a display touch device, a glue layer, a wave-absorbing layer and a protective layer, wherein: The display touch device has a backlight module, and a liquid crystal touch panel is arranged on one side surface of the backlight module; The adhesive layer and the wave-absorbing layer are formed on the other side of the liquid crystal touch panel relative to the backlight module, and the wave-absorbing layer is attached to the adhesive layer and used to absorb noise interference generated by preset electronic devices; A sealant and the protective layer are formed around the other side surface of the wave-absorbing layer relative to the liquid crystal touch panel, the protective layer is attached to the frame glue, and the wave-absorbing layer is located between the display touch device and the protective layer. A layered structure is formed between the protective layers. 2. The anti-noise interference display and touch control structure of an electronic device according to claim 1, wherein the backlight module in the display touch device has a light guide plate, and a bonding surface is provided on one side of the light guide plate. The optical film group on the liquid crystal touch panel, and the other side surface of the light guide plate opposite to the optical film group is provided with a reflective plate. 3 . The anti-noise interference display touch structure of an electronic device according to claim 1 , wherein the wave-absorbing layer is made of iron, zinc, nickel or a metal alloy. 4 . The anti-noise interference display touch structure of an electronic device according to claim 1 , wherein the wave-absorbing layer is a frame shape with a hollow center. 5 . The anti-noise interference display touch structure of an electronic device according to claim 1 , wherein a printed layer is formed on a surface of the protective layer adjacent to the wave-absorbing layer. 6 . 6 . The anti-noise interference display touch structure of an electronic device according to claim 1 , wherein the protective layer is made of hard acrylic or hardened glass.