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

Abstract

The utility model discloses an electronic device display touch structure for preventing noise interference, which comprises a display touch device, an adhesive layer, a wave absorbing layer and a protective layer, wherein a liquid crystal touch panel is arranged on one side surface of the backlight module in the display touch device, and a wave absorbing layer is adhered on a glue layer formed on the surface of the liquid crystal touch panel, and the wave-absorbing layer is adhered to the protective layer relative to the frame glue formed on the periphery of the other side surface of the liquid crystal touch panel, and the wave-absorbing layer is positioned between the display touch device and the protective layer and forms a layer-shaped structure, so that the wave-absorbing layer can induce and absorb noise interference such as electromagnetic wave interference, static electricity, crosstalk and the like generated when the electronic device works, and the signal is guided and transmitted to the grounding end for release, so that the quality of the whole signal transmission is more stable, and the harm and adverse effect of electromagnetic waves caused when a human body uses the electronic device can be reduced.

Description

The electronic installation display touch-control structure of antinoise interference

Technical field

This utility model relates to the electronic installation display touch-control structure of a kind of antinoise interference; espespecially show that between contactor control device and protective layer, there is suction ripple layer location; and being absorbed, by inhaling ripple layer, the noise jamming such as Electromagnetic Interference, electrostatic and cross-talk that electronic installation produces when the work, the quality making overall signal transmit is more stable.

Background technology

Electronics technology is maked rapid progress now, high speed development along with network communications technology, the life of people, learning, work and entertain entrance one brand-new looks, therefore the electronic installation such as smart mobile phone, tablet PC, notebook computer, e-book, global navigation satellite machine has become indispensable instrument and has been widely used.

But, above-mentioned electronic installation is in use, electromagnetic wave can be discharged because of galvanomagnetic-effect during the work of its internal electronic element, electrostatic etc., and during signal transmitting and receiving or transmission, also can produce the interference such as noise and be difficult to get rid of, cause the degradation that electronic installation signal transmits, even electronic installation is in call, online the Internet, during the operation such as satellite communication or online host computer system, also can be affected by noise jamming or other electronic equipment of periphery, the transmission being easily caused electronic installation signal has some setbacks, the situations such as interruption or pause occur, thus have influence on the operational stability of electronic installation and smooth degree；In addition, the health of user also may be worked the mischief and harmful effect by the electromagenetic wave radiation discharged during electronic device functions, especially electronic installation have easy to use, will not be limited by time, place or region, and some electronic installation has the advantage being easy to carry about with one, make the user of electronic installation throughout each age level, the interference such as various noises the most how are effectively blocked when electronic installation uses, to avoid having influence on the quality of electronic installation and the harm to user, be engage in this journey dealer desired most ardently research improve key.

Utility model content

Inventor is because electromagnetic wave, electrostatic or noise etc. that existing electronic installation is easily discharged by electronic component when using disturb and impact, it is to collect related data via in many ways assessing and considering, and utilize the research and development experience for many years engaging in the industry constantly study and revise, begin to design the electronic installation display touch-control structure of this kind of antinoise interference.

Main purpose of the present utility model is to show that the surface, backlight module side in contactor control device is provided with a liquid crystal touch panel, and the glue-line formed on liquid crystal touch panel surface is fitted with suction ripple layer, and suction ripple layer is fitted with protective layer relative to around the opposite side surface of liquid crystal touch panel on the frame glue of place formation, this kind is inhaled ripple layer and is positioned show between contactor control device and protective layer and form a layer structure, just can by inhale ripple layer induced absorption electronic device functions time because of galvanomagnetic-effect produce Electromagnetic Interference (EMI), the noise jamming such as electrostatic and cross-talk, and directed transmission discharges to earth terminal, to reach effectively to prevent the purpose of noise jamming, the quality making overall signal transmit is more stable, also electromagnetic wave harm and impact that human body is caused can be reduced when using electronic installation, the more effect of practicality.

Secondary objective of the present utility model is that this suction ripple layer is in a frame-type; and by laminar structure made by ferrum, zinc, nickel or metal alloy material; and owing to suction ripple layer centre is hollow out; make glue-line can be integrally forming with protective layer bonding by display contactor control device by inhaling ripple layer; to improve overall structural strength and stability, guarantee quality and the qualification rate manufactured simultaneously.

In order to achieve the above object, the electronic installation display touch-control structure of the antinoise interference that this utility model provides includes showing contactor control device, glue-line, suction ripple layer and protective layer, wherein:

This display contactor control device has backlight module, and is provided with a liquid crystal touch panel in this surface, backlight module side；

This liquid crystal touch panel is relative to being formed with this glue-line and this suction ripple layer at the opposite side of this backlight module, and this suction ripple laminating is combined on this glue-line and in order to absorb the noise jamming that preset electronic device produces；

This suction ripple layer is formed with frame glue and this protective layer relative to place around the opposite side surface of this liquid crystal touch panel, and this protective layer is fitted on this frame glue, and this suction ripple layer and forms a layer structure between this display contactor control device and this protective layer.

In an embodiment of the present utility model, backlight module in this display contactor control device has light guide plate, and be provided with, in this surface, light guide plate side, the optical diaphragm group fitted on this liquid crystal touch panel, and this light guide plate is provided with reflector relative to the opposite side surface of this optical diaphragm group.

In an embodiment of the present utility model, this suction ripple layer is by made by ferrum, zinc, nickel or metal alloy material.

In an embodiment of the present utility model, this suction ripple layer is a frame-type in centre hollow out.

In an embodiment of the present utility model, this protective layer is formed with printing layer adjacent to inhaling on a side surface of ripple layer.

In an embodiment of the present utility model, this protective layer is by made by hard acryl or hard glass.

Accompanying drawing explanation

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

Fig. 2 is the structural representation before this utility model laminating；

Fig. 3 is the structural representation after this utility model laminating.

Description of reference numerals: 1-shows contactor control device；11-backlight module；111-light guide plate；112-optical diaphragm group；113-reflector；12-liquid crystal touch panel；2-glue-line；3-inhales ripple layer；31-frame glue；4-protective layer；41-prints layer.

Detailed description of the invention

For reaching above-mentioned purpose and effect, technological means that this utility model is used and structure thereof, hereby draw as follows with function with regard to its structure of preferred embodiment elaborate of the present utility model.

As shown in Figure 1, Figure 2, Figure 3 shows; it is respectively the structural representation before three-dimensional exploded view of the present utility model, laminating and the structural representation after laminating; by in figure it can be seen that; this utility model includes showing contactor control device 1, glue-line 2, inhaling ripple layer 3 and protective layer 4; therefore with regard to the main member of this case and feature describe in detail as after, wherein:

nullThis display contactor control device 1 has backlight module 11，And it is provided with a liquid crystal touch panel 12 in surface, backlight module 11 side，And this backlight module 11 have light source (not shown) and be available for light source projects light carry out luminescence light guide plate 111，Light source is preferably implemented can be light emitting diode (LED)，But when reality is applied，Also can be a cold-cathode tube (CCFL)、Electroluminescence device (EL) or other visible light source，Surface, light guide plate 111 side is provided with the optical diaphragm group 112 fitted on liquid crystal touch panel 12 again，And it is provided with reflector 113 in light guide plate 111 relative to the opposite side surface of optical diaphragm group 112，Owing to the kind of backlight module 11 is a lot of with pattern，And can be according to actual application or demand change structure design，To provide the uniform area light source needed for liquid crystal touch panel 12.

This glue-line 2 can be the mode molding that acryl glue (Acrylic) or silica gel (Silicon) utilize coating.

This suction ripple layer 3 is a frame-type in centre hollow out, and by a laminar structure made by ferrum, zinc, nickel, metal alloy or other metal material, inhale place around ripple layer 3 surface and be formed with frame glue 31, and this frame glue 31 also can be the mode molding that acryl glue (Acrylic) or silica gel (Silicon) utilize coating.

This protective layer 4 is made up of hard acryl or hard glass, and there is anti-finger dirt, the optical effect of abrasion performance and high transmission rate and low haze, and on protective layer 4 one side surface, utilize the mode of printing processing to be formed with printing layer 41, printing layer 41 can coordinate preset electronic device to be positioned at the pattern such as interface equipment or frame of protective layer 4, as preset electronic device is positioned at the button of protective layer 4 periphery, volume key, camera aperture or other reserved slotted eye etc., or its screen is positioned at the designs such as the frame around protective layer 4, it is beneficial to print layer 41 be printed on protective layer 4 surface, and coordinate the positions such as preset electronic device interface equipment or frame.

nullWhen this utility model is in time assembling，Glue-line 2 first utilize the liquid crystal touch panel 12 that the mode pasted is incorporated in display contactor control device 1 relative to forming a smooth shape on the opposite side surface of backlight module 11，And after making suction ripple layer 3 be aligned with at glue-line 2，Suction ripple layer 3 is fitted in downwards formation one smooth shape on glue-line 2 surface again，And protective layer 4 fit in inhale ripple layer 3 relative to around liquid crystal touch panel 12 opposite side surface place frame glue 31 on after，Just can be positioned between display contactor control device 1 and protective layer 4 to be combined into a layer structure by inhaling ripple layer 3，And utilize a suction ripple layer 3 in the frame-type of centre hollow out，Glue-line 2 is made can mutually to be binded with protective layer 4 by display contactor control device 1 to be integrally forming by inhaling ripple layer 3，To improve overall structural strength and stability，Guarantee quality and the qualification rate manufactured simultaneously.

nullThe electronic installation display optimal specific embodiment of touch-control structure of the antinoise interference that this utility model provides is for being applied on smart mobile phone，But when reality is applied，It is equally applicable for notebook computer、Tablet PC、E-book or other electronic installation (not shown)，When user touches on the screen of electronic installation，Can carry out manipulating or perform its function by liquid crystal touch panel 12，And utilize protective layer 4 to protect screen to be difficult to scratch or external impacts and rupture，This kind inhale ripple layer 3 overall structure comparatively simple and be prone to make，With effective cost saved needed for manufacturing，And may utilize the Electromagnetic Interference (EMI) that suction ripple layer 3 induced absorption electronic installation produces when work because of galvanomagnetic-effect、The noise jamming such as electrostatic and cross-talk，And directed transmission discharges to earth terminal，The electromagnetic wave simultaneously produced during suppression electronic installation high frequency signal transmission、The noise jamming such as electrostatic and cross-talk，The quality making overall signal transmit is more stable，Also harm and harmful effect that human body uses electronic installation and being chronically exposed to be caused under electromagnetic wave can be reduced，The more effect of practicality.

Above-mentioned detailed description is to illustrate for this utility model one preferably possible embodiments, but this embodiment is not limited to right of the present utility model, all other changes with modifying without departing from the impartial change completed under the skill spirit disclosed in this utility model, is intended to be limited solely by right of the present utility model.

Claims (6)

1. the electronic installation display touch-control structure of an antinoise interference, it is characterised in that include display Contactor control device, glue-line, suction ripple layer and protective layer, wherein:

This display contactor control device has backlight module, and is provided with a liquid in this surface, backlight module side Brilliant contact panel；

This liquid crystal touch panel is relative to being formed with this glue-line and this suction ripple at the opposite side of this backlight module Layer, this suction ripple laminating is combined on this glue-line and in order to absorb the noise jamming that preset electronic device produces；

This suction ripple layer is formed with frame glue relative to place around the opposite side surface of this liquid crystal touch panel and is somebody's turn to do Protective layer, this protective layer is fitted on this frame glue, and this suction ripple layer is positioned at this display contactor control device and is somebody's turn to do Between protective layer and form a layer structure.

The electronic installation display touch-control structure of antinoise the most according to claim 1 interference, it is special Levying and be, the backlight module in this display contactor control device has light guide plate, and in this light guide plate side table It is provided with the optical diaphragm group fitted on this liquid crystal touch panel at face, and this light guide plate is relative to this light The opposite side surface learning diaphragm group is provided with reflector.

The electronic installation display touch-control structure of antinoise the most according to claim 1 interference, it is special Levying and be, this suction ripple layer is by made by ferrum, zinc, nickel or metal alloy material.

The electronic installation display touch-control structure of antinoise the most according to claim 1 interference, it is special Levying and be, this suction ripple layer is a frame-type in centre hollow out.

The electronic installation display touch-control structure of antinoise the most according to claim 1 interference, it is special Levying and be, this protective layer is formed with printing layer adjacent to inhaling on a side surface of ripple layer.

The electronic installation display touch-control structure of antinoise the most according to claim 1 interference, it is special Levying and be, this protective layer is by made by hard acryl or hard glass.