1. Fields of the Invention
The present invention relates to a touch panel, especially to a touch panel made from matrix whose Mohs hardness is greater than 8.
2. Descriptions of Related Art
In the 1970s, the US military for the first time touch panel technology for military purposes and then the technology gradually is applied to civilian transfer such as automatic teller machines (ATM) in banks, automatic ticket vending machines in stations, store point of sale (POS) system, smart phones, vehicle touch panel, etc. Due to easy operation, the touch panel has replaced conventional keyboard to be used in various electronic products, especially mobile communication products and consumer products. The touch panel formed by a display panel and an input device has become essential component of high-level electronic products.
According to the type of sensor, touch panels are roughly divided into capacitive type, resistive type, surface acoustic wave type, infra-red type, etc. The resistive touch panel becomes a mainstream and maintains about 58% market share. The capacitive is the second largest, about 22%. The rest has small market share. Although the resistive touch panel has disadvantages of poor light transmittance, bad durability, etc, it still has become main stream on the market due to low cost and thinner thickness, and thus being applied to large amount of medium/small size consumer and communication electronic products. As to the capacitive touch panel, it can only perform single-touch compared to the resistive type. Although the capacitive type is more expensive, it's more durable, anti-scratch, not afraid of dust and dirt effects, and having multi-touch. Moreover, the image of the capacitive type can be enlarged or dragged easily and the operation is more user-friendly and instinctive. Furthermore, due to broader applications of multi-touch technology and patent expiration of the capacitive touch panels in near future, many companies have invested a lot in the development of the capacitive touch panels.
Along with the prevalence of glass touch panels, the glass has broader applications on portable devices. Generally, the glass can be coated with a conductive layer so that the glass needs to have high light transmittance. Or the glass is used as a part of the portable device for protecting the screen and the touch panel and the glass needs to have smudge resistance, dirt resistance, scratch resistance, impact resistance and enhanced structure. In order to prevent scratches or other damages on the surface of the touch panel, a cover plate (tempered glass) is arranged over the surface of the conventional touch panel. Thus there are three layers of substrates in the conventional touch panel and the thickness of the touch panel is increased. Moreover, the surface of the cover plate needs coating treatment and anti-smudge treatment to prevent smudges and dirt. Thus the manufacturing cost of the touch panel is increased.
In order to solve the above problems, a touch panel of the present invention reduces the thickness thereof dramatically by only a touch display module mounted between a substrate and a cover plate. Moreover, the cover plate or the substrate is made from matrix whose Mohs hardness is greater than 8 such as sapphire or spinel so that the cover plate or the substrate has good surface hardness. Without additional coating and anti-smudge treatment of the cover plate or the substrate, the manufacturing cost of the touch panel is reduced significantly.
Therefore it is a primary object of the present invention to provide a touch panel that is formed by only a touch display module clipped between a substrate and a cover plate. Thus the thickness of the touch panel is reduced significantly.
It is another object of the present invention to provide a touch panel that includes a cover plate or a substrate made from matrix whose Mohs hardness is greater than 8. The cover plate or the substrate is with good surface hardness so that a surface of the cover plate or of the substrate is not necessary to have coating treatment. The cover plate or the substrate will not have scratches or stains even after long term use or multiple times of touching and the manufacturing cost of the touch panel is also reduced without additional treatment.
In order to achieve the above objects, a touch panel of the present invention includes a substrate, a touch display module disposed on the substrate and a cover plate that covers the touch display module. The Mohs hardness of the substrate, the Mohs hardness of the cover plate, or the Mohs hardness of both the substrate and the cover plate is greater than 8.
Another touch panel of the present invention includes a substrate, a display module arranged at the substrate, a cover plate covering the display module, and a touch sensor module disposed over the substrate and located between the cover plate and the display module. The Mohs hardness of the cover plate is larger than 8.
The structure and the technical means adopted by the present invention to achieve the above and other objects can be best understood by referring to the following detailed description of the preferred embodiments and the accompanying drawings, wherein
In order to prevent scratches or other damages formed on the surface of the touch panel, a cover plate is disposed on the surface of the conventional touch panel. Thus the conventional touch panel has three layers of substrate and this increases the thickness of the touch panel. The cover plate is made from tempered glass whose Mohs hardness is ranging from 5 to 6 and is located on the outermost layer of the touch panel. Thus the cover plate is at the position being pressed and touched the most often by users. After being used for a long period or multiple times, the cover plate is easy to have dirt or stains. Thus the surface of the cover plate needs to have coating and anti-smudge treatment so as to increase stain resistance of the surface of the cover plate. This leads to a higher manufacturing cost.
In order to solve the above problem, a touch panel of the present invention only includes a touch display module arranged between a substrate and a cover plate for reducing the thickness of the touch panel. Moreover, the cover plate or the substrate on the outermost of the touch panel for users to touch and operate is made from matrix whose Mohs hardness is over 8 such as sapphire or spinel so that the cover plate or the substrate has good surface hardness. Thus there is no need to have coating and anti-smudge treatment on the surface of the cover plate or the substrate. Therefore the manufacturing cost is reduced significantly. Moreover, the surface of the cover plate or the surface of the substrate can be patterned so as to increase light transmittance of the cover plate or the substrate.
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The substrate 10 and the cover plate 13 are respectively set over and under the touch display module 11. That means the substrate 10 is disposed under the thin film transistor 1111 of the touch display module 11 while the touch sensor module 112 is arranged over the substrate 10. The touch sensor module 112 is formed together with the thin film transistor 1111 during manufacturing processes. Moreover, the cover plate 13 is covered over the organic electroluminescent element 1112 of the display module 111 and is corresponding to the substrate 10. In other words, the touch display module 11 composed of the display module 111 and the touch sensor module 112 connected to each other is clipped between the substrate 10 and the cover plate 13 so as to form the touch panel 1 in this embodiment. Finally, a sealing adhesive 15 is set between the substrate 10 and the cover plate 13 so as to integrate the substrate 10, the touch display module 11 having the display module 111 and the touch sensor module 112, and the cover plate 13 into one piece. Compared with conventional touch panel, the present invention only includes the touch display module 11 clipped between the substrate 10 and the cover plate 13. Thus the thickness of the touch panel 1 of the present invention is smaller than the thickness of the conventional touch panel and this meets customers' requirements.
While being applied with a voltage, the organic electroluminescent element 1112 in an excited state generates a light source 11120 that moves toward the cover plate 13. Thus a surface of the cover plate 13 is a light emitting surface and at the same time is also a touch control surface for users to perform operations such as press and touch. In this embodiment, the cover plate is made from matrix whose Mohs hardness is greater than 8 such as sapphire or spinel. Thus the cover plate 13 has better surface hardness and there is no need to coat the surface or have surface treatment of the cover plate 13 such as anti-smudge treatment, anti finger treatment. The cover plate 13 is durable, not easily cracked or broken after long-term or multiple times of pressing and touching. There is no scratch, dirt or damage caused by friction on the surface of the cover plate 13 due to better surface hardness of the cover plate 13. Moreover, the manufacturing cost of the touch panel is reduced without additional surface treatment of the cover plate 13. Similarly, the substrate 10 of this embodiment can also be made from matrix with the Mohs hardness greater than 8.
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Due to similar refractive index of the materials for the cover plate 13 and the organic electroluminescent element 1112, the surface of the cover plate 13 can have special optical design. For example, the surface of the cover plate 13 of this embodiment close to the touch display module 11 is coated with at least one optical thin film 14 such as brightness enhancement film (BEF). In this embodiment, the refractive index of the optical thin film 14 is smaller than that of the cover plate 13, about 1.52. The materials for the optical thin film include metal oxides, metal fluorides, etc. The thickness of the optical thin film 14 is ranging from 200 nm to 1200 nm while 300 nm to 700 nm is preferred. The combination of high refractive index/low refractive index results in Bragg resonance and total internal reflection will not occur. The surface reflection of the cover plate 13 is reduced effectively. Thus the light output efficiency and the display contrast of the touch panel 1 are improved significantly.
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When the light source 11120 from the organic electroluminescent element 1112 moves toward the substrate 10, the 3D pattern layer 101 of the substrate 10 reduces total internal reflection caused by internal light source of the touch panel 1 and increases light transmittance of the touch panel 1. Thus the light output efficiency of the touch panel 1 is improved significantly. The cover plate 13 of this embodiment is made from tempered glass substrate used in conventional touch panels. The matrix with the Mohs hardness greater than 8 is preferred. Thus the surface of the cover plate 13 is with good hardness and there is no need to have following anti-smudge treatment and surface coating. Therefore the manufacturing cost of the touch panel 1 is down.
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In summary, the touch panel of the present invention is composed of the touch display module clipped between the substrate and the cover plate so that the thickness of the touch panel is reduced significantly. Moreover, the cover plate or the substrate is made from matrix having Mohs hardness greater than 8. Thus the surface of the cover plate or of the substrate is with higher surface hardness is not necessary to have coating or anti-smudge treatment. The manufacturing cost of the touch panel is dramatically reduced and this meets customers' requirements. Furthermore, an inner surface of the cover plate/or the substrate is patterned to form a 3D pattern layer thereon for reducing total internal reflection of an internal light source of the touch panel and further improving light output efficiency of the touch panel. Finally, the refractive index of the materials for the cover plate/or the substrate is similar to that of the materials for the organic electroluminescent element and the outer surface of the cover plate/or the substrate is coated with at least one optical thin film whose refractive index is smaller than the refractive index of the cover plate/or the substrate. Thus the combination of high refractive index and the low refractive index results in Bragg resonance and the light output efficiency of the touch panel 1 is further improved.
Additional advantages and modifications will readily occur to those skilled in the art. Therefore, the invention in its broader aspects is not limited to the specific details, and representative devices shown and described herein. Accordingly, various modifications may be made without departing from the spirit or scope of the general inventive concept as defined by the appended claims and their equivalents,
Number | Date | Country | Kind |
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101113579 | Apr 2012 | TW | national |