The present disclosure relates to a field of display panel, particularly to a field to an adhesive structure of display panel by utilizing optically clear adhesive.
In present smart terminals, phones having glass covers with static curvatures utilize cutting frame adhesive (such as double-sided adhesive or foam glue), dispensing adhesive, adhesive tape, and other sticking method to adhere display panel modules and system frames. Nowadays, optically clear adhesive (OCA) is most widely used on adhering display panel module and system frame in touch display panel. OCA is suitable for adhering structures with portions of bends. The adhering capability between the display panel module and the system frame depends on material, thickness, length, and adhesion of the OCA. However, display areas on display panels become lager and the edge of frames become narrower. Therefore, spaces for adhering display panel modules and system frame are limited, especially for phones having glass covers with static curvatures. Therefore, the assembling reliabilities of the display panel modules and system frames are affected.
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In addition, the present foam adhesive 14 is double-sided adhesive tape for adhere the display layer 13 and the system frame 17. Double-sided adhesive tape not only requires extra adhering components in the present adhesive structure for adhering panels to system frames, but also enlarges a distance between the display layer 13 and the system frame. As a result, a gap between the display panel module and the system frame is enlarged.
Hence, an adhesive structure for adhering a display panel to a system frame is required to solve problems of light leaking in wide viewing angles resulted from the gap between the display panel module and the system frame.
The present disclosure provides An adhesive structure for adhering a panel to a system frame including the system frame, the panel, a frame adhesive, and a foam glue. The panel includes a glass cover, a display layer, and an optically clear adhesive (OCA). The display layer configured to display images. The OCA configured to adhere the glass cover and the display layer. The frame adhesive disposed between the glass cover and the system frame for adhering the glass cover and the system frame. The foam glue disposed between the display layer and the system frame for being a buffer between the display layer and the system frame. The OCA comprises partly OCA dispose at edge of the OCA; the partly OCA is a part of OCA which wider than the display layer; the partly OCA is disposed between the display layer and the system frame for adhering the display layer and the system frame.
The present disclosure further provides An adhesive structure for adhering a panel to a system frame including the system frame and the panel. The panel includes a glass cover, a display layer, and an OCA. The display layer configured to display images. The OCA configured to adhere the glass cover and the display layer. The OCA comprises partly OCA dispose at edge of the OCA. The partly OCA is a part of OCA which wider than the display layer; the partly OCA is disposed between the display layer and the system frame for adhering the display layer and the system frame.
Preferably, The adhesive structure for adhering the panel to the system frame further includes a frame adhesive disposed between the glass cover and the system frame for adhering the glass cover and the system frame.
Preferably, The adhesive structure for adhering the panel to the system frame further includes a foam glue disposed between the display layer and the system frame for being a buffer between the display layer and the system frame.
The present disclosure further provides An adhesive method for adhering the panel and to system frame includes step one: cutting a light release film into a first light release film and a second light release film, wherein the light release film is on a first side of an optically clear adhesive OCA; a width of the first light release film and a width of a display layer is equal; the second light release film is laterally disposed beside the first light release film; step two: removing the first light release film and sticking the OCA on the display layer, wherein a width of the OCA is wider than the width of the display layer; step three: bending the second light release film and parts of OCA being wider than the display layer down to the display layer; step four: removing the second light release film and adhering the display layer on the system frame through the parts of OCA being bent down to the display layer.
Preferably, the step one includes cutting a heavy release film into a first heavy release film and a second heavy release film, wherein the heavy release film is on a second side of the OCA. A width of the first heavy release film and a width of the display layer is equal. The second heavy release film is laterally disposed beside the first heavy release film.
Preferably, the step two includes removing the first heavy release film and adhering a glass cover on the OCA.
Preferably, the step two comprises removing the second heavy release film after adhering the glass cover on the OCA.
Preferably, a width of the film and a width of the heavy release film are wider than the display layer; the width of the film is wider than the width of the heavy release film.
Preferably, The adhesive method for adhering the panel to the system frame further includes a frame adhesive disposed between the glass cover and the system frame for adhering the glass cover and the system frame
Preferably, The adhesive method for adhering the panel to the system frame further includes a foam glue disposed between the display layer and the system frame for being a buffer between the display layer and the system frame.
The advantages of the present disclosure is adhering the glass cover, the display layer, and the system frame by utilizing one layer of the OCA. Hence, steps of assembling the glass cover, the display layer, and the system frame can be simplified. Also manufacturing processes of panels can be simplified. Therefore, light leaking at wide viewing angles and display quality can be improved.
The illustrations of the following embodiments take the attached drawings as reference to indicate the present disclosure. The mentioned directional terms in the present disclosure, such as vertical, horizontal, upper, lower, left, right, front, back, are in the purpose of clarifying the relationships between components rather than in the purpose of limiting the embodiments of the present disclosure. Obviously, the described embodiments are only a part but not all of the embodiments. For a skilled person in the art, other embodiments obtained by referencing the embodiments of the present disclosure without creative efforts fall in the protected scope of the present disclosure.
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In the adhesive structure and adhesive method for adhering the panel to the system frame, the glass cover, the display layer and the system frames can be adhered by one layer of OCA. Hence, steps of assembling the glass cover, the display layer, and the system frame can be simplified. Also manufacturing processes of panels can be simplified. Therefore, light leaking when watching the panel at a wider viewing angle and display quality are improved.
To conclude, embodiments disclosed above are preferable embodiments of the present disclosure. Any changes and modifications can be completed by a skilled person in the art on the basis of the concept of the present disclosure without creative effort should be viewed as protected scopes of the present disclosure.
Number | Date | Country | Kind |
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201910100451.5 | Jan 2019 | CN | national |
Filing Document | Filing Date | Country | Kind |
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PCT/CN2019/084169 | 4/25/2019 | WO | 00 |