CN205910466U - Backlight unit and including such backlight unit's transparent display device - Google Patents

Abstract

The utility model discloses a backlight unit and including such backlight unit's transparent display device. This backlight unit is configured into the use in transparent display device, and include: light -splitting device, and set up at light -splitting device's lateral part and towards the light source of light -splitting device transmission light. Light -splitting device configures into and falls into two light beams with the light by light source emission, and the configuration of first light beam is used for providing in a poor light to the configuration of second light beam is used for the background at illumination light -splitting device rear. In addition, this transparent display device includes: it is above backlight unit, and array substrate and the various membrane base plate of setting in backlight unit the place ahead.

Description

Backlight module and the transparent display including such backlight module

Technical field

This utility model is related to the technical field of Transparence Display, and more particularly to a kind of backlight module and a kind of Transparent display including such backlight module.

Background technology

With scientific and technical fast development, combine it has been proposed that available liquid crystal is shown with Transparence Display, To provide the user more preferable experience.Using such transparent liquid crystal Display Technique, user both can see and being shown on screen The information shown it is also possible to see the background environment at its rear through display device.At least rely on such Transparence Display characteristic, thoroughly Bright liquid crystal indicator is just obtaining now people and is more and more paying close attention to.

In transparent liquid crystal display technology field, have been proposed for several different implementation at present.Some examples Property solution include the combination of common liquid crystals display floater and light guide plate, or the knot of common liquid crystals display floater and casing Close.However, for such technical scheme, remaining in such as problem at present, such as Transparence Display effect on driving birds is not good, Wu Fashi Lightening and portability of existing display device etc., so that it can not meet the current requirement to display device well.And For these requirements, especially for the lightening and portability of display device, exactly current electronic equipment progressively develops Direction.

Utility model content

Based on the above, embodiment of the present utility model provides a kind of backlight module, and a kind of inclusion is such The transparent display of backlight module, is alleviated at least in part with attempting or eliminates one of above-indicated shortcoming or many Individual.

According to first aspect of the present utility model, there is provided a kind of backlight module.This backlight module is configured to using saturating Substantially in showing device, and include: light-splitting device；And it is arranged on the sidepiece of light-splitting device and towards light-splitting device launching light Light source.Light-splitting device is configured to for the light launched by light source to be divided into two light beams, and the first beam configuration is used for providing backlight, and And second beam configuration be used for illumination light-splitting device rear background.

In the above-mentioned backlight module that first aspect of the present utility model is provided, by light-splitting device, light source is launched Light beam be divided into two bundles, wherein, the first light beam is used for providing backlighting for, and the second light beam is used for illumination light-splitting device rear Background object.By this way, on the one hand, the display device including such backlight module can obtain necessary backlight photograph Bright such that it is able to realize normal display in the case of powering up；On the other hand, simultaneously by means of the second light beam to light-splitting device after The irradiation of square background, has lighted the ambient background at the display device rear of the such backlight module of inclusion, thus being conducive to showing The raising of the Transparence Display effect of device.Additionally, the above-mentioned backlight module being provided according to first aspect of the present utility model, light Source is arranged at the side of light-splitting device, and this eliminates the occlusion issue that light source is likely to occur, and further increases transparent aobvious Show effect.

According to the embodiment of first aspect of the present utility model, light-splitting device includes semi-transparent semi-reflecting film.In such situation Under, the first light beam includes the reflected light of the light that semi-transparent semi-reflecting film is launched to light source, and the second light beam includes semi-transparent semi-reflecting film The transmitted light of the light that light source is launched；Or, the first light beam includes the transmitted light of the light that semi-transparent semi-reflecting film is launched to light source, And the second light beam includes the reflected light of the light that semi-transparent semi-reflecting film is launched to light source.In this specific embodiment, using half Saturating half anti-film achieves the beam splitting of the light that light source is launched, and wherein reflected light is used for providing backlighting for, and transmitted light is used for Light the background environment at light-splitting device rear.Herein, semi-transparent semi-reflecting film is known in those skilled in the art, thus it is had Body structure, composition etc. are not further explained in detail.Certainly, as those skilled in the art readily appreciate, according to this In the above-mentioned backlight module that utility model is provided, light-splitting device be not limited only to above enumerate as an example semi-transparent semi-reflecting Film.On the contrary, in the case of benefiting from teaching of the present utility model, skilled artisans appreciate that arriving, it is possible to use appoint The feasible optics developed to be realized the light splitting work(of light-splitting device indicated above by what in commercially available or future Energy.

According to the embodiment of first aspect of the present utility model, backlight module also includes transparency carrier, wherein, semi-transparent semi-reflecting Film is arranged on front surface or the rear surface of transparency carrier.By means of such transparency carrier, it is possible to achieve semi-transparent semi-reflecting film Firm setting, thus being conducive to backlight module provided by the utility model, and further transparent display, in machinery Reliability and stability with optics aspect.That is, a Main Function herein for the transparency carrier is mechanical support. Additionally, such supporting substrate or transparent, thus any unfavorable shadow will not be brought to the Transparence Display effect of display device Ring.

According to the embodiment of first aspect of the present utility model, transparency carrier be shaped as wedge shape, wherein, semi-transparent semi-reflecting film It is arranged on the inclined surface of wedge shape transparency carrier.As a specific advantageous scheme, by transparency carrier is designed to wedge Shape shape and semi-transparent semi-reflecting film is arranged on its inclined surface it is ensured that between the light launched of light source and semi-transparent semi-reflecting film Certain angle, thus being conducive to the transmission of light and the reflection that light source launched, that is, promote the light splitting function of light-splitting device Realize.Certainly, for the angle of wedge of wedge shape transparency carrier, those skilled in the art can combine tool according to teaching of the present utility model Body is realized being selected, and is not limited thereto.In addition, in the case of wedge shape transparency carrier, the propagation of the light that light source is launched Path is longer, therefore there will not be the dim situation in local, thus ensure that display, especially Transparence Display in display device Quality.

According to the embodiment of first aspect of the present utility model, transparency carrier includes two submounts stacking together, And semi-transparent semi-reflecting film is arranged between two submounts.As further implementing, the number of transparency carrier can not It is only limited to single.When transparency carrier includes two stacked submounts, it can obtain to the firm effect of semi-transparent semi-reflecting film To strengthening further.

According to the embodiment of first aspect of the present utility model, the shape of this two submounts is wedge shape.This two wedges Shape submounts stack together in the case that inclined surface is relative to each other, and semi-transparent semi-reflecting film is arranged on this two wedge shape Between the inclined surface of substrate.As stated above with respect to wedge shape transparency carrier, by means of two wedge shape submounts, light source institute The propagation path of the light of transmitting is extended, further thus promoting the lifting of display quality.

According to the embodiment of first aspect of the present utility model, transparency carrier is made of clear material.Specifically, transparent material Material includes glass or tin indium oxide (ito).Certainly, in the case of teaching of the present utility model, those skilled in the art can To be easily contemplated to any other suitable transparent material, and this utility model is not limited only to those listed concrete materials Material.

According to the embodiment of first aspect of the present utility model, light source includes being separately positioned on the many of the both sides of light-splitting device Individual light source.Alternatively, light source is arranged on the short brink of light-splitting device.Alternatively, light source includes laser diode, organic light emission two Pole pipe or lasing light emitter.According to such specific embodiment, light source thus can promote from both sides respectively to light-splitting device launching light Enter being uniformly distributed of incoming position on light-splitting device for the light.So, brightness and the uniformity of back lighting are not only increased, And also help uniformly the lighting of background environment at display device rear.Additionally, when light source is arranged at the minor face of light-splitting device During side, such uniform illumination effect can be further strengthened.

According to second aspect of the present utility model, there is provided a kind of transparent display, comprising: according to this utility model The backlight module described in first aspect；And it is arranged on the array base palte in front of backlight module and color membrane substrates.Using so Transparent display, improve Transparence Display effect.And, compared in prior art using multiple coatings, light guide plate etc. Technical scheme for, the technical solution of the utility model only needs a light-splitting device, thus construction more simple.

According to the embodiment of first aspect of the present utility model, color membrane substrates be arranged on array base palte and backlight module point Between optical device.Because the reflectance of the grid metal material of array base palte is relatively low, so by reverse array base palte and color film base The position of plate, makes color membrane substrates closer to light-splitting device it is achieved that the reusing of the light being reflected by color membrane substrates, and improves The utilization rate of the light that light source is launched.

According to the embodiment of first aspect of the present utility model, it is coated with color membrane substrates are towards the surface of light-splitting device Metallic reflective coating, wherein, metallic reflective coating covers black matrix pattern at least in part.Especially, metallic reflective coating is completely covered Black matrix pattern.In the case that there is the metallic reflective coating covering black matrix pattern, originally can incide on black matrix pattern And thus can be through covered metallic reflective coating again towards light-splitting device reflection, thus obtaining by the light losing Further with thus further increasing the utilization rate of the light that light source is launched.

According to the embodiment of first aspect of the present utility model, metallic reflective coating is made from aluminum or silver.Further, metal The thickness of reflectance coating is 100-300nm.In the case that metallic reflective coating is made from silver, when thickness is for 100nm, reflectance is More than 99%；When thickness is for 200nm, reflectance is more than 98%；And when thickness is for 300nm, reflectance is more than 97%. Certainly, the concrete material for metallic reflective coating forms, and possible thickness range, and those skilled in the art are benefiting from this In the case of the teaching of utility model, other feasible equivalents can be readily available.

Brief description

Fig. 1 shows the section view of the backlight module according to embodiment of the present utility model；

Fig. 2 shows the section view of the backlight module according to another embodiment of the present utility model；

Fig. 3 shows the section view of the backlight module according to another embodiment of the present utility model；

Fig. 4 shows the section of the transparent display of the above-mentioned backlight module of inclusion according to embodiment of the present utility model View；And

Fig. 5 shows the section view of the color membrane substrates in the transparent display according to embodiment of the present utility model.

Specific embodiment

Hereinafter come together to provide to one of the present utility model together with the accompanying drawing illustrating principle of the present utility model Or the detailed description of multiple embodiment.Describe this utility model in conjunction with such embodiment, but this utility model is not limited to appoint What embodiment.Scope of the present utility model is only limited by the claims and this utility model is covered numerous alternative, repaiied Change and equivalent.Illustrate numerous details in the following description to provide to thorough understanding of the present utility model.Only go out There is provided these details in the purpose of example and this utility model can be in some or all in not having these details In the case of put into practice according to claim.For clarity, not yet it is described in detail in and be related to technology of the present utility model In field, known technology material makes this utility model will be made to obscure with non-essential details.

The backlight module below in conjunction with the accompanying drawings embodiment of the present utility model being provided is described in detail.

With reference to Fig. 1, it illustrates the section view of the backlight module according to embodiment of the present utility model.Such backlight Module 1 can be configured to use in transparent display, and may include that light-splitting device 2；And it is arranged on light-splitting device 2 sidepiece and the light source 3 towards light-splitting device 2 launching light.Specifically, in FIG, schematic using black arrows c The incident illumination launched towards light-splitting device 2 by light source is shown.Light-splitting device 2 can be configured to be launched by light source 3 After light is divided into two light beams a, b, and wherein, the first light beam a is used for providing backlight, and the second light beam b is used for illumination light-splitting device 2 The background of side.Specifically, light-splitting device 2 can include semi-transparent semi-reflecting film.In this case, the first light beam a can be half The reflected light to the light that light source 3 is launched for the saturating half anti-film, and the second light beam b can be that semi-transparent semi-reflecting film is launched to light source 3 Light transmitted light, as shown in fig. 1.Certainly, as is readily appreciated by a person skilled in the art, when light-splitting device 2 includes half During saturating half anti-film it is also possible to, the first light beam a transmitted light to the light that light source 3 is launched by semi-transparent semi-reflecting film, and the second light Bundle b reflected light to the light that light source 3 is launched by semi-transparent semi-reflecting film.For this different implementation, we can pass through will Light source 3 shown in Fig. 1 moves to the right side of light-splitting device 2 from the left side of light-splitting device 2 and obtains, and here is not specifically shown Go out.According to these specific embodiments, on the one hand, can be the display device necessary back of the body of offer including the above backlight module Optical illumination is such that it is able to realize normal display；And on the other hand, by means of the second light beam, (that is, semi-transparent semi-reflecting film is saturating simultaneously Penetrate/the reflected beams) illumination to the background environment at light-splitting device rear, light the background at display device rear, thus favorably Transparence Display in display device.

With reference to Fig. 1, it further illustrates, and backlight module 1 can also include transparency carrier 4.In this case, divide Optical device 2, specifically semi-transparent semi-reflecting film, can be arranged on front surface or the rear surface of transparency carrier 4.Especially, as in Fig. 1 Shown, semi-transparent semi-reflecting film is arranged on the front surface of transparency carrier 4.By means of transparency carrier 4 mechanical support act on it is achieved that Backlight module 1, and further include the display device of such backlight module 1, in the reliability of machinery and optics aspect And stability.

Referring again to Fig. 1, it also further illustrates, and the transparency carrier 4 in backlight module 1 can design wedgewise shape Shape, and now, semi-transparent semi-reflecting film can be provided on the inclined surface of wedge shape transparency carrier 4.As can be as clearly visible from Figure 1 , when semi-transparent semi-reflecting film is arranged on wedge shape transparency carrier 4, by light source 3 towards light-splitting device 2(herein for semi-transparent semi-reflecting film) Assume certain angle between the light beam c of transmitting and semi-transparent semi-reflecting film, thereby promote incident beam c anti-through semi-transparent semi-reflecting film Penetrate and reflect, i.e. through the beam splitting of light-splitting device 2.Certainly, as is readily appreciated by a person skilled in the art, shown in FIG Wedge shape transparency carrier the angle of wedge be only one kind schematically show, be not meant to any restriction of the present utility model.Separately Outward, being in tilted layout using wedge shape transparency carrier and thus obtained semi-transparent semi-reflecting film, incident beam more uniformly incides On semi-transparent semi-reflecting film so that for back lighting the first light beam and for background illumination the second light beam more uniformly It is distributed throughout whole display device.This way it is ensured that including the uniform display of the display device of the above backlight module, And thus improve display quality.

With reference to Fig. 2, it illustrates the section view of the backlight module according to another embodiment of the present utility model.According to this The backlight module 1 ' of one specific embodiment is identical with the rough structure above with respect to the backlight module 1 described in Fig. 1, only wherein distinguishes It is, in addition to the above wedge shape transparency carrier 4, now backlight module 1 ' also has another wedge shape transparency carrier 4 '.As Fig. 2 Shown in, such two wedge shape transparency carriers 4,4 ' are put relatively, and that is, the inclined surface of each of which is relative to each other.And this When, semi-transparent semi-reflecting film is clipped between the inclined surface of this two transparency carrier 4,4 '.Using such two wedge shape transparency carriers 4,4 ', not only improve the mechanical robustness energy of semi-transparent semi-reflecting film, and further promote the raising of display quality.

With further reference to Fig. 3, it illustrates the section view of the backlight module according to another embodiment of the present utility model. Backlight module 1 ' according to this specific embodiment ' backlight module 1 ' described in above with respect to Fig. 2 rough structure identical, its In differ only in, in addition to the above light source 3, now backlight module 1 ' ' other light source 3 ' can also be included.Specifically Ground, light source 3,3 ' are separately positioned on two opposite side portions of light-splitting device 2.Now, for being arranged at the light source 3 ' on right side, Towards light-splitting device 2(specifically, semi-transparent semi-reflecting film), after beam splitting, the reflected beams are used for illumination for the light beam c ' that launched Background environment, and transmitted light beam is used for providing backlighting for, this is different from the light source 3 being arranged on left side.But, in any case, The light beam c that this two light source 3,3 ' is provided, c ' all launch towards light-splitting device 2, and through light-splitting device 2 beam splitting it Afterwards, the outgoing beam of Part I provides back lighting, and the outgoing beam of Part II provides the illumination of background.Enter one Step alternatively, this two light source 3,3 ' is arranged at light-splitting device 2(herein, semi-transparent semi-reflecting film) short brink.With such side Formula, light source can be from both sides respectively to light-splitting device 2 launching light, such that it is able to promote incoming position on light-splitting device 2 for the light Be uniformly distributed.So, not only increase brightness and the uniformity of back lighting, and also help the back of the body at display device rear Uniformly the lighting of scape environment.

According to second aspect of the present utility model, there is provided a kind of transparent display of the above-mentioned backlight module of inclusion.Fig. 4 Show the section view of the exemplary embodiment of such transparent display.As shown in Figure 4, transparent display is permissible Including: with reference to the backlight module 1 of above example description；And it is arranged on the array base palte 51 in backlight module 1 front, color film base Plate 53 and optional liquid crystal panel 52.There is the above-mentioned transparent aobvious of the backlight module 1 according to embodiment of the present utility model In showing device, Transparence Display effect is significantly improved.Further, since only having single light-splitting device, rather than it is coated in Two layers of coatings on the upside of glass substrate and downside, the construction of the transparent display according to embodiment of the present utility model is more For simple.

Specifically, as shown in Figure 4, for compared to array base palte 51, color membrane substrates 53 are positioned closer to backlight mould The light-splitting device 2 of group 1.In general, the reflectance of grid metal material on array base palte 51 is relatively low, therefore new according to this practicality The embodiment of type, by exchanging the position of array base palte 51 and color membrane substrates 53, make color membrane substrates 53 be in array base palte 51 with It is achieved that the reusing of the light being reflected by color membrane substrates 53 between the light-splitting device of backlight module 1, and provide light source 3, The utilization rate of the 3 ' light launched.

With reference to Fig. 5, it illustrates cutting of the color membrane substrates in the transparent display according to embodiment of the present utility model Face view.Specifically, metallic reflective coating 6 can be coated with color membrane substrates 53 are towards the surface of light-splitting device 2, wherein, gold Belong to reflectance coating and can cover black matrix pattern bm at least in part.Especially, metallic reflective coating 6 can be completely covered black matrix figure Case bm.As shown in Figure 5, be utilized respectively right oblique line, red color area (r) that left oblique line, argyle design illustrate on color membrane substrates, green Area (g) and blue region (b), and black matrix pattern bm(is illustrated using solid black square frame in Figure 5) then it is arranged at these three areas Between intersection.According to embodiment of the present utility model, black matrix pattern bm is completely covered with metallic reflective coating, such as schemes Shown in open squares 6 in 5.In this case, originally incide on black matrix pattern bm and therefore will lose Part light the metallic reflective coating being covered 6 is reflected, be again incident on the light-splitting device 2 of backlight module 1 after this On, such as it is readily visible with reference to Figure 4 and 5.This time mode, the light that this part may slattern originally will obtain entering one The utilization of step, thus improve the utilization rate of the light that light source is launched.

Specifically, as those skilled in the art readily appreciate, the above metallic reflective coating 6 can be by any suitable When metal material make, aluminum, silver etc..Furthermore it is also possible to above institute is selected in the best way according to specific implementation State the thickness of metallic reflective coating 6, to improve the utilization rate of light source light as much as possible.As an example, can be by such metal The thickness of reflectance coating 6 is chosen as 100-300nm.Certainly, this utility model is not limited only to such example.

It is pointed out that in description of the present utility model, " " center ", " top ", " lower section ", " front by term The side of the instruction such as side ", " rear ", " left side ", " right side ", " vertical ", " level ", " top ", " bottom ", " internal ", " outside " Position or position relationship are based on the orientation shown in accompanying drawing or position relationship, and it is for only for ease of description this utility model, and It is not used in instruction or hint indication device or element must have specific orientation or with specific azimuth configuration and operation, because This should not be construed as to restriction of the present utility model.

Term " first ", " second " etc. be only used for describe purpose, and should not be construed as indicate or imply relative importance or Person implies the number indicating involved technical characteristic.Therefore, the feature being limited by " first ", " second " etc. can clearly or Person impliedly indicates including one or more such features.In description of the present utility model, unless otherwise stated, " multiple " are meant that two or more.

In the description of this specification, disclosed specific features, structure, material or feature can any one or many Combine in any suitable manner in individual embodiment or example.

While there has been shown and described that specific embodiment of the present utility model, but those skilled in the art will be aobvious and easy See, modifications and changes can be made without deviating from this utility model of its broad aspect, and therefore, right of enclosing will Ask and will cover in the range of it as all such modifications and changes in true spirit of the present utility model or scope that fall.

Claims (13)

1. a kind of backlight module is it is characterised in that described backlight module is configured to using in transparent display, and wraps Include:

Light-splitting device；And

It is arranged on sidepiece and the light source towards described light-splitting device launching light of described light-splitting device,

Wherein, described light-splitting device is configured to be divided into two light beams by the light that described light source is launched, and the first beam configuration is used for Backlight is provided, and the second beam configuration is used for the background at light-splitting device rear described in illumination.

2. backlight module according to claim 1 it is characterised in that

Described light-splitting device includes semi-transparent semi-reflecting film, and wherein, described first light beam includes described semi-transparent semi-reflecting film to described light source The reflected light of the light launched, and described second light beam to include described semi-transparent semi-reflecting film saturating to the light that described light source is launched Penetrate light；Or, described first light beam includes the transmitted light to the light that described light source is launched for the described semi-transparent semi-reflecting film, and described Second light beam includes the reflected light to the light that described light source is launched for the described semi-transparent semi-reflecting film.

3. backlight module according to claim 2 it is characterised in that

Described backlight module also includes transparency carrier, and wherein, described semi-transparent semi-reflecting film is arranged on the front surface of described transparency carrier Or after on surface.

4. backlight module according to claim 3 it is characterised in that

Described transparency carrier be shaped as wedge shape, wherein, described semi-transparent semi-reflecting film is arranged on the inclination of described wedge shape transparency carrier On surface.

5. backlight module according to claim 3 it is characterised in that

Described transparency carrier includes two submounts stacking together, and described semi-transparent semi-reflecting film is arranged on described two sons Between substrate.

6. backlight module according to claim 5 it is characterised in that

The shape of described two submounts is wedge shape, and wherein, described two wedge shape submounts are relative to each other in inclined surface In the case of stack together, and described semi-transparent semi-reflecting film is arranged between the inclined surface of described two wedge shape submounts.

7. backlight module according to claim 1 it is characterised in that

Described light source includes being separately positioned on the multiple light sources of the both sides of described light-splitting device.

8. backlight module according to claim 1 it is characterised in that

Described light source is arranged on the short brink of described light-splitting device.

9. a kind of transparent display is it is characterised in that described transparent display includes:

Backlight module according to claim 1；And

It is arranged on the array base palte in front of described backlight module and color membrane substrates.

10. transparent display according to claim 9 it is characterised in that

Described color membrane substrates are arranged between described array base palte and the light-splitting device of described backlight module.

11. transparent displays according to claim 10 it is characterised in that

It is coated with metallic reflective coating on described color membrane substrates are towards the surface of described light-splitting device, wherein, described metallic reflection Film covers black matrix pattern at least in part.

12. transparent displays according to claim 11 it is characterised in that

Described metallic reflective coating is completely covered described black matrix pattern.

13. transparent displays according to claim 11 it is characterised in that

The thickness of described metallic reflective coating is 100-300nm.