CN204887136U - Electronic device - Google Patents

Abstract

The utility model provides an electronic device relates to the electronic device field, and the purpose that reaches is the demonstration luminance that has strengthened the printing opacity sign on the electronic device, has improved user experience. The main technical scheme who adopts does: electronic device includes casing, mainboard, light source and leaded light post. Has at least one printing opacity sign on the casing. The mainboard sets up in the accommodation space that the casing encloses. The light source sets up on the mainboard, the light source obtains electric energy transmission light beam. The leaded light post of leaded light post for making light carry out the total reflection, the leaded light post has optical input end and light yield end. Optical input end with the light source corresponds, light yield end with the printing opacity sign corresponds, be used for with the light beam total reflection is arrived in the printing opacity sign.

Description

Electronic equipment

Technical field

The utility model relates to electronic device field, particularly relates to a kind of electronic equipment.

Background technology

Along with developing rapidly of electronic equipment, electronic equipment has become the necessity in people's life, study and work.Such as mobile phone, panel computer, notebook computer etc.People require that these electronic equipments are more and more tending towards lightening.For mobile phone, thinning along with mobile phone, people more and more grow tender of the use of large-screen mobile phone.Therefore, the frame of mobile phone needs to make narrow frame.And the making of narrow frame makes the printing opacity on housing identify and irradiation light generation off normal, cause irradiation light direct projection to identify to printing opacity, thus printing opacity cannot be made to identify display brightness, cause people that printing opacity cannot be found to identify.

In prior art, normally utilize the light-guiding pillar be made up of acrylic material, the refraction of optical beam sent by irradiation light by light-guiding pillar in printing opacity mark, thus can make printing opacity identify display brightness.But because the light-conductive rate of the light-guiding pillar of acrylic material is poor, and have segment beam and lost in the process of refraction, the display brightness causing printing opacity to identify is more weak, affects Consumer's Experience.

Utility model content

Main purpose of the present utility model is the electronic equipment providing a kind of new structure, and technical problem to be solved is that the display brightness of the printing opacity mark of more existing electronic equipments is more weak, affects Consumer's Experience.

The purpose of this utility model and solve its technical problem and realize by the following technical solutions:

The utility model provides a kind of electronic equipment, and this electronic equipment comprises:

Housing, described housing has at least one printing opacity mark;

Mainboard, described mainboard is arranged in the accommodation space that described housing surrounds;

Light source, described light source is arranged on described mainboard, and described light source obtains electric energy transmitted beam;

Light-guiding pillar, described light-guiding pillar is the light-guiding pillar that light can be made to carry out total reflection; Described light-guiding pillar has light input end and light output end;

Described light input end is corresponding with described light source, and described light output end identifies corresponding with described printing opacity, for described light beam being totally reflected to described printing opacity mark.

Foregoing electronic equipment, wherein, described light-guiding pillar is optical fiber tube.

Foregoing electronic equipment, wherein, described electronic equipment also comprises:

Light-diffusing film, described light-diffusing film for receive described optical fiber tube reflex to described printing opacity mark on light beam;

Described light-diffusing film is attached in described printing opacity mark; Or described light-diffusing film is attached on the end face of the light output end of described optical fiber tube.

Foregoing electronic equipment, wherein,

Described light-diffusing film is attached in described printing opacity mark, and the light output end of described optical fiber tube is vertical with described light-diffusing film.

Foregoing electronic equipment, wherein, described light-diffusing film is the film be made up of pet material.

Foregoing electronic equipment, wherein, described electronic equipment also comprises:

Framework, described framework is arranged in described accommodation space, and the side of described framework is provided with described mainboard, and opposite side identifies corresponding with described printing opacity; Described framework is provided with through hole;

Described optical fiber tube is connected with described through hole interference, and the light input end of described optical fiber tube and light output end identify corresponding with described light source and described printing opacity respectively.

Foregoing electronic equipment, wherein, described housing has printing opacity mark described in two or more;

The region often mapped between adjacent two described printing opacity marks is provided with a described light source.

Foregoing electronic equipment, wherein, often the center line of adjacent two described printing opacity marks is provided with a described light source.

Foregoing electronic equipment, wherein, described light source is light-emitting diode.

Foregoing electronic equipment, wherein, described electronic equipment is mobile phone, panel computer, keyboard or notebook computer.

By technique scheme, the utility model structure at least has following advantages:

The technical scheme that the utility model provides is by being provided with the light-guiding pillar that light can be made to carry out total reflection, the light input end of light-guiding pillar is corresponding with light source, the light output end of light-guiding pillar identifies corresponding with the printing opacity on housing, the light that light source is sent is identified by light-guiding pillar total reflection to printing opacity, and point-source of light is formed in printing opacity mark, thus decrease the loss of light beam, and then enhance the display brightness of the printing opacity mark on housing, improve Consumer's Experience.

Above-mentioned explanation is only the general introduction of technical solutions of the utility model, in order to better understand technological means of the present utility model, and can be implemented according to the content of specification, coordinates accompanying drawing to be described in detail as follows below with preferred embodiment of the present utility model.

Accompanying drawing explanation

By reading hereafter detailed description of the preferred embodiment, various other advantage and benefit will become cheer and bright for those of ordinary skill in the art.Accompanying drawing only for illustrating the object of preferred implementation, and is not thought restriction of the present utility model.And in whole accompanying drawing, represent identical parts by identical reference symbol.In the accompanying drawings:

A kind of implementation structure schematic diagram of the electronic equipment that Fig. 1 provides for the utility model embodiment;

The explosive view of a kind of implementation structure of the electronic equipment that Fig. 2 provides for the utility model embodiment.

Embodiment

The problem that the display brightness that the utility model identifies for the printing opacity of existing electronic equipment is more weak, proposes a kind of electronic equipment of new structure, enhances the display brightness of printing opacity mark, improves user.

The technical scheme of the utility model embodiment is for solving the problems of the technologies described above, and general thought is as follows:

In the technical scheme that the utility model embodiment provides, described electronic equipment comprises:

Housing, described housing has at least one printing opacity mark;

Mainboard, described mainboard is arranged in the accommodation space that described housing surrounds;

Light source, described light source is arranged on described mainboard, and described light source obtains electric energy transmitted beam;

Light-guiding pillar, described light-guiding pillar is the light-guiding pillar that light can be made to carry out total reflection; Described light-guiding pillar has light input end and light output end;

Described light input end is corresponding with described light source, and described light output end identifies corresponding with described printing opacity, for described light beam being totally reflected to described printing opacity mark.

The technical scheme that the utility model provides is by being provided with the light-guiding pillar that light can be made to carry out total reflection, the light input end of light-guiding pillar is corresponding with light source, the light output end of light-guiding pillar identifies corresponding with the printing opacity on housing, the light that light source is sent is identified by light-guiding pillar total reflection to printing opacity, and point-source of light is formed in printing opacity mark, thus decrease the loss of light beam, and then enhance the display brightness of the printing opacity mark on housing, improve Consumer's Experience.

For further setting forth the utility model for the technological means reaching predetermined utility model object and take and effect, below in conjunction with accompanying drawing and preferred embodiment, to according to its embodiment of testing stand, structure, feature and the effect thereof that the utility model proposes, be described in detail as follows.In the following description, the not necessarily same embodiment that different " embodiment " or " embodiment " refers to.In addition, special characteristic, structure or feature in one or more embodiment can be combined by any suitable form.

As shown in Figure 1, the first implementation structure schematic diagram of electronic equipment of providing of the utility model embodiment.As depicted in figs. 1 and 2, a kind of electronic equipment of the present embodiment comprises: housing 10, mainboard 20, light source 30 and light-guiding pillar 40.Housing 10 has at least one printing opacity mark 11.Described printing opacity mark 11 arranges being implemented as on the housing 10: the groove carving identification image on the housing 10, and this groove penetrates housing 10, then filled by groove light transmissive material, makes housing 10 become one overall.And light transmissive material can select existing Merlon, acrylic, polystyrene, etc., need to choose according to actual conditions when concrete use.Mainboard 20 is arranged in the accommodation space that housing 10 surrounds.Light source 30 arranges on the motherboard 120, and light source 30 obtains electric energy transmitted beam.In the utility model embodiment, light source 30 can comprise LED (i.e. light-emitting diode), RGB lamp group (RGB lamp group can comprise: red light, green light, blue lamp three color lamps).Mainboard 20 can control the light beam of the bright and different duration of lamp that light source 30 sends the light of varying strength, different color.Light-guiding pillar 40 is the light-guiding pillar 40 that light can be made to carry out total reflection.Light-guiding pillar 40 has light input end and light output end.Light input end is corresponding with light source 30, and light output end and printing opacity identify 11 corresponding, for light beam being totally reflected to printing opacity mark 11.The specific works principle of light-guiding pillar 40 is that utilize the total reflection principle of light to be obtained by light source 30 light beam that electric energy sends is all-trans injection, and the beams converge exported becomes point-source of light 30, has the effect of convection light.Wherein, light source 30 can adopt light-emitting diode.In the specific implementation, light source 30 obtains light beam that electric energy launches by light-guiding pillar 40, because light-guiding pillar 40 can carry out total reflection to light, light-guiding pillar 40 printing opacity be totally reflected to by light beam on the housing 10 relative with the light output end of light-guiding pillar 40 identifies on 11, the light beam that light source 30 is sent identifies on 11 compared with the irradiation of small loss at printing opacity, to make printing opacity identify the brightness of 11 displays comparatively by force, improve the display effect of printing opacity mark 11.

In actual applications, because light source 30 can adopt light-emitting diode, and the color of the light that the material of light-emitting diode difference produces is different.Such as, if the material of light-emitting diode is aluminum gallium arsenide, GaAs, gallium arsenide phosphide compound InGaP, aluminum gallium phosphide (doping zinc-oxide), then can produce red light; If the material of light-emitting diode is aluminum gallium phosphide, indium gallium nitride/gallium nitride, gallium phosphide, InGaP aluminium, aluminum gallium phosphide, then can produce green light, etc.Therefore, the light source 30 of the utility model embodiment adopts light-emitting diode that printing opacity mark 11 can be made to demonstrate the light of different color, for user provides visual enjoyment, improves Consumer's Experience.

The technical scheme that the utility model provides is by being provided with the light-guiding pillar that light can be made to carry out total reflection, the light input end of light-guiding pillar is corresponding with light source, the light output end of light-guiding pillar identifies corresponding with the printing opacity on housing, the light that light source is sent is identified by light-guiding pillar total reflection to printing opacity, and point-source of light is formed in printing opacity mark, thus decrease the loss of light beam, and then enhance the display brightness of the printing opacity mark on housing, improve Consumer's Experience.

Further, as depicted in figs. 1 and 2, the light-guiding pillar 40 described in above-described embodiment can adopt the light-guiding pillar 40 be made up of the material that light can be made to carry out total reflection arbitrarily in prior art, and the utility model embodiment is not specifically limited, during concrete enforcement, described light-guiding pillar 40 can be optical fiber tube.Optical fiber also claims optical fiber, is a kind of fiber be made up of glass or plastics.It is utilize the total reflection principle of light that beam reflection is formed point-source of light 30 to any that light conducts in a fiber, makes light more much lower in the loss of electric wire conduction than electricity in fibre-optic conduction loss.Therefore, loss-free as far as possible all the concentrating of the light beam that the light-guiding pillar 40 that the utility model embodiment provides adopts the optical fiber tube of optical fiber material that light source 30 can be made to send reflexes in printing opacity mark 11, make printing opacity identify converging beam on 11 and form point-source of light 30, thus improve the display brightness of printing opacity mark 11.And, user only needs mainboard 20 to control light source 30 (light-emitting diode) and sends more weak light, by optical fiber tube, low light level convergence is being reflexed in printing opacity mark 11, printing opacity is identified on 11 and shows stronger light, thus control light source 30 without the need to mainboard 20 and send high light, and then save the power consumption of mainboard 20.

In the present embodiment, due to optical fiber tube be fine fibre-optic package in plastic sheath, make optical fiber tube can bend not easy fracture.Therefore, electronic equipment internal without the need to especially arranging accommodation space for optical fiber tube, thus saves space for electronic equipment, promotes the design of electronic equipment ultrathin.Simultaneously, optical fiber tube is light conduction instrument, only need to cut predetermined length according to the actual requirements during use can use, and the size of being cut by optical fiber tube needs to set according to the actual demand of user, the utility model embodiment is not specifically limited, thus avoid the material that can realize light total reflection and obtain light-guiding pillar by Shooting Technique, save complicated technological process, provide cost savings.

Further, as depicted in figs. 1 and 2, soft, even in order to make printing opacity identify 11 light shown, the electronic equipment described in above-described embodiment can also comprise: light-diffusing film 50.Light-diffusing film 50 for receive optical fiber tube reflex to printing opacity mark 11 on light beam, and make being distributed on light-diffusing film 50 of the homogenizer of reception, thus it is soft, even to make printing opacity identify 11 light shown, and avoids light dazzling too by force, user is watched comfortable, improve the comfort of user.Light-diffusing film 50 is attached in printing opacity mark 11; Or light-diffusing film 50 is attached on the end face of the light output end of optical fiber tube.

In the present embodiment, certain distance is had because the light output end of optical fiber tube and printing opacity identify between 11, if light-diffusing film 50 is attached on the end face of the light output end of light pipe, light beam after being uniformly distributed by light-diffusing film 50 has fraction light beam when identifying 11 through printing opacity and loses, but does not affect the display brightness of printing opacity mark 11; If light-diffusing film 50 is attached in printing opacity mark 11, the light beam after being uniformly distributed by light-diffusing film 50 is directly by printing opacity mark 11.Therefore, light-diffusing film 50 is attached to than being attached on the end face of light output end of optical fiber tube in printing opacity mark 11, and the light efficiencies that printing opacity mark 11 is shown are better.

During concrete enforcement, if light-diffusing film 50 is attached in printing opacity mark 11, the light output end of optical fiber tube can be vertical with light-diffusing film 50.Only have that the light output end of optical fiber tube is vertical with light-diffusing film 50 to be arranged, beam orthogonal is penetrated on light-diffusing film 50, so that light-diffusing film 50 can receive the light beam of irradiation fully, reduce light beam loss.

Further, as depicted in figs. 1 and 2, the light-diffusing film 50 described in above-described embodiment can for the film be made up of pet material.PETG (Polyethyleneterephthalate, PET or PEIT) is the polymer of milky or light yellow highly crystalline, surface smoothing and glossy.Resistance to creep, resistance to fatigue resistance, abrasion-resistant and good stability of the dimension, wear away little and hardness is high, has toughness maximum in thermoplastics: electrical insulation capability is good, and temperature influence is little, but corona resistance is poor.Nontoxic, weatherability, chemical proof good stability, water absorption rate is low, weak acid resistant and organic solvent, but thermo-labile water soaking, not alkaline-resisting.And also have following characteristics except These characteristics: the first, heat distortion temperature and Long-Time Service temperature are the highest in thermoplasticity general engineering plastic.The second, because heat-resisting height, REINFORCED PET floods 10S in the solder bath of 250 DEG C, is out of shape also nondiscolouring hardly, is particularly suitable for electronics, the electric parts of preparing soldering.3rd, bending strength 200MPa, modulus of elasticity reaches 4000MPa, and resistance to creep and fatigability are also fine, and case hardness is high, and mechanical performance is close with thermoset plastics.4th, owing to producing the price almost cheap half of PET institute spent glycol than production PBT butanediol used, so PET resin and REINFORCED PET are cheapest in engineering plastics, there is very high cost performance.Therefore, the light-diffusing film 50 that the utility model embodiment provides adopts the film be made up of pet material scattering of the homogenizer of gathering can be formed softer light beam, and cost is low, is suitable for practicality.

Further, as depicted in figs. 1 and 2, in order to firm optical fiber tube, the electronic equipment described in above-described embodiment can also comprise: framework 60.Framework 60 is arranged in accommodation space, and the side of framework 60 is provided with mainboard 20, and opposite side and printing opacity identify 11 corresponding.Framework 60 is provided with through hole 61.Optical fiber tube is connected with through hole 61 interference, makes light pipe be fixedly connected on the implementation of housing 10 inside simply, is easy to realize.Certainly, the fixed form of optical fiber tube can adopt other mode, as connect by gluing.And the light input end of optical fiber tube and light output end identify 11 corresponding respectively with light source 30 and printing opacity.Enter in optical fiber tube when light source 30 obtains the light beam that electric energy sends by light input end, at the light output end focusing illumination from optical fiber tube in printing opacity mark 11, identify 11 display brightness to make printing opacity.

Further, as depicted in figs. 1 and 2, the housing 10 described in above-described embodiment has at least one printing opacity mark 11, then each printing opacity mark 11 all needs to be furnished with a light source 30, not only make the layout of electronic equipment internal messy, and cause certain waste, add cost.Therefore, if housing 10 has two or more printing opacities mark 11.The region often mapped between adjacent two printing opacities mark 11 is provided with a light source 30, each printing opacity mark 11 is equipped with an optical fiber tube, obtaining beam Propagation to printing opacity mark 11 by optical fiber tube from light source 30, saving the quantity of light source 30, providing cost savings.Certainly, the light intensity of if desired each printing opacity mark 11 display can be different, so also more can identify 11 shared light sources 30 by printing opacity, and such as, three printing opacity marks 11 share a light source 30 or four shared light sources 30 of printing opacity mark 11.

Further, as depicted in figs. 1 and 2, in order to make each printing opacity identify the light intensity of 11 displays unanimously, described in above-described embodiment, often the center line of adjacent two printing opacities mark 11 is provided with a light source 30.Light source 30 is arranged on the center line of often adjacent two printing opacities mark 11, make the size of the optical fiber tube of a shared light source 30 equal, and the light beam that optical fiber tube obtains at light source 30 place is identical, and then the light beam be transferred in each printing opacity mark 11 is identical, consistent to make printing opacity identify the light intensity shown on 11.

Wherein, the electronic equipment described in above-described embodiment can be mobile phone, panel computer, keyboard or notebook computer.

In actual applications, as depicted in figs. 1 and 2, for mobile phone, printing opacity mark 11 is arranged on the display screen institute of mobile phone on the housing 10, the face at the display screen place of housing 10 is the first end face, light-diffusing film 50 is attached on the second end face relative with the first end face, framework 60 is provided with in the accommodation space that housing 10 is encircled a city, first side of framework 60 is provided with mainboard 20, mainboard 20 is provided with light source 30 (as light-emitting diode), second side (namely the second side is relative with the first side with the second end face) of framework 60.Framework 60 is provided with through hole 61, and this through hole 61 runs through the first side and second side of framework 60.Optical fiber tube is through through hole 61 and being connected with fixed fiber pipe with through hole 61 interference, and the light input end of optical fiber tube is corresponding with light source 30, and light output end and the printing opacity of optical fiber tube identify 11 corresponding.When light source 30 obtains electric energy transmitted beam, light beam is by optical fiber tube total reflection in printing opacity mark 11, and light beam transmits so that user observes by printing opacity mark 11, thus achieves the display effect of printing opacity mark 11, improves Consumer's Experience.Certainly, electronic equipment can be keyboard, under the effect of optical fiber tube, realize luminous button, so that user's operation keyboard under the environment of dark, for user provides convenient.Electronic equipment can be notebook computer, realizes mains switch and light under the effect of optical fiber tube, so that user can by the operating state of the light on and off determination notebook computer of mains switch.Or, under the effect of optical fiber tube, realize the key light emitting of keyboard of notebook computer, so that user's operation keyboard under the environment of dark.

Above embodiment only in order to the technical solution of the utility model to be described, is not intended to limit; Although be described in detail the utility model with reference to previous embodiment, those of ordinary skill in the art is to be understood that: it still can be modified to the technical scheme described in foregoing embodiments, or carries out equivalent replacement to wherein portion of techniques feature; And these amendments or replacement, do not make the essence of appropriate technical solution depart from the spirit and scope of each embodiment technical scheme of the utility model.

Claims (10)

1. an electronic equipment, is characterized in that, comprising:

Housing, described housing has at least one printing opacity mark;

Mainboard, described mainboard is arranged in the accommodation space that described housing surrounds;

Light source, described light source is arranged on described mainboard, and described light source obtains electric energy transmitted beam;

Light-guiding pillar, described light-guiding pillar is the light-guiding pillar that light can be made to carry out total reflection; Described light-guiding pillar has light input end and light output end;

Described light input end is corresponding with described light source, and described light output end identifies corresponding with described printing opacity, for described light beam being totally reflected to described printing opacity mark.

2. electronic equipment according to claim 1, is characterized in that, described light-guiding pillar is optical fiber tube.

3. electronic equipment according to claim 2, is characterized in that, described electronic equipment also comprises:

Light-diffusing film, described light-diffusing film for receive described optical fiber tube reflex to described printing opacity mark on light beam;

Described light-diffusing film is attached in described printing opacity mark; Or described light-diffusing film is attached on the end face of the light output end of described optical fiber tube.

4. electronic equipment according to claim 3, is characterized in that,

Described light-diffusing film is attached in described printing opacity mark, and the light output end of described optical fiber tube is vertical with described light-diffusing film.

5. the electronic equipment according to claim 3 or 4, is characterized in that, described light-diffusing film is the film be made up of pet material.

6. the electronic equipment according to any one of claim 2 ~ 4, is characterized in that, described electronic equipment also comprises:

Framework, described framework is arranged in described accommodation space, and the side of described framework is provided with described mainboard, and opposite side identifies corresponding with described printing opacity; Described framework is provided with through hole;

Described optical fiber tube is connected with described through hole interference, and the light input end of described optical fiber tube and light output end identify corresponding with described light source and described printing opacity respectively.

7. electronic equipment according to claim 1, is characterized in that, described housing has printing opacity mark described in two or more;

The region often mapped between adjacent two described printing opacity marks is provided with a described light source.

8. electronic equipment according to claim 7, is characterized in that, often the center line of adjacent two described printing opacity marks is provided with a described light source.

9. the electronic equipment according to claim 1 or 7, is characterized in that, described light source is light-emitting diode.

10. electronic equipment according to claim 1, is characterized in that, described electronic equipment is mobile phone, panel computer, keyboard or notebook computer.