CN103414383A - Charging module and electronic device - Google Patents

Abstract

The invention discloses a charging module and an electronic device. The charging module comprises an image processing layer, a charging layer and a transparent protective layer which are sequentially stacked, wherein the image processing layer is used for arrangement in neighborhood with a display module of the electronic device, the charging layer comprises light-transmitting areas and non-light transmitting areas, which are alternately arranged, the non-light transmitting areas are used for receiving and converting outside light coming in through the transparent protective layer into electricity, the image processing layer is used for optically processing the image light outputted by the display module of the electronic device, so that the optically processed image light is projected onto the transparent protective layer through the light-transmitting areas, and thereby displayable images are formed. Therefore, the invention can ensure that the charging module can charge the electronic device under the condition of light, thus effectively improving the experience of users.

Description

Charging module and electronic equipment

Technical field

The present invention relates to communication technical field, particularly relate to a kind of electronic equipment that charges module and apply this charging module.

Background technology

Along with the development of electronic equipment, electronic equipment portion in market constantly enlarges.Wherein, the processor of electronic equipment changes to four current cores by monokaryon, and the size of its screen and resolution is also along with variation, the also corresponding increase of application program that makes electronic equipment move, and this easily causes the electronic equipment consumes power too fast.In addition, the lightening demand of electronic equipment causes the capacity of battery unconfinedly not enlarge now, this makes the service time of battery that is full of electric electronic equipment constantly shorten, and causes user's electronic equipment use one day or shorter time to charge, and the user has been caused to very large inconvenience.

In sum, be necessary to provide a kind of charging module and electronic equipment to address the above problem.

Summary of the invention

The technical problem that the present invention mainly solves is to provide a kind of electronic equipment that charges module and apply this charging module, can make the charging module in the situation that there is light to charge to electronic equipment, effectively promotes user's experience.

For solving the problems of the technologies described above, the technical scheme that the present invention adopts is: a kind of charging module is provided, for being arranged on the demonstration module of electronic equipment, so that electronic equipment is charged, the charging module comprises the image processing layer stacked in turn, charged layer and protective clear layer, wherein the image processing layer is for the adjacent setting of demonstration module with electronic equipment, charged layer comprises transparent area and the non-transparent area be arranged alternately, non-transparent area is for receiving the extraneous light through protective clear layer incident, and be converted into electric energy, the image processing layer carries out optical treatment for the image light of the output of the demonstration module to electronic equipment, so that the image light after optical treatment projects on protective clear layer through transparent area, and then formation shows image.

Wherein, the image processing layer comprises a plurality of the first optical textures of arranging in turn, each first optical texture is corresponding to a transparent area, converging corresponding to the image light of transparent area and corresponding at least part of image light of the adjacent non-transparent area of transparent area, so that the image light after converging is exported through transparent area.

Wherein, protective clear layer and the first optical texture lay respectively at the both sides of the convergent point of image light, and the image light after converging directly projects protective clear layer.

Wherein, show that module is divided into a plurality of viewing areas corresponding to the first optical texture, the charging module further comprises the image inversion module, the image inversion module is used for receiving input picture, and the display position of each corresponding input picture in viewing area is carried out to the symmetry counter-rotating with respect to the center of the first optical texture.

Wherein, the first optical texture is the column convex lens.

Wherein, on charged layer, further be provided with the second optical texture corresponding to transparent area, the second optical texture will spread through transparent area output image light, so that the image light after diffusion projects on protective clear layer.

Wherein, the second optical texture is the column concavees lens.

Wherein, the image processing layer is arranged to show that image arranges continuously on protective clear layer.

Wherein, image processing layer, charged layer and protective clear layer are bonded into one by optical cement.

For solving the problems of the technologies described above, another technical solution used in the present invention is: a kind of electronic equipment is provided, and electronic equipment comprises the charging module of above-mentioned any one.

The invention has the beneficial effects as follows: the situation that is different from prior art, the image light that the present invention exports the demonstration module of electronic equipment by the image processing layer of charging module carries out optical treatment, so that the image light after optical treatment projects on protective clear layer through the transparent area of charged layer, and then formation shows image, non-transparent area by charged layer receives the extraneous light through protective clear layer incident simultaneously, and be that electric energy charges to electronic equipment by transform light energy, can make the charging module in the situation that there is light to charge to electronic equipment, effectively promote the service time of electric device battery and user's experience.

The accompanying drawing explanation

Fig. 1 is the charge structural representation of the first embodiment of module of the present invention;

Fig. 2 be in Fig. 1 the charging module dissect structural representation;

Fig. 3 is the charge structural representation of the second embodiment of module of the present invention;

Fig. 4 be in Fig. 3 the charging module dissect structural representation;

Fig. 5 is the structural representation of electronic equipment of the present invention.

Embodiment

The present invention is described in detail below in conjunction with drawings and embodiments.

As depicted in figs. 1 and 2, Fig. 1 is the charge structural representation of the first embodiment of module of the present invention, Fig. 2 be in Fig. 1 the charging module dissect structural representation.Charging module 10, be used to being arranged on the demonstration module 14 of electronic equipment (not shown), being take and by charging module 10, transform light energy charged to electronic equipment as electric energy.Wherein, charging module 10 comprises image processing layer 13, charged layer 12 and the protective clear layer 11 stacked in turn.Image processing layer 13, charged layer 12 and protective clear layer 11 are bonded into one by optical cement.Certainly, in other embodiments, image processing layer 13, charged layer 12 and protective clear layer 11 can also be set to one by other means.

Wherein, protective clear layer 11 is the assembling carrier of image processing layer 13 and charged layer 12.

Charged layer 12 comprises transparent area 121 and the non-transparent area 122 be arranged alternately.Non-transparent area 122 is for receiving the extraneous light through protective clear layer 11 incidents, and is converted into electric energy.121 of transparent areas send for transmission display module 14 and the light after image processing layer 13 is processed.

The adjacent setting of demonstration module 14 of image processing layer 13 and electronic equipment; image light for demonstration module 14 outputs to electronic equipment carries out optical treatment; so that the image light after optical treatment projects on protective clear layer 11 through transparent area 121, and then form and show image.Image processing layer 13 comprises a plurality of the first optical textures 131 of arranging in turn, and wherein the first optical texture 131 is the column convex lens.Certainly, in other embodiments, the first optical texture 131 can also be other optical processing devices.

The image of demonstration module 14 is divided into a plurality of subimages and projects on image processing layer 13, show that module 14 is divided into a plurality of viewing areas 141, each corresponding subimage that shows electronic equipment in viewing area 141, the subimage that viewing area 141 shows is corresponding the first optical texture 131 that projects image processing layer 13 respectively.

Each first optical texture 131 of image processing layer 13 is corresponding to a transparent area 121 and a viewing area 141.The image light of demonstration module 14 outputs of 13 pairs of electronic equipments of image processing layer carries out optical treatment; it is mainly by the first optical texture 131 correspondences, to obtain the subimage of viewing area 141 projections; and the image light of subimage is converged; so that the image light that converges after optical treatment projects on protective clear layer 11 through transparent area 121, and then form and show image.Wherein, the image light of subimage converges corresponding to the image light of transparent area 121 and corresponding at least part of image light of the adjacent non-transparent area 122 of transparent area 121, so that the image light after converging is through transparent area 121 outputs.

In the present embodiment, the transparent area 121 of charged layer 12 is provided with the second optical texture 123, and wherein the second optical texture 123 is the column concavees lens.Protective clear layer 11 and the first optical texture 131 lay respectively at the both sides of the second optical texture 123.Transparent area 121 obtains the image light of the subimage that the first optical texture 131 converges; the convergent point of the image light of subimage converges in the second optical texture 123; by the second optical texture 123, the image light of subimage is spread, so that the image light of the subimage after diffusion projects on the display unit 111 of protective clear layer 11.Wherein, the subimage of viewing area 141 is through the processing of the clear area 121 of image processing layer 13 and charged layer 12, the complete display unit 111 that projects protective clear layer 11 of the subimage of viewing area 141.

In the present embodiment, other subimages are also the processing through the clear area 121 of image processing layer 13 and charged layer 12, make other subimages completely to project on protective clear layer 11.Wherein image processing layer 13 is arranged to show that image arranges continuously on protective clear layer 11, makes the image that shows module 14 intactly project on protective clear layer 11.

As shown in Figure 3 and Figure 4, Fig. 3 is the charge structural representation of the second embodiment of module of the present invention, Fig. 4 be in Fig. 3 the charging module dissect structural representation.Charging module 20 comprises image inversion module 25, image processing layer 23, charged layer 22 and the protective clear layer 21 stacked in turn.Image inversion module 25, image processing layer 23, charged layer 22 and protective clear layer 21 are bonded into one by optical cement.Certainly, in other embodiments, image inversion module 25, image processing layer 23, charged layer 22 and protective clear layer 21 can also be set to one by other means.Wherein, protective clear layer 21 is the assembling carrier of image inversion module 25, image processing layer 23 and charged layer 22.Image processing layer 23 comprises a plurality of the first optical textures 231 of arranging in turn, and wherein the first optical texture 231 is the column convex lens, and certainly, in other embodiments, the first optical texture 231 can also be other optical processing devices.Charged layer 22 comprises transparent area 221 and non-transparent area 222, and transparent area 221 is a planar lens.

The image of demonstration module 24 is divided into a plurality of subimages and projects on image inversion module 25, shows that module 24 is divided into a plurality of viewing areas 241, and image inversion module 25 is divided into a plurality of counter-rotatings unit 251.The subimage that the subimage of each corresponding demonstration electronic equipment in viewing area 141 and a counter-rotating 251， viewing area, unit 241 show is corresponding projecting on the counter-rotating unit 251 of image inversion module 25 respectively.

Image inversion module 25 is arranged between the demonstration module 24 and image processing layer 23 of electronic equipment, counter-rotating unit 251 correspondences of image inversion module 25 are obtained the subimage of viewing area 241 projections, and the display position of the corresponding input subimage in viewing area 241 is carried out to the symmetry counter-rotating with respect to the first optical texture 231De center.

Each first optical texture 231 of image processing layer 23 is corresponding to a transparent area 221 and a counter-rotating unit 251.The image light of the subimage of 23 pairs of counter-rotating unit 251 outputs of image processing layer carries out optical treatment; mainly by the first optical texture 231 correspondences, to obtain the subimage of counter-rotating unit 251 projections; and the image light of subimage is converged; so that the image light that converges after optical treatment projects on protective clear layer 21 through transparent area 221, and then form and show image.Wherein, the image light of subimage converges corresponding to the image light of transparent area 221 and corresponding at least part of image light of the adjacent non-transparent area 222 of transparent area 221, so that the image light after converging is through transparent area 221 outputs.

Transparent area 221 and the non-transparent area 222 of charged layer 22 are arranged alternately, and non-transparent area 222 is for receiving the extraneous light through protective clear layer 21 incidents, and are converted into electric energy.Transparent area 221 obtains the image light of the subimage that the first optical texture 231 converges, transparent area 221 is a planar lens, due to the optical principle of planar lens, the display position of image light that passes the subimage of transparent area 221 carries out symmetry counter-rotating again with respect to the first optical texture 231De center.Thereby make from transparent area 221 project protective clear layer 21 the subimage of display unit 211 be reduced to the subimage of viewing area 241.

In the present embodiment, other subimages are also the processing through image inversion module 25, image processing layer 23 and charged layer 22, make other subimages completely to project on protective clear layer 21.Wherein image processing layer 23 is arranged to show that image arranges continuously on protective clear layer 21, makes the image that shows module 24 intactly project on protective clear layer 21.

In other embodiments, then image processing layer 23 can also be processed image be used to obtaining the whole image that shows module 24, is divided into a plurality of subimages, then subimage is throwed away.

As shown in Figure 5, Fig. 5 is the structural representation of electronic equipment of the present invention.Electronic equipment 30 comprises charging module 31, charge management module 32 and the battery 33 of above-mentioned technical characterictic, and charging module 31 is connected with battery 33.Charge management module 32 is connected with battery 33 with charging module 31 respectively.The light that charging module 31 itself sends be used to obtaining extraneous light or electronic equipment 30, and be electric energy by transform light energy.When 31 charging of charging module, charge management module 32 is controlled charging module 31 and is connected with battery 33, so that charging module 31 is battery 33 chargings of electronic equipment 30, at charging module 31, stop charging or battery 33 while being full of electricity, charge management module 32 controls charging modules 31 and battery 33 disconnects.

In sum, the image light that the present invention exports the demonstration module of electronic equipment by the image processing layer of charging module carries out optical treatment, so that the image light after optical treatment projects on protective clear layer through the transparent area of charged layer, and then formation shows image, non-transparent area by charged layer receives the extraneous light through protective clear layer incident simultaneously, and be that electric energy charges to electronic equipment by transform light energy, can make the charging module in the situation that there is light to charge to electronic equipment, effectively promote the service time of electric device battery and user's experience.

The foregoing is only embodiments of the present invention; not thereby limit the scope of the claims of the present invention; every equivalent structure or equivalent flow process conversion that utilizes specification of the present invention and accompanying drawing content to do; or directly or indirectly be used in other relevant technical fields, all in like manner be included in scope of patent protection of the present invention.

Claims (10)

1. One kind the charging module, for being arranged on the demonstration module of electronic equipment, so that described electronic equipment is charged, it is characterized in that, described charging module comprises the image processing layer stacked in turn, charged layer and protective clear layer, wherein said image processing layer is for the adjacent setting of demonstration module with described electronic equipment, described charged layer comprises transparent area and the non-transparent area be arranged alternately, described non-transparent area is for receiving the extraneous light through described protective clear layer incident, and be converted into electric energy, described image processing layer carries out optical treatment for the image light of the output of the demonstration module to described electronic equipment, so that the image light after optical treatment projects on described protective clear layer through described transparent area, and then formation shows image.
2. 2. charging module according to claim 1, it is characterized in that, described image processing layer comprises a plurality of the first optical textures of arranging in turn, each described first optical texture is corresponding to a described transparent area, converging corresponding to the image light of described transparent area and corresponding at least part of image light of the adjacent non-transparent area of described transparent area, so that the image light after converging is exported through described transparent area.
3. 3. charging module according to claim 2, is characterized in that, described protective clear layer and described the first optical texture lay respectively at the both sides of the convergent point of described image light, and the described image light after converging directly projects described protective clear layer.
4. 4. charging module according to claim 3, it is characterized in that, described demonstration module is divided into a plurality of viewing areas corresponding to described the first optical texture, described charging module further comprises the image inversion module, described image inversion module is used for receiving input picture, and the display position of each corresponding described input picture in described viewing area is carried out to the symmetry counter-rotating with respect to the center of described the first optical texture.
5. 5. charging module according to claim 2, is characterized in that, described the first optical texture is the column convex lens.
6. 6. charging module according to claim 2; it is characterized in that; on described charged layer, further be provided with the second optical texture corresponding to described transparent area; described the second optical texture will spread through the described image light of described transparent area output, so that the described image light after diffusion projects on described protective clear layer.
7. 7. charging module according to claim 6, is characterized in that, described the second optical texture is the column concavees lens.
8. 8. charging module according to claim 1, is characterized in that, described image processing layer is arranged so that described demonstration image arranges continuously on described protective clear layer.
9. 9. charging module according to claim 1, is characterized in that, described image processing layer, described charged layer and described protective clear layer are bonded into one by optical cement.
10. 10. an electronic equipment, is characterized in that, described electronic equipment comprises charging module as described as claim 1-9 any one.

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