CN205900547U - Illumination panel and lighting device - Google Patents

Abstract

An embodiment of the utility model provides an illumination panel and lighting device. A loaded down with trivial details process that the lighting technology field can avoid using the decorating film to bring on realizing the figurative basis of light is related to. This illumination panel includes the substrate base plate and sets up the light source layer on the substrate base plate. Be provided with additional layer between substrate base plate and the light source layer, additional layer includes shading portion and printing opacity portion. Be used for the illumination.

Description

A kind of illumination panel and illuminator

Technical field

This utility model is related to lighting technical field, more particularly, to a kind of illumination panel and illuminator.

Background technology

Organic Light Emitting Diode (organic light emitting diode, oled) is as a kind of current mode luminous organ Part, the self-luminous having because of it, quick response, wide viewing angle and the features such as can be produced in flexible substrate and more and more by It is applied in the middle of planar lighting device.

In prior art, so that planar lighting device reaches certain decorative effect, as shown in Figure 1 it will usually In planar lighting device, the light emission side setting of illumination panel 10 has the decorating film 11 of transmission region 110 and lightproof area 111, leads to Crossing the shape that above-mentioned transmission region 110 and lightproof area 111 are set and position, certain decorative pattern being formed so that shining The light line modelling that the light that bright panel 10 sends can be irradiated after above-mentioned decorating film and above-mentioned decorative pattern match.

However, above-mentioned decorating film 11 and illumination panel 10 are the two independent portions being completed by different manufacturing process Part, therefore in the manufacturing process of planar lighting device, needs to increase assembling procedure so that decorating film 11 is attached to illumination panel 10 light emission side, reduces the integrated level of product.

Utility model content

Embodiment of the present utility model provides a kind of illumination panel and illuminator, can be on the basis realizing light line modelling On, it is to avoid the cumbersome process being brought using decorating film.

For reaching above-mentioned purpose, embodiment of the present utility model adopts the following technical scheme that

The one side of this utility model embodiment, provides a kind of illumination panel, including underlay substrate and be arranged at described Light source layer on underlay substrate；It is provided with extra play, described extra play includes hiding between described underlay substrate and described light source layer Light portion and transmittance section.

Preferably, described light source layer includes multiple luminescent devices in matrix form arrangement；The periphery of described luminescent device It is provided with holding wire；The luminescent device not blocked by described light shielding part is connected with described holding wire, and described holding wire is used for carrying For luminous signal.

Preferably, the luminescent device being blocked completely by described light shielding part does not light.

Preferably, described luminescent device includes first electrode, luminescent layer and second electrode successively, wherein, two neighboring The first electrode insulation set of luminescent device, described first electrode is transparency electrode, described first electrode and described holding wire phase Connect.

Preferably, the luminescent layer of two neighboring luminescent device is structure as a whole；And/or, the of two neighboring luminescent device Two electrodes are structure as a whole.

Preferably, it is separated with the projection that defines of insulating properties between two neighboring luminescent device, two neighboring luminescent device Luminescent layer defines raised insulation set by described, and the second electrode of two neighboring luminescent device defines projection absolutely by described Edge is arranged.

Preferably, described extra play is provided with via in the position of corresponding described holding wire, described first electrode is passed through Described via is connected with described holding wire.

Preferably, described extra play is provided with via in the position of corresponding described luminescent device, described first electrode is led to Via is connected with lead；Wherein, described lead is located between described extra play and described underlay substrate, described lead and institute State holding wire to be connected.

Preferably, described luminescent layer includes organic luminous layer or quantum dot light emitting layer.

Preferably, described transmittance section is made up of transparent insulation material.

Preferably, described light shielding part is separately formed by the first film layer；Or, described light shielding part is by being sequentially located at described substrate Described the first film layer on substrate and the superposition of the second thin layer are constituted；Wherein, described the first film layer is made up of light screening material, Described second thin layer is made up of transparent insulation material.

Preferably, described light shielding part and described holding wire are with the same material of layer.

Preferably, described light shielding part is connected with described holding wire.

Preferably, described light source layer deviates from the side of described underlay substrate and is provided with encapsulating structure.

The another aspect of this utility model embodiment, provides a kind of illuminator, including any one photograph as above Bright panel.

This utility model embodiment provides a kind of illumination panel and illuminator, this illumination panel include underlay substrate and It is arranged at the light source layer on underlay substrate.It is provided with extra play, this extra play includes light shielding part between underlay substrate and light source layer And transmittance section.Because light shielding part can block to the light that light source layer sends, the light that light source layer can be sent by transmittance section Line passes through, therefore can be by arranging above-mentioned extra play, and the light that light source layer is sent carries out moulding.Further, since it is above-mentioned attached Plus layer is located between underlay substrate and light source layer so that illumination panel itself has the effect of light chisel, therefore need not be in illumination Panel over-assemble decorating film, thus avoiding the cumbersome process bringing using this decorating film, improves the integrated level of product.

Brief description

In order to be illustrated more clearly that this utility model embodiment or technical scheme of the prior art, below will be to embodiment Or in description of the prior art the accompanying drawing of required use be briefly described it should be apparent that, drawings in the following description are only It is some embodiments of the present utility model, for those of ordinary skill in the art, in the premise not paying creative work Under, other accompanying drawings can also be obtained according to these accompanying drawings.

A kind of structural representation of planar lighting device that Fig. 1 provides for prior art；

A kind of structural representation of illumination panel that Fig. 2 provides for this utility model embodiment；

The structural representation of another kind of illumination panel that Fig. 3 provides for this utility model embodiment；

Fig. 4 is the structural representation of light source layer in Fig. 2 or Fig. 3；

Fig. 5 is a kind of structural representation by the light source layer of holding wire pixelation and barrier bed；

Fig. 6 is a kind of structural representation that in Fig. 5, holding wire is connected with each luminescence unit in light source layer；

Fig. 7 is another kind of structural representation by the light source layer of holding wire pixelation and barrier bed；

Fig. 8 is another structural representation by the light source layer of holding wire pixelation and barrier bed；

The structural representation of another kind of illumination panel that Fig. 9 provides for this utility model embodiment；

The structural representation of another illumination panel that Figure 10 provides for this utility model embodiment；

Figure 11 is the set-up mode schematic diagram crossing hole site in Fig. 9 and Figure 10；

The structural representation of another illumination panel that Figure 12 provides for this utility model embodiment.

Reference:

01- top crown；02- bottom crown；03- the first film layer；10- illumination panel；100- underlay substrate；101- light source Layer；102- extra play；1021- light shielding part；1022- transmittance section；11- decorating film；110- transmission region；111- lightproof area； 201- luminescent layer；202- luminescent layer；203- second electrode；20- luminescent device；The 20 '-portion of being blocked blocks completely luminous organ Part；20 "-luminescent device that partly portion of being blocked blocks；21- holding wire；22- via；23- lead；30- encapsulating structure.

Specific embodiment

Below in conjunction with the accompanying drawing in this utility model embodiment, the technical scheme in this utility model embodiment is carried out Clearly and completely description is it is clear that described embodiment is only a part of embodiment of this utility model rather than whole Embodiment.Based on the embodiment in this utility model, those of ordinary skill in the art are not under the premise of making creative work The every other embodiment being obtained, broadly falls into the scope of this utility model protection.

This utility model embodiment is as shown in Fig. 2 provide a kind of illumination panel 10.This illumination panel 10 includes underlay substrate 100 and be arranged at the light source layer 101 on underlay substrate 100.

Wherein, it is provided with extra play 102 between underlay substrate 100 and light source layer 101, this extra play 102 includes light shielding part 1021 and transmittance section 1022.

Based on this, because light shielding part can block to the light that light source layer sends, light source layer can be sent out by transmittance section The light going out passes through, therefore can be by arranging above-mentioned extra play, and the light that light source layer is sent carries out moulding.Further, since Above-mentioned extra play is located between underlay substrate and light source layer so that illumination panel itself has the effect of light chisel, therefore need not In illumination panel over-assemble decorating film, thus avoiding the cumbersome process bringing using this decorating film, improve the integrated level of product.

It should be noted that because the light that light source layer 101 sends can be passed through by transmittance section 1022, therefore this transmittance section 1022 can be made up of transparent material.Additionally, the impact to illumination panel 10 electric property in order to avoid transmittance section 1022, preferably Above-mentioned transmittance section 1022 can by transparent insulation material, for example transparent resin material constitute.

On this basis, the light that light shielding part 1021 can send to light source layer 101 blocks.Based on this, light shielding part 1021 as shown in Fig. 2 can be by thin film layer, and such as the first film layer 03 is separately formed.This first film layer 03 can be adopted Constituted with light screening material, such as metal material or black resin material.

Or, as shown in figure 3, can be by two film layers, such as the first film layer 03 and the second thin layer 04 superposition structure Become.Wherein the first film layer 03 can be constituted using above-mentioned light screening material, and the second thin layer 04 can adopt transparent insulation material Constitute.Wherein, this utility model does not limit to the upper and lower position of the first film layer 03 and the second thin layer 04.Due to printing opacity Portion 1022 all can be made up of transparent insulation material with the second thin layer 04.It is therefore preferable that the second thin layer 04 may be located at The top of one thin layer 03, and transmittance section 1022 can be structure as a whole with the second thin layer 04.So, make and add During layer 102, first can form the first film layer 03 on underlay substrate 100, and be patterned by patterning processes.Then exist It is formed with the underlay substrate 100 of the first film layer 03, form transparent insulation material layer by patterning processes, to be formed simultaneously State the second thin layer 04 and transmittance section 1022.

It should be noted that in this utility model, patterning processes, can refer to including photoetching process, or, including photoetching process And etch step, can also include simultaneously printing, ink-jet etc. other be used for form predetermined pattern technique；Photoetching process, be The technique referring to include the formation figure such as the utilization photoresist of the technical processs such as film forming, exposure, development, mask plate, exposure machine.Can root According to the corresponding patterning processes of the structure choice formed in this utility model.

Wherein, patterning processes in this utility model embodiment, are to be formed not by a mask exposure technique Same exposure area, then carries out the removal technique such as multiple etching, ashing and finally gives expected pattern to different exposure areas As a example the explanation that carries out.

Hereinafter the structure of light source layer 101 is carried out with detailed illustration:

For example, light source layer 101 can include the top crown 01 being oppositely arranged and bottom crown 02 as shown in Figure 4 and be located at this Luminescent layer 201 between top crown 01 and bottom crown 02.Wherein, this luminescent layer 20 can adopt luminous organic material or quantum dot Luminescent material is constituted.After to top crown 01 and bottom crown 02 applied voltage, this luminescent layer 201 can be in top crown 01 and lower pole Luminous under the electric field action that plate 02 is formed, to provide light source for above-mentioned illumination panel 10.

Again for example, it is possible to pixelation is carried out to light source layer 101.

Specifically, above-mentioned light source layer 101 is as shown in figure 5, multiple luminescent devices in matrix form arrangement can also be included 20.Wherein, the periphery of this luminescent device 20 is provided with holding wire 21, so that can pass through between two neighboring luminescent device 20 Above-mentioned holding wire 20 is spaced apart, to realize the independent control of multiple luminescent devices 20.Additionally, so that light source layer 101 sends Light can pass through transmittance section 1022 outgoing, the luminescent device that do not blocked by above-mentioned light shielding part 1,021 20 and above-mentioned holding wire 21 It is connected, so that holding wire 21 can provide luminous signal to the luminescent device 20 corresponding with transmittance section 1022 position, with The luminescent device 20 at this position is driven to light, so that the light that light source layer 101 sends can be gone out by transmittance section 1022 Penetrate.

It should be noted that the above-mentioned luminescent device 20 not blocked by above-mentioned light shielding part 1021 is connected with above-mentioned holding wire 21 Connect and refer to, need to ensure the luminescent device 20 not blocked by above-mentioned light shielding part 1021 and the letter being arranged at this luminescent device 20 periphery Number line 21 is connected.Certainly can also as shown in fig. 6, by all luminescent devices 20 all be arranged at this luminescent device 20 periphery Holding wire 21 is connected.

In sum, because each luminescent device 20 in the light source layer 101 shown in Fig. 5 can pass through the letter of respective periphery Number line 20 individually controls, and carries out pixelation to light source layer 101.Therefore when this illumination panel 10 is in the process producing or use In, when external environment (such as impurity, dust etc.) or anthropic factor lead to the separate radiation device 20 of light source layer 101 to damage, Remaining unspoiled luminescent device 20 can be inputted to luminescent device 20 by the holding wire 21 being connected with this luminescent device 20 Luminous signal, drives unspoiled luminescent device 20 normal luminous.And the light source layer 101 shown in Fig. 4, when the portion of light source layer 101 When point being damaged, whole illumination panel 10 will be led to cannot normally to use.It is advantageous to, can adopt as shown in Figure 5 Light source layer 101 constitutes above-mentioned illumination panel 10.

Further, the luminescent device 20 being blocked by above-mentioned light shielding part 1021 includes being blocked portion completely as shown in Figure 7 1021 luminescent devices 20 ' blocking, and partly it is blocked the luminescent device 20 blocking in portion 1021 ".When only not by above-mentioned screening The luminescent device 20 that light portion 1021 blocks is connected with above-mentioned holding wire 21, that is, above-mentioned be blocked that portion 1021 blocks completely luminous Device 20 ' and part are blocked the luminescent device 20 blocking in portion 1021 " when being all not connected to holding wire 21, as shown in fig. 7, above-mentioned Luminescent device 20 " and luminescent device 20 ' do not light, and so, the edge of light shielding part 1021 occurs zigzag, thus reducing The aesthetic property of illuminating shape.

In order to solve the above problems it is preferred that the luminescent device 20 being blocked completely by above-mentioned light shielding part 1021 does not light, that is, The luminescent device 20 being blocked completely by above-mentioned light shielding part 1021 is not connected to above-mentioned holding wire 21.In the case, except being hidden Beyond the luminescent device 20 that light portion 1021 blocks completely, remaining luminescent device 20 is connected with holding wire 21.So, a side Face, is partly blocked the luminescent device 20 blocking in portion 1021 " also it is connected with holding wire 21, that is, as shown in figure 8, part is blocked The luminescent device 20 that portion 1021 blocks " also can receive the luminous signal of holding wire 21 input, and is in luminance, so that The edge obtaining light shielding part 1021 is round and smooth, improves the aesthetic property of illuminating shape.On the other hand, hide due to being blocked portion 1021 completely The luminescent device 20 ' of gear will not be connected with holding wire 21, be therefore blocked the luminescent device 20 ' blocking in portion 1021 completely and do not send out Light, such that it is able to avoid, all of luminescent device 20 is all luminous to be led to illuminate the higher problem of power consumption.

Below taking through the light source layer 101 of pixelation as a example, the structure of the remaining part in above-mentioned illumination panel 10 is entered The detailed illustration of row.

The structure of light shielding part 1021 is illustrated:

From the foregoing it will be appreciated that can be constituted using metal material for constituting the first film layer 03 of light shielding part 1021, and on Stating holding wire 21 equally adopts metal material to constitute.Therefore for Simplified flowsheet, above-mentioned the first film layer 03 as illustrated in fig. 9 or 10 With holding wire 21 with the same material of layer.In the case, when light shielding part 1021 is only made up of the first film layer 03, this light shielding part 1021 with holding wire 21 with the same material of layer.So, on underlay substrate 100, make the first film layer by patterning processes The preparation of holding wire 21 when 03, can be completed simultaneously.

Further, light shielding part 1021 can be connected with holding wire 21.So, the light shielding part shown in Fig. 5 1021 are structure as a whole with holding wire 21, thus holding wire 21 need not be changed at light shielding part 1021 when making holding wire 21 Direction of routing, to avoid to light shielding part 1021, simplify manufacturing process, and do not need change luminescent device 20 location The shape in domain.

On this basis, luminescent device 20 structure as shown in figure 9, include successively first electrode 202, luminescent layer 201 with And second electrode 203, wherein, first electrode 202 insulation set of two neighboring luminescent device 20.First electrode 202 is transparent Electrode, so that the light that luminescent layer 201 sends, can pass through first electrode 202 outgoing.Preferably, can adopt transparent Above-mentioned first electrode 202 prepared by conductive material, for example tin indium oxide (English full name: indium tin oxide, English abbreviation: Ito), indium zinc oxide (English full name: indium zinc oxide, English abbreviation: izo) etc..

Based on this, so that luminescent device 20 can receive luminous signal, to send out in the presence of this luminous signal Light, for example can make on extra play 102 on the transparent insulation material for constituting extra play 102 transmittance section 1022 Hole 22, so that first electrode 202 can be connected with holding wire 21 by above-mentioned via 22.

In addition, multiple second electrodes 203 as shown in Figure 9 can be connected with each other, such that it is able to positioned at panel of showing up The second electrode 203 of marginal position provides luminous signal, so that interconnective multiple second electrode 203 all can receive Above-mentioned luminous signal.Or different second electrodes 203 can connect and connect different holding wires respectively, equally can realize sending out The reception of optical signal.

It should be noted that when above-mentioned luminescent device 20 only needs to carry out luminous to the side near underlay substrate 100, Above-mentioned second electrode 203 can be constituted using metal material.When luminescent device 20 needs near the both sides with underlay substrate 100 When all lighting, this second electrode 203 can also be made using transparent conductive material.

Further, in order to realize first electrode 202 insulation set of two neighboring luminescent device 20 it is preferred that as Fig. 9 Shown, can be separated with insulating properties between two neighboring luminescent device 20 defines raised 23.In the case, two neighboring luminous The luminescent layer 201 of device 20 can define raised 23 insulation sets, and the second electrode 203 of two neighboring luminescent device by this Raised 23 insulation sets can be defined by this.Further, due to defining raised 23, there is insulating properties, and be used for constituting printing opacity The material in portion 1022 is transparent insulation material.Therefore for Simplified flowsheet it is preferred that above-mentioned define raised 23 can be with transmittance section 1022 are structure as a whole.

Specific manufacturing process is: first, on the substrate being formed with light shielding part 1021 and holding wire 21, forms one layer thoroughly Bright insulation material layer, is then formed by patterning processes and above-mentioned defines raised 23 and transmittance section 1022.Next, can be adjacent Two parts defining between raised 23, and the position of corresponding holding wire 21 makes above-mentioned via 22.Finally, on two neighboring boundary Part between fixed raised 23 once forms first electrode 202, luminescent layer 201 and the second electrode 203 of luminescent device 20, the One electrode 202 can be connected with holding wire 21 by via 22.Define raised 23 from the above to pass through with transmittance section 1022 One time patterning processes are formed, therefore, it is possible to simplify processing technology.

Wherein, above-mentioned via 22 as shown in figure 11, can be produced on the position of the corresponding holding wire 21 of extra play 102, this When, the first electrode 202 of this luminescent device 20 is directly connected with holding wire 21 by above-mentioned via 22 as shown in Figure 9.

Or, above-mentioned via 22 can be made on the position of the corresponding luminescent device 20 of extra play 102, in the case, As shown in figure 12, the first electrode 202 of this luminescent device 20 is connected with lead 23 by above-mentioned via 22.And 23, this lead Between extra play 102 and underlay substrate 100, and extra play 102 is connected with above-mentioned holding wire 21, to be incited somebody to action by this lead 23 First electrode 202 is connected with holding wire 21.Further, on this basis, in order to ensure luminescent device 20 amount of light not It is affected, preferably above-mentioned lead 23 can be constituted using transparent conductive material.

From the foregoing, when first electrode 202 mutually insulated of different luminescent devices 20 is arranged, you can to realize lighting The independent control of device 20.On this basis, in order to simplify manufacturing process it is preferred that two neighboring luminescent device 20 luminous Layer 202 can be structure as a whole.Or, the second electrode 203 of two neighboring luminescent device 20 is structure as a whole.Or, such as Shown in Figure 10, the luminescent layer 202 of two neighboring luminescent device 20 is structure as a whole, and the second electricity of two neighboring luminescent device 20 Pole 203 is structure as a whole.So, each luminescent device 20 respective first electrode 203 need not be fabricated separately and/or send out Photosphere 202.

On this basis, above-mentioned luminescent layer 202 can include organic luminous layer, so that having sending out of this luminescent layer 202 Optical device 20 be Organic Light Emitting Diode (English full name: organic light emitting diode, English abbreviation: oled).Or above-mentioned luminescent layer 202 can include quantum dot light emitting layer, so that having the luminescent device 20 of this luminescent layer 202 For light emitting diode with quantum dots (English full name: quantum dot emitting diode, English abbreviation: qded).This practicality New this is not limited.

Further, in order to avoid external environment, such as dust, steam etc. in illumination panel 10 main by luminescent device The light source layer 101 of 20 compositions impacts it is preferred that the side deviating from underlay substrate 100 in light source layer 101 is arranged just like Fig. 9 Shown encapsulating structure 30.The side that this encapsulating structure 30 to major general's light source layer 101 deviates from underlay substrate 100 covers, additionally, in order to Improve packaging effect, above-mentioned encapsulating structure 30 can also be covered the side of remaining hierarchical structure in addition to underlay substrate 100 Face.

It should be noted that above-mentioned encapsulating structure 30 can be thin layer, or can also be relatively hard by material The shell structure that material is made is constituted.Additionally, when the light-emitting area of above-mentioned illumination panel 10 is the side near underlay substrate 100 When, above-mentioned encapsulating structure 30 can be made using light-proof material.When above-mentioned illumination panel 10 light-emitting area near and away from lining During the both sides of substrate 100, above-mentioned encapsulating structure 30 can be made using light transmissive material.This utility model does not limit to this.

This utility model embodiment provides a kind of illuminator, including any one illumination panel 10 as above.Tool There are the illumination panel identical structure providing with previous embodiment and beneficial effect, because previous embodiment is to illumination panel Structure and beneficial effect be described in detail, here is omitted.

The above, specific embodiment only of the present utility model, but protection domain of the present utility model does not limit to In this, any those familiar with the art, in the technical scope that this utility model discloses, can readily occur in change Or replace, all should cover within protection domain of the present utility model.Therefore, protection domain of the present utility model should be with described power The protection domain that profit requires is defined.

Claims (15)

1. a kind of illumination panel is it is characterised in that including underlay substrate and being arranged at the light source layer on described underlay substrate；

It is provided with extra play, described extra play includes light shielding part and transmittance section between described underlay substrate and described light source layer.

2. illumination panel according to claim 1 it is characterised in that described light source layer include multiple in matrix form arrangement Luminescent device；

The periphery of described luminescent device is provided with holding wire；The luminescent device not blocked by described light shielding part and described holding wire phase Connect, described holding wire is used for providing luminous signal.

3. illumination panel according to claim 2 it is characterised in that the luminescent device being blocked completely by described occlusion part not Luminous.

4. the illumination panel according to Claims 2 or 3 it is characterised in that described luminescent device include successively first electrode, Luminescent layer and second electrode；Wherein, the first electrode insulation set of two neighboring luminescent device, described first electrode is transparent Electrode, described first electrode is connected with described holding wire.

5. illumination panel according to claim 4 is it is characterised in that the luminescent layer of two neighboring luminescent device is integrated knot Structure；And/or, the second electrode of two neighboring luminescent device is structure as a whole.

6. illumination panel according to claim 4 is it is characterised in that be separated with insulating properties between two neighboring luminescent device Define projection, the luminescent layer of two neighboring luminescent device defines raised insulation set by described, and two neighboring luminous organ The second electrode of part defines raised insulation set by described.

7. illumination panel according to claim 4 is it is characterised in that in the position of corresponding described holding wire on described extra play Install and be equipped with via, described first electrode is connected with described holding wire by described via.

8. illumination panel according to claim 4 is it is characterised in that corresponding to described luminescent device on described extra play Position is provided with via, and described first electrode is connected with lead by via；

Wherein, described lead is located between described extra play and described underlay substrate, and described lead is connected with described holding wire.

9. illumination panel according to claim 4 is it is characterised in that described luminescent layer includes organic luminous layer or quantum dot Luminescent layer.

10. illumination panel according to claim 1 is it is characterised in that described transmittance section is made up of transparent insulation material.

11. illumination panels according to claim 1 are it is characterised in that described light shielding part is separately formed by the first film layer； Or, described light shielding part is made up of the described the first film layer being sequentially located on described underlay substrate and the superposition of the second thin layer；

Wherein, described the first film layer is made up of light screening material, and described second thin layer is made up of transparent insulation material.

12. illumination panels according to claim 2 are it is characterised in that described light shielding part and described holding wire are with the same material of layer Material.

13. illumination panels according to claim 12 are it is characterised in that described light shielding part is connected with described holding wire.

14. illumination panels according to claim 1 are it is characterised in that described light source layer deviates from the one of described underlay substrate Side is provided with encapsulating structure.

A kind of 15. illuminators are it is characterised in that include the illumination panel as described in any one of claim 1-14.