CN103474452B - Display floater and manufacture method thereof and terminal equipment - Google Patents

Abstract

The present invention relates to a kind of display floater, comprise first substrate, second substrate and solar cell, described first substrate and described second substrate are oppositely arranged, the outer surface of described second substrate is the exiting surface of described display floater, described solar cell is arranged on described first substrate or described second substrate, wherein, described display floater also comprises and is arranged on light guide outside described second substrate and outwardly, the bottom surface of described light guide covers the lighting surface of described solar cell at least partially, the light be radiated on described light guide to be concentrated on going up at least partially of the lighting surface of described solar cell.The present invention also provides a kind of and comprises the terminal equipment of described display floater and a kind of manufacture method of described display floater.Utilize the light guide on described display floater the script light that can not be radiated on the lighting surface of solar cell can be concentrated on the lighting surface of solar cell, thus the lighting quantity of solar cell can be improved.

Description

Display floater and manufacture method thereof and terminal equipment

Technical field

The present invention relates to electronic device field, particularly, relate to a kind of display floater, a kind ofly comprise the terminal equipment of described display floater and a kind of manufacture method manufacturing described display floater.

Background technology

Along with the intelligentized development of electronic equipment and universal, its instruction set is increasing, instruction number gets more and more, and power consumption is also increasing.In order to meet the instructions for use of electronic equipment, can increase solar cell on the surface of the light emission side of the display floater of electronic equipment, the electric energy utilizing solar cell to produce is power electronic equipment.

Along with the increase of electronic equipment power consumption, need the solar cell arranged in further raising electronic equipment to the utilance of solar energy, to increase energy output, meet the user demand of electronic equipment.

Summary of the invention

The object of the present invention is to provide a kind of display floater, comprise the manufacture method of the terminal equipment of this display floater and described display floater.Described display floater can utilize solar energy to generate electricity efficiently, thus can extend the cruising time of terminal equipment.

In order to achieve the above object, as one aspect of the present invention, a kind of display floater is provided, described display floater comprises first substrate, second substrate and the solar cell be arranged in described display floater, described first substrate and described second substrate are oppositely arranged, the outer surface of described second substrate is the exiting surface of described display floater, described solar cell is arranged on described first substrate or described second substrate, wherein, described display floater also comprises and is arranged on light guide outside described second substrate and outwardly, the bottom surface of described light guide covers the lighting surface of described solar cell at least partially.

Preferably, described solar cell is arranged on the outer surface of described second substrate.

Preferably, the inner surface of described second substrate is provided with color rete and black matrix, described solar cell is arranged on the position corresponding with described black matrix.

Preferably, described first substrate is provided with multiple organic electroluminescent LED, described solar cell is arranged on corresponding position, space between adjacent two described organic electroluminescent LEDs.

Preferably, the outer surface of described second substrate is formed with planarization layer, described planarization layer covers the outer surface of described solar cell and described second substrate, and the outer surface of described planarization layer is plane, and described light guide is arranged on the outer surface of described planarization layer.

Preferably, the position that the outside of described second substrate is corresponding with described solar cell is provided with described light guide.

Preferably, the position that the outside of described second substrate is not corresponding with described solar cell is also provided with described light guide, make multiple described light guide be evenly distributed in the outside of described second substrate, and make the bottom surface of multiple described light guide cover the exiting surface of described display floater completely.

As another aspect of the present invention, provide a kind of terminal equipment, described terminal equipment comprises display floater, and wherein, described display floater is above-mentioned display floater provided by the present invention.

Preferably, described terminal equipment also comprises power supply, and described solar cell is connected with described power supply, thinks described power source charges.

As another aspect of the invention, provide a kind of manufacture method of display floater, wherein, described manufacture method comprises:

By first substrate and second substrate to box, the outer surface of described second substrate is formed as the exiting surface of described display floater;

Arrange solar cell, described solar cell is positioned on described first substrate or described second substrate;

Arrange light guide, this light guide is positioned at the outside of described second substrate and outwardly, and the bottom surface of described light guide covers the lighting surface of described solar cell at least partially.

Preferably, the described step that solar cell is set described by first substrate and second substrate to the step of box after carry out, described solar cell is formed on the outer surface of described second substrate.

Preferably, the inner surface of described second substrate is provided with color rete and black matrix, described solar cell is arranged on the position corresponding with described black matrix.

Preferably, the inner surface of described first substrate is provided with multiple organic electroluminescent LED, described solar cell is arranged on corresponding position, space between adjacent two described organic electroluminescent LEDs.

Preferably, described manufacture method is also included in described setting and carries out between the step of solar cell and the described step arranging light guide:

Form planarization layer, described planarization layer covers the outer surface of described second substrate and described solar cell, and the outer surface of described planarization layer is plane.

Preferably, the position that the outside of described second substrate is corresponding with described solar cell is provided with described light guide.

Preferably, the position that the outside of described second substrate is not corresponding with described solar cell is also provided with described light guide, make multiple described light guide be evenly distributed in the outside of described second substrate, and make the bottom surface of multiple described light guide cover the exiting surface of described display floater completely.

When the light dispersed when display floater outside is radiated on the outer surface of display floater, the light of transmitting can be concentrated by light guide.Because the bottom surface of light guide covers the lighting surface of solar cell at least partially, therefore, the light concentrated by light guide can arrive the lighting surface of solar cell.Utilize light guide the script light that can not be radiated on the lighting surface of solar cell can be concentrated on the lighting surface of solar cell, thus the lighting quantity of solar cell can be improved, and then improve the energy output of solar cell.The energy output of solar cell is higher, and supply uses the more of the terminal equipment of described display floater, thus can extend the cruising time of terminal equipment, reduces the charging times to terminal equipment, extends the useful life of the power supply of terminal equipment.

Accompanying drawing explanation

Accompanying drawing is used to provide a further understanding of the present invention, and forms a part for specification, is used from explanation the present invention, but is not construed as limiting the invention with embodiment one below.In the accompanying drawings:

Fig. 1 (a) to Fig. 1 (d) is the schematic flow sheet of the manufacture method of the display floater of the first execution mode provided by the present invention, and wherein, Fig. 1 (d) is the schematic diagram of the display floater of the first execution mode provided by the present invention;

Fig. 2 is the schematic diagram of the display floater of the second execution mode provided by the present invention;

Fig. 3 is light guide is in the display floater of semicylindrical lens, the index path of light;

Fig. 4 is light guide is in the display floater of prismatic lens, the index path of light;

Index path when Fig. 5 is display floater provided by the present invention display.

Description of reference numerals

10: first substrate 20: second substrate

21: black matrix 22: color rete

30: solar cell 40: light guide

50: planarization layer 60: organic electroluminescent LED

Embodiment

Below in conjunction with accompanying drawing, the specific embodiment of the present invention is described in detail.Should be understood that, embodiment described herein, only for instruction and explanation of the present invention, is not limited to the present invention.

As shown in Fig. 1 (d) He Fig. 2, as one aspect of the present invention, a kind of display floater is provided, this display floater comprises first substrate 10, second substrate 20 and the solar cell 30 be arranged in described display floater, first substrate 10 and described second substrate 20 are oppositely arranged, the outer surface of second substrate 20 is the exiting surface of described display floater, solar cell 30 is arranged on first substrate 10 or second substrate 20, wherein, described display floater also comprises and is arranged on light guide 40 outside second substrate 20 and outwardly, the bottom surface of this light guide 40 covers the lighting surface of solar cell 30 at least partially, the light be radiated on light guide 40 to be concentrated on going up at least partially of the lighting surface of solar cell 30.

Should be understood that, in the present invention, " interior " refers to the direction towards display floater inside, and " outward " refers to the direction towards display floater outside.Such as, the inner side of second substrate 20 refers to the side of second substrate towards first substrate 10, and the outside of second substrate 20 refers to the side when display floater display frame towards beholder.The lighting surface of solar cell 30 and the exiting surface of display floater are towards consistent, and such as, in Fig. 1 (d) and Fig. 2, the lighting surface of solar cell 30 and the exiting surface of display floater are all upward.In addition, also should guarantee that the lighting surface of solar cell 30 can collect light when solar cell 30 is set.

As shown in Figures 3 and 4, when the light dispersed when display floater outside is radiated on the outer surface of display floater, the light of transmitting can be concentrated by light guide 40.Because the bottom surface of light guide 40 covers the lighting surface of solar cell 30 at least partially, therefore, the light concentrated by light guide 40 can arrive the lighting surface of solar cell 30.Utilize light guide 40 the script light that can not be radiated on the lighting surface of solar cell 30 can be concentrated on the lighting surface of solar cell 30, thus the lighting quantity of solar cell 30 can be improved, and then improve the energy output of solar cell 30.The energy output of solar cell 30 is higher, and supply is given and used the electricity of the terminal equipment of described display floater more, thus can extend the cruising time of terminal equipment, reduces the charging times to terminal equipment, extends the useful life of the power supply of terminal equipment.

In the present invention, not special to the setting position of solar cell 30 restriction.Such as, can solar cell 30 be arranged on first substrate 10, also solar cell 30 can be arranged on second substrate 20, as long as make the lighting surface of solar cell 30 can collect the light of the external irradiation from display floater.

It will also be appreciated that the circuit structure that display floater also should be provided with the electric energy derivation produced by solar cell 30.When solar cell 30 is arranged on first substrate 10, can by described circuit structure setting on the first substrate 10.Correspondingly, inverter can be set on the terminal equipment comprising described display floater, storage battery can be able to store solar cell 30 electricity, and be that the terminal equipment comprising described display floater is powered.

Similarly, when solar cell 30 is arranged on second substrate 20, described circuit structure can be arranged on second substrate 20.

Certainly, the present invention does not get rid of situation first substrate 10 and second substrate 20 being provided with solar cell 30.In order to improve the aperture opening ratio of display floater, preferably, can only solar cell 30 be arranged in the one in first substrate 10 and second substrate 20.

Outer surface due to second substrate 20 is the exiting surface of display floater, and no matter in using state or under non-working condition, light all can be radiated on the outer surface of display floater 20.In order to improve the daylight rate of solar cell 30, preferably, can solar cell 30 be arranged on the outer surface of second substrate 20, in this case, the lighting surface of solar cell 30 can gather solar energy to greatest extent, and makes solar cell 30 produce more electric energy.The electric energy that solar cell 30 produces is more, then can provide more electric energy for using the terminal equipment of described display floater, and improves the cruising time of described terminal equipment further.

For the ease of arranging, further preferably, solar cell 30 can be arranged on the outer surface of second substrate 20.What complete first substrate 10 and second substrate 20 arranges solar cell 30 again to after box technique on the outer surface of second substrate 20, therefore, arrange solar cell 30 can't affect first substrate 10 and second substrate 20 to box technique.

Another advantage be arranged on by solar cell 30 on the outer surface of second substrate 20 is, can shorten the light path of light after light guide 40 reflects, light can be concentrated on the lighting surface of solar cell 30 to greatest extent.

In the present invention, not special to the concrete form of light guide 40 restriction.Such as, light guide 40 can be hemisphere face shape (as shown in Figure 3) or semi-cylindrical, or light guide 40 can also be prismatic (as shown in Figure 4), as long as light can be concentrated on the lighting surface of solar cell 30.Except the cross section shown in Fig. 4 is trapezoidal light guide, the cross section of light guide can also be triangle.In order to realize light can being concentrated, the cross section of light guide 40 reduces from bottom to up gradually." upper and lower " direction described herein refers to the above-below direction in accompanying drawing.

Preferably, the bottom shape of light guide 40 should be consistent with the lighting surface shape of solar cell 30.In display floater, usual solar cell 30 is strips, that is, lighting surface is strip, and so the bottom surface of light guide 40 is also correspondingly formed as strip, that is, light guide 40 is formed as post lens.

In the present invention, particular/special requirement is not had to the setting position of light guide 40 yet, as long as light guide 40 is arranged on the outside of second substrate 20, thus the light of outside is concentrated on the lighting surface of solar cell 30.

Preferably, the bottom surface of light guide 40 covers the lighting surface of solar cell 30 completely.

In the present invention, the restriction not special to the emission type of display floater, such as, display floater provided by the present invention can be display panels (as shown in Figure 1 (d) shows), also can be organic EL display panel (as shown in Figure 2), can also be electrochromic display panel.

As shown in Figure 1 (d) shows, when display floater provided by the present invention is display panels, between first substrate 10 and second substrate 20, liquid crystal molecule is filled with.The inner surface of second substrate 20 can be provided with black matrix 21 and color rete 22, in order to avoid solar cell 30 blocks the light that display floater sends, preferably, solar cell 30 can be arranged on the position corresponding with black matrix 21, thus make to arrange the brightness that solar cell 30 can not reduce described display floater.Because black matrix 21 and color rete 22 set-up mode on the inner surface of second substrate 20 is known in the field, therefore do not repeat here.

As shown in Figure 2, when display floater provided by the present invention is organic EL display panel, first substrate 10 is provided with multiple organic electroluminescent LED 60, also for ease of the light avoiding solar cell 30 to block display floater sending, preferably, solar cell 30 can be arranged on the position that space between adjacent two organic electroluminescent LEDs 60 is corresponding, thus make to arrange the brightness that solar cell 30 can not reduce described display floater.

Can light guide 40 be set directly on the outer surface of solar cell 30, or can be securely fixed on described display floater in order to ensure light guide 40, planarization layer 50 can be set on the outer surface of second substrate 20, this planarization layer 50 covers the outer surface of solar cell 30 and second substrate 20, and the outer surface of planarization layer 50 (surface that planarization layer 50 and the outer surface of second substrate 20 fit is the inner surface of planarization layer 50, and the surface relative with this inner surface is the outer surface of planarization layer 50) is plane.Light guide 40 is arranged on the outer surface of planarization layer 50, and light guide 40 can be made to be fixed on more firmly in display floater.Identical material can be utilized to manufacture planarization layer 50 and light guide 40, thus the bond strength between light guide 40 and planarization layer 50 can be improved, prevent light guide 40 from coming off.Further, the outer surface due to planarization layer 50 is plane, can make multiple light guides 40 uniformity be arranged on planarization layer 50, to the amplification effect also uniformity of the image of display floater display, thus makes beholder obtain better visual effect.

In the present invention, not special to the concrete material forming light guide 40 and planarization layer 50 restriction.As long as planarization layer transparent and can be fixed on the outer surface of second substrate 20, similarly, as long as light guide 40 transparent and can be fixed on the outer surface of planarization layer 50.

Such as, thermoset resin material can be utilized to form planarization layer 50 and/or light guide 40, or, photo-curing material can be utilized to form planarization layer 50 and/or light guide 40.

In the present invention, not special to the number of light guide restriction.In order to totally improve the amount of the solar energy that solar cell collects, preferably, light guide 40 can be provided with in the position that the outside of second substrate 20 is corresponding with solar cell 30, thus the solar energy acquisition amount of each solar cell 30 is all increased.Certainly, also light guide 40 can be set on the position of a part of solar cell 30 correspondence.

Further preferably, position that can also be not corresponding with solar cell 30 in the outside of second substrate 20 also arranges light guide 40, thus multiple light guide 40 can be made to be evenly distributed in the outside of second substrate 20, and the bottom surface of multiple light guide 40 is made to cover the exiting surface of described display floater completely as shown in Figure 5.

The advantage of above-mentioned setting is, is dispersed in the light emission side of display floater the uniform light that display floater can be sent, can carry out the amplification of identical multiple, make beholder obtain better visual effect to the regional of the image of display floater display.

In execution mode in Figure 5, the edge of solar cell 30 exceedes the edge of black matrix 21, the light sent backlight causes and blocks, and the light refraction that backlight can send in other positions by light guide 40 is above solar cell 30, thus display floater overall brightness can be avoided to reduce.In the present invention, the bottom shape of light guide 40 can be completely the same with the shape of the lighting surface of solar cell 30, the bottom shape of light guide 40 also can be inconsistent with the shape of the lighting surface of solar cell 30, such as, the bottom surface of light guide 40 can be greater than the lighting surface of solar cell 30, thus covers the lighting surface of solar cell 30 completely.

Utilize the execution mode provided in Fig. 5 can reduce the requirement of the positional precision to solar cell 30, thus the overall manufacturing cost of display floater can be saved.

As another aspect of the present invention, provide a kind of terminal equipment, described terminal equipment comprises display floater, and wherein, described display floater is above-mentioned display floater provided by the present invention.

As noted before, circuit structure display floater being provided with solar cell and being derived by the electric energy of solar cell generation, described display floater is provided with light guide.Light can concentrate on the lighting surface of solar cell by this light guide, improves the energy output of solar cell, thus more can light for described terminal equipment supply, and then improves the cruising time of terminal equipment.

In the present invention, solar cell can be connected by the drive unit (such as, gate drivers or source electrode driver) of described circuit structure and display floater, thus the electricity driven needed for display floater can be provided.

Or solar cell can be connected with the power supply of terminal equipment by described circuit structure, utilizes described solar cell to be described power source charges.Solar cell is connected with power supply and can simplifies described circuit structure, be easy to realize.Such as, described circuit structure can comprise the wire be directly connected with the positive pole of described power supply by the positive pole of solar cell, and the wire be directly connected with the negative pole of described power supply by the negative pole of solar cell.

Terminal equipment provided by the present invention can be mobile phone, panel computer, electric paper book etc.

As another aspect of the invention, provide a kind of manufacture method of display floater, wherein, described manufacture method comprises:

By first substrate 10 and second substrate 20 pairs of boxes, the outer surface of second substrate 20 is formed as the exiting surface of described display floater (as Suo Shi Fig. 1 (a));

Arrange solar cell 30, this solar cell 30 is positioned at (as Suo Shi Fig. 1 (b)) on first substrate 10 or second substrate 20;

Arrange light guide 40, this light guide 40 is positioned at the outside of second substrate 20 and outwardly, and the bottom surface of light guide 40 covers (as shown in Figure 1 (d) shows) at least partially of the lighting surface of solar cell 30.

Can light guide 40 be set in several ways, such as, light guide 40 can be formed by patterning processes, or, volume to volume (rolltoroll) transfer printing process can be passed through and form light guide 40.

In the present invention, to described, order between the step of first substrate 10 and second substrate 20 pairs of boxes and the described step arranging solar cell 30 do not had special restriction.Such as, solar cell 30 can be arranged on first substrate 10 or second substrate 20 carry out again described by the step of first substrate 10 or second substrate 20 pairs of boxes.Preferably, first can carry out described by the step of first substrate 10 and second substrate 20 pairs of boxes, solar cell 30 is arranged on the outer surface of second substrate 20, thus solar energy acquisition amount can be improved.Above describe other advantages be arranged on by solar cell 30 on the outer surface of second substrate 20 in detail, repeated no more here.

As noted before, when described display floater is display panels, the inner surface of second substrate 20 is provided with color rete 22 and black matrix 21, in this case, solar cell 30 is arranged on the position corresponding with black matrix 21.

When described display floater is organic EL display panel, the inner surface of first substrate 10 is provided with multiple organic electroluminescent LED 60, solar cell 30 is arranged on corresponding position, space between adjacent two organic electroluminescent LEDs.

When described display floater comprises planarization layer, described manufacture method can also be included in described setting and to carry out between the step of solar cell 30 and the described step arranging light guide 40:

Form planarization layer 50(as Suo Shi Fig. 1 (c)), this planarization layer 50 covers outer surface and the solar cell 30 of second substrate 20, and the outer surface of planarization layer 50 is plane.

As noted before, thermosetting resin or photo-curing material can be utilized to make planarization layer 50.When utilizing thermosetting resin to make planarization layer 50, can first thermosetting resin be coated on the outer surface of second substrate 20, then second substrate 20 be heated, planarization layer 50 is solidified.When utilizing photo-curing material to make planarization layer 50, can first photo-curing material be coated on the outer surface of second substrate 20, then utilize ultraviolet to irradiate, photo-curing material be solidified and obtains planarization layer 50.

Similarly, photo-curing material or thermosetting resin can be utilized to form light guide 40.When utilizing photo-curing material to form light guide 40, can first photo-curing material be coated on the outer surface of planarization layer 50, then utilize patterning processes to expose photocurable material layer, utilize etching liquid that photocurable material layer is developed subsequently, form light guide 40.When utilizing thermosetting resin to form light guide 40, can first by uncured for preformed light guide 40() be arranged on planarization layer 50, carry out heating subsequently and make light guide 40 curing molding and be fixed on planarization layer 50.

As noted before, preferably, light guide 40 can be arranged on the position that the outside of second substrate 20 is corresponding with solar cell 30.

Further preferably, position that can be not corresponding with solar cell 30 in the outside of second substrate 20 also arranges light guide 40, make multiple light guide 40 be evenly distributed in the outside of second substrate 20, and make the bottom surface of multiple light guide 40 cover the exiting surface of described display floater completely.

Except utilizing above-mentioned manufacture method provided by the present invention to be arranged on except the outside of display floater by light guide 40, first can also comprise the film of multiple light guide 40 by prefabricated one deck, the film then this being comprised multiple light guide 40 is bonded in the light emission side of display floater.

Be understandable that, the illustrative embodiments that above execution mode is only used to principle of the present invention is described and adopts, but the present invention is not limited thereto.For those skilled in the art, without departing from the spirit and substance in the present invention, can make various modification and improvement, these modification and improvement are also considered as protection scope of the present invention.

Claims (12)

1. a display floater, described display floater comprises first substrate, second substrate and the solar cell be arranged in described display floater, described first substrate and described second substrate are oppositely arranged, the outer surface of described second substrate is the exiting surface of described display floater, it is characterized in that, described display floater also comprises and is arranged on light guide outside described second substrate and outwardly, the bottom surface of described light guide covers the lighting surface of described solar cell at least partially, the light be radiated on described light guide to be concentrated on going up at least partially of the lighting surface of described solar cell, described solar cell is arranged on the outer surface of described second substrate, the outer surface of described second substrate is formed with planarization layer, described planarization layer covers the outer surface of described solar cell and described second substrate, and the outer surface of described planarization layer is plane, described light guide is arranged on the outer surface of described planarization layer, described solar cell embeds in described planarization layer, the inner surface of described second substrate is provided with black matrix, described solar cell arranges and is the position that described black matrix is corresponding, the edge of described solar cell exceedes the edge of described black matrix, described planarization layer is identical with described light guide material and form as one.

2. display floater according to claim 1, is characterized in that, the inner surface of described second substrate is also provided with color rete.

3. display floater according to claim 1, it is characterized in that, described first substrate is provided with multiple organic electroluminescent LED, and described solar cell is arranged on corresponding position, space between adjacent two described organic electroluminescent LEDs.

4. display floater as claimed in any of claims 1 to 3, is characterized in that, the position that the outside of described second substrate is corresponding with described solar cell is provided with described light guide.

5. display floater according to claim 4, it is characterized in that, the position that the outside of described second substrate is not corresponding with described solar cell is also provided with described light guide, make multiple described light guide be evenly distributed in the outside of described second substrate, and make the bottom surface of multiple described light guide cover the exiting surface of described display floater completely.

6. a terminal equipment, described terminal equipment comprises display floater, it is characterized in that, described display floater is the display floater in claim 1 to 5 described in any one.

7. terminal equipment according to claim 6, is characterized in that, described terminal equipment also comprises power supply, and described solar cell is connected with described power supply, thinks described power source charges.

8. a manufacture method for display floater, is characterized in that, this manufacture method comprises:

The inner surface of second substrate arranges black matrix;

By first substrate and described second substrate to box, the outer surface of described second substrate is formed as the exiting surface of described display floater;

The outer surface of described second substrate arranges solar cell, and described solar cell is arranged on the position corresponding with described black matrix, and the edge of described solar cell exceeds the edge of described black matrix;

Form planarization layer, described planarization layer covers the outer surface of described second substrate and described solar cell, and the outer surface of described planarization layer is plane, and described solar cell embeds described planarization layer,

Arrange light guide, this light guide is positioned at the outside of described second substrate and outwardly, and the bottom surface of described light guide covers the lighting surface of described solar cell at least partially, wherein,

The step forming planarization layer and the step arranging light guide are synchronously carried out, to obtain the planarization layer and light guide that form as one.

9. manufacture method according to claim 8, is characterized in that, the inner surface of described second substrate is also provided with color rete.

10. manufacture method according to claim 8, it is characterized in that, the inner surface of described first substrate is provided with multiple organic electroluminescent LED, and described solar cell is arranged on corresponding position, space between adjacent two described organic electroluminescent LEDs.

Manufacture method in 11. according to Claim 8 to 10 described in any one, is characterized in that, the position that the outside of described second substrate is corresponding with described solar cell is provided with described light guide.

12. manufacture methods according to claim 11, it is characterized in that, the position that the outside of described second substrate is not corresponding with described solar cell is also provided with described light guide, make multiple described light guide be evenly distributed in the outside of described second substrate, and make the bottom surface of multiple described light guide cover the exiting surface of described display floater completely.