This application claims the priority benefit of Chinese Patent Application Filing Serial Number CN 201320169051.8, filed on Apr. 5, 2013, the disclosure of which is herein incorporated by reference in its entirety.
The present disclosure generally relates to a display apparatus providing sound generation function, and more particularly to a portable electronic device including a screen for converting variations of electrical energy into corresponding variations of acoustic energy by a piezoelectric vibration module.
In accordance with the development of a mobile communication technology, terminals such as cellular phones, personal digital assistances (PDAs), and navigations can serve as a unit that simply displays character information as well as a unit for providing various and complex multi-media contents such as audio, moving picture, radio internet web browser, or the like. Therefore, electronic information terminals having a limited size require a larger display screen, such that a display device using a touch screen has become prominent.
As is well known, in a portable electronic device such as a cellular phone, a game machine, or the like, a piezoelectric vibration module has been employed widely. Particularly, a piezoelectric vibration module performing the sound function has been mounted in a mobile device having a screen. A tactile feedback generation function using the sense of touch (vibration) is added to the touch screen, so that a feedback according to input operation performed in accordance with the type of information can be offered to the user through the sense of touch.
It is well known that, the piezoelectricity exists everywhere, and the pressure is also a kind of energy source. If a pressure is applied to a piezoelectric material, an electric potential difference will be generated (i.e., the piezoelectricity effect); and conversely, if a voltage is applied, a mechanical stress will be generated (i.e., the conversed piezoelectricity effect). If such energy that is ignored unconsciously can be collected and converted into electric energy for use, it will be beneficial to the society that suffers from a shortage of energy resources.
However, the more applications and the higher speed of the mobile phones necessitate consumption of more electric energy, so batteries of the mobile phones have become a bottleneck for the mobile phones, and how to prolong the service duration of the mobile phone batteries or how to recharge the batteries conveniently in real time have become a hot topic of research in the art.
Therefore, the present disclosure provides a screen sounder that converts the human beings' mechanical kinetic energy into electric energy by use of the existing piezoelectric vibrators in portable electronic device with an additional functional module to solve the problems mentioned above.
Many aspects of the embodiment can be better understood with reference to the following drawings. The components in the drawings are not necessarily drawn to scale, the emphasis instead being placed upon clearly illustrating the principles of the present disclosure. Moreover, in the drawings, like reference numerals designate corresponding parts throughout the several views.
Reference will now be made to describe the exemplary embodiments of the present disclosure in detail.
Referring to
The switching control unit 82 is configured to interrupt the electrical connection between the audio signal source 80 and the piezoelectric module 14 according to the work mode of the piezoelectric module. That is to say, when the piezoelectric module 14 receives an audio signal from the audio signal source 80, the switching control unit 82 will interrupt the electrical connection between the piezoelectric module 14 and the rechargeable module 81, then the piezoelectric module 14 drives the screen 15 to generate sound. Alternatively, the screen causes elastic deformation by an external force so as to cause the piezoelectric module to deform, thereby producing electric energy based on piezoelectricity effect. Then, the switching control unit 82 will interrupt the electrical connection between the piezoelectric module 14 and the audio signal source 80, accordingly, the electric energy is inputted into the rechargeable module 81.
In the embodiment, the front case 11 includes a ring-shaped frame 111 which has a rectangular outside forming a circular opening for supporting the screen 15, a bracket 112 supported by the frame 111. Furthermore, the front case 11 further includes an annular gasket 113 sandwiched between the frame 111 and the bracket 112 for sealing the screen sounder 100 and providing a restoring force to the screen 15. The shape of the bracket 112 is substantially identical to the gasket 113 in the present embodiment. The bracket 112 includes a sidewall 1121 for supporting the piezoelectric module 14.
The piezoelectric module 14 with a narrow rectangular shape includes a piezoceramic plate 141 and a connecter 142 mounted on the piezoceramic layer 141 for transmitting force. One end of the connecter 142 is fixed on the piezoceramic plate 141 and the other end is fixed on the back side of the screen 15. Another word, the connecter 142 is located between the piezoceramic plate 141 and the screen 15, with two ends thereof connecting with the piezoceramic plate 141 and the screen 15, respectively. The piezoceramic plate 141 includes a substrate 1411 and a piezoelectric ceramic layer 1412 mounted on both sides of the substrate 1411. It is just like a bridge that two ends of the substrate 1411 are mounted on two sidewalls 1121 of the bracket 112. Based on Conversed Piezoelectricity Effect, the piezoceramic plate 141 drives the screen 15 to vibrate so as to generate sound in a frequency range via the connecter 142. Conversely, based on Piezoelectricity Effect, a deforming force from the screen 15 is transmitted to the piezoceramic plate 141 via the connecter 142. The deforming force is converted by the piezoelectric ceramics plate 141 into the electric energy to charge the rechargeable module 81.
In this embodiment, the screen sounder 100 includes two piezoelectric modules 14 parallel to each other which are attached to the screen 15 by two connecters 142, respectively. In another word, each piezoelectric module 14 includes at least one connecter 142. As shown in
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The present disclosure describes a handheld device using a piezoelectric module attached to the screen. In fact, the piezoelectric module may be mounted with the housing. Vibration of the handheld device is converted to electric energy by deformation of the piezoelectric module for recharging the handheld device.
While the present invention has been described with reference to specific embodiments, the description of the invention is illustrative and is not to be construed as limiting the invention. Various of modifications to the present invention can be made to the exemplary embodiments by those skilled in the art without departing from the true spirit and scope of the invention as defined by the appended claims.
Number | Date | Country | Kind |
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201320169051.8 | Apr 2013 | CN | national |