A kind of shockproof radioresistance mobile terminal
Technical field
The utility model relates to a kind of mobile terminal, especially a kind of shockproof radioresistance mobile terminal.
Background technology
Mobile terminal refers to the computer equipment that can move use, and along with the development of information technology, mobile terminal has obtained generally application in people life, and its kind is also horn of plenty more of variation and function day by day, thereby has significantly promoted people's quality of life.
Due to the mobile terminal radiation that can generate electromagnetic waves in communication process, healthy unfavorable to people, and service time and the frequency of people to mobile terminal is higher, easily fall to because of carelessness ground and cause damaging, but existing mobile terminal product radioresistance and shake-proof ability still needs to promote.
Summary of the invention
For the deficiencies in the prior art, the utility model provides a kind of easy to use, comprehensive shockproof radioresistance mobile terminal of performance.
The technical solution of the utility model is: a kind of shockproof radioresistance mobile terminal, comprise fore shell and back cover, between described fore shell and back cover, be provided with terminal body, it is characterized in that: in the window on described fore shell top, be provided with touch-screen and touch-screen edge and be provided with screen limit protective layer, touch-screen comprises glass substrate, titanium oxide silicon layer and anti-electromagnetic-radiation layer, described glass substrate inner surface is the curved surface shape of convex and is provided with the titanium oxide silicon layer of printing opacity, glass substrate outer surface is provided with anti-electromagnetic-radiation layer, described fore shell outer surface and back cover outer surface are coated with shell face adhesive linkage and anti-electromagnetic-radiation layer successively.
Described fore shell top is provided with front-facing camera hole, speaker hole and breathing lamp hole and correspondence is provided with waterproofing membrane, and back cover is provided with post-positioned pick-up head hole and correspondence is provided with waterproofing membrane.
In described touch-screen, the anti-electromagnetic-radiation layer outside of glass substrate is bonded with screen external protection, and screen external protection can be made up of macromolecule membrane and hard conating, and wherein macromolecule membrane is bonding plane.
Described screen limit protective layer is made up of polyethylene, rubber or foam, and this screen limit protective layer is circumferentially arranged on touch-screen edge and sticks to the touch-screen back side with less width.
Described fore shell bottom is provided with key zone.
Described back cover lateral opening edge is provided with the luminous zone of being made up of Noctilucent material.
Described shell face adhesive linkage is layer of varnish, rubber enamelled coating, epoxy resin layer or acrylate resin layer.
The beneficial effects of the utility model are: 1, the glass substrate of touch-screen is curved surface shape and is further provided with screen external protection, screen limit protective layer, has promoted the shock resistance of mobile terminal.2, on touch-screen, fore shell and back cover, be provided with anti-electromagnetic-radiation layer, make mobile terminal there is good radiation resistance.3, the water resistance of this mobile terminal and serviceability all have lifting, and luminous zone also can be further set, thereby have met better user's demand.
Brief description of the drawings
Fig. 1 is structural representation of the present utility model.
In figure, 1-fore shell, 2-back cover, 3-luminous zone, 11-key zone, 12-touch-screen, 13-screen limit protective layer, 14-front-facing camera hole, 15-speaker hole, 16-breathes lamp hole, 21-post-positioned pick-up head hole.
Embodiment
Below in conjunction with accompanying drawing, embodiment of the present utility model is described further:
As shown in Figure 1, a kind of shockproof radioresistance mobile terminal, comprise fore shell 1 and back cover 2, between described fore shell 1 and back cover 2, be provided with terminal body, fore shell 1 top is provided with front-facing camera hole 14, speaker hole 15 and breathing lamp hole 16 correspondence are provided with waterproofing membrane, fore shell 1 bottom is key zone 11, back cover 2 is provided with post-positioned pick-up head hole 21 and correspondence is provided with waterproofing membrane, back cover 2 lateral opening edges are provided with luminous zone 3, touch-screen 12 comprises glass substrate, titanium oxide silicon layer and anti-electromagnetic-radiation layer, described glass substrate inner surface is the curved surface shape of convex and is provided with the titanium oxide silicon layer of printing opacity, glass substrate outer surface is provided with anti-electromagnetic-radiation layer, anti-electromagnetic-radiation layer outside is bonded with macromolecule membrane and hard conating successively, wherein macromolecule membrane and hard conating form screen external protection, touch-screen 12 is arranged in the window on fore shell 1 top and touch-screen 12 edges are circumferentially provided with the screen limit protective layer 13 of being made up of rubber, described fore shell 1 outer surface and back cover 2 outer surfaces are coated with shell face adhesive linkage and anti-electromagnetic-radiation layer successively.Based on said structure design, the utlity model has the easy to use and comprehensive advantage of performance, can meet consumers' demand better.
That in above-described embodiment and specification, describes just illustrates principle of the present utility model and most preferred embodiment; do not departing under the prerequisite of the utility model spirit and scope; the utility model also has various changes and modifications, and these changes and improvements all fall within the scope of claimed the utility model.