CN206144024U - Luminescent building material - Google Patents

Abstract

The utility model provides a luminescent building material, includes first permeable photosphere, second permeable photosphere, line layer and luminescence unit. Wherein, the line layer setting is between first permeable photosphere and second permeable photosphere, and the line layer has relative first surface and second surface, and is equipped with the conducting wire on first surface and the second surface respectively, and the luminescence unit setting is on the line layer, and the luminescence unit has first end and a second end, conducting wire on first surface that first end and second end were connected to the line layer respectively and the second surface.

Description

Luminous building materials

Technical field

The utility model is related to a kind of luminous building materials, espespecially a kind of to build with light- transmittable layer and the luminous of luminescence unit Material.

Background technology

Luminous building materials with reference to light- transmittable layer and luminescence unit are typically used in the exterior decoration of building or conduct is built The cladding glass built, luminous building materials combine the advantage of general light-permeable building materials and illumination billboard, not only can be by luminous Unit shows the luminous pattern as advertisement or decoration, according to the light- transmittable layer type for being adopted, also can have outstanding daylighting, The characteristics of explosion-proof, waterproof or antiultraviolet etc..

Existing luminous building materials generally there is two light- transmittable layers, tin indium oxide (Indium tin oxide, ITO) film with And as the light emitting diode (Light Emitting Diode, LED) of luminescence unit, wherein, ito thin film position is in two light-permeables Between layer, and LED is arranged on ito thin film, and is provided LED electric power by the conducting wire on ito thin film and be controlled LED, additionally, the more big then electrical conductivity of the width of conducting wire is higher.However, existing ito thin film only one side has conducting wire, Whether the negative or positive electrode of LED all layouts conducting wire at grade, the conductance property for needed for meeting, conductor wire Road must also have certain width, therefore limit the conducting wire density of existing luminous building materials and cause luminescence unit density It is limited.

Therefore, a kind of luminous building materials that can break through existing luminescence unit density restriction how are provided, as each dealer is urgently Problem to be solved.

Utility model content

In view of the disadvantages of prior art, main purpose of the present utility model, that is, be provide one kind can break through it is existing The luminous building materials that luminescence unit density is limited.

In order to achieve the above object and other purposes, the utility model provides a kind of luminous building materials then, including first can be saturating Photosphere, the second light- transmittable layer, line layer and luminescence unit.Wherein, line layer is arranged on the first light- transmittable layer and second can be saturating Between photosphere, line layer has a relative first surface and second surface, and is respectively equipped with first surface and second surface and leads Electric line；And luminescence unit is arranged on line layer, luminescence unit has first end and the second end, first end and the second end point Conducting wire on not being connected to the first surface of line layer and second surface.

In one embodiment, Packed hollow structure is formed between the first light- transmittable layer and the second light- transmittable layer.

In one embodiment, also including the inert gas being filled in hollow structure.

In one embodiment, the conducting wire on first surface or second surface is indium tin oxide films institute constitutor.

In one embodiment, luminescence unit be include one or more light emitting diodes (Light Emitting Diode, LED）Light emitting diode (the LED of component）Luminescence unit.

In one embodiment, luminescence unit includes red, green and blue LED（LED）Component.

In one embodiment, the first end of LED unit have be equal to light-emitting diode component quantity External contact, and the second end has single external contact, wherein, the corresponding connection first end of the conducting wire on first surface External contact, the conducting wire on second surface it is corresponding connection the second end external contact.

In one embodiment, the first end of LED unit and the second end have and are equal to light emitting diode group The external contact of number of packages amount, wherein, the external contact of the corresponding connection first end of the conducting wire on first surface, second surface On conducting wire it is corresponding connection the second end external contact.

In one embodiment, the negative pole of light-emitting diode component is connected to first surface by first end and the second end simultaneously And the conducting wire on second surface.

In one embodiment, the first light- transmittable layer or the second light- transmittable layer are glass or plastic material institute makers-up.

The utility model also provides a kind of luminous building materials, including the first light- transmittable layer, the second light- transmittable layer, line layer, sends out Light unit, the first intermediate layer and the second intermediate layer.Wherein, line layer be arranged on the first light- transmittable layer and the second light- transmittable layer it Between, line layer has a relative first surface and second surface, and is respectively equipped with conducting wire on first surface and second surface； Luminescence unit is arranged on line layer, and luminescence unit has first end and the second end, and first end and the second end are respectively connecting to line Conducting wire on the first surface and second surface of road floor；First intermediate layer is arranged on the of the first light- transmittable layer and line layer Between one surface；And second intermediate layer, it is arranged between the second light- transmittable layer and the second surface of line layer.

In one embodiment, the first intermediate layer and the second intermediate layer are thermoplastic material film.

In one embodiment, the first intermediate layer and the second intermediate layer are polyvinyl butyral resin (PVB) film.

In one embodiment, the conducting wire on first surface or second surface is indium tin oxide films institute constitutor.

In one embodiment, luminescence unit is the lumination of light emitting diode list for including one or more light-emitting diode components Unit.

In one embodiment, luminescence unit includes red, green and blue LED component.

In one embodiment, the first end of LED unit have be equal to light-emitting diode component quantity External contact, and the second end has single external contact, wherein, the corresponding connection first end of the conducting wire on first surface External contact, the conducting wire on second surface it is corresponding connection the second end external contact.

In one embodiment, the first end of LED unit and the second end have and are equal to light emitting diode group The external contact of number of packages amount, wherein, the external contact of the corresponding connection first end of the conducting wire on first surface, second surface On conducting wire it is corresponding connection the second end external contact.

In one embodiment, the negative pole of light-emitting diode component is connected to first surface by first end and the second end simultaneously And the conducting wire on second surface.

In one embodiment, the first light- transmittable layer or the second light- transmittable layer are glass or plastic material institute makers-up.

The utility model provides a kind of luminous building materials again, including the first light- transmittable layer, the second light- transmittable layer, luminescence unit and First intermediate layer.Wherein, the first light- transmittable layer has first surface, and first surface is provided with conducting wire；Second light- transmittable layer The side that the first light- transmittable layer has first surface is arranged on, and the second light- transmittable layer has the second table of relative first surface Face, second surface is provided with conducting wire；Luminescence unit is arranged on the first surface, and luminescence unit has first end and second End, first end and the second end are respectively connecting to the conducting wire on first surface and second surface；And first intermediate layer arrange Between first surface and second surface.

In one embodiment, the first intermediate layer is thermoplastic material film.

In one embodiment, the first intermediate layer is polyvinyl butyral resin（PVB）Film.

In one embodiment, the conducting wire on first surface or second surface is indium tin oxide films institute constitutor.

In one embodiment, luminescence unit is the lumination of light emitting diode list for including one or more light-emitting diode components Unit.

In one embodiment, luminescence unit includes red, green and blue LED component.

In one embodiment, the first end of LED unit have be equal to light-emitting diode component quantity External contact, and the second end has single external contact, wherein, the corresponding connection first end of the conducting wire on first surface External contact, the conducting wire on second surface it is corresponding connection the second end external contact.

In one embodiment, the first end of LED unit and the second end have and are equal to light emitting diode group The external contact of number of packages amount, wherein, the external contact of the corresponding connection first end of the conducting wire on first surface, second surface On conducting wire it is corresponding connection the second end external contact.

In one embodiment, the negative pole of light-emitting diode component is connected to first surface by first end and the second end simultaneously And the conducting wire on second surface.

In one embodiment, the first light- transmittable layer or the second light- transmittable layer are glass or plastic material institute makers-up.

Compared to prior art, due to the luminescence unit of luminous building materials of the present utility model be arranged on the first light- transmittable layer and Between second light- transmittable layer, and the first end of luminescence unit and the second end are respectively connecting to leading on first surface and second surface Required conducting wire is fewer than prior art in electric line, therefore single surface such that it is able to increase the density of luminescence unit, Sufficiently address the disappearance of prior art.Additionally, line layer and luminescence unit may be provided in hollow structure, or it is arranged on In sandwich with intermediate layer, so as to have the advantages that hollow structure or sandwich, also visual demand makes luminescence unit With single color LED or RGB color light emitting diode, and the negative pole of light emitting diode can be dispersed to first surface and second Conducting wire on surface, to reduce the width of light emitting diode negative conductive circuit on single face.

Description of the drawings

Fig. 1 is the structural representation of the luminous building materials of the utility model first embodiment.

Fig. 2 is the electrical block diagram of the luminescence unit of the utility model second embodiment.

Fig. 3 is the electrical block diagram of the luminescence unit of the utility model 3rd embodiment.

Fig. 4 is the electrical block diagram of the luminescence unit of the utility model fourth embodiment.

Fig. 5 is the structural representation of the luminous building materials of the embodiment of the utility model the 5th.

Fig. 6 is the structural representation of the luminous building materials of the utility model sixth embodiment.

Symbol description：

1 luminous building materials

10 first light- transmittable layers

11 second light- transmittable layers

12 line layers

12a first surfaces

12b second surfaces

13 luminescence units

13 ' luminescence units

13a first ends

The ends of 13b second

14 hollow structures

20th, 21,22 light-emitting diode component

The external contact of 20a, 21a, 22a

The external contacts of 20b

30th, 31,32 light-emitting diode component

The external contact of 30a, 31a, 32a

The external contact of 30b, 31b, 32b

40 light-emitting diode components

5 luminous building materials

50 first light- transmittable layers

51 second light- transmittable layers

52 line layers

52a first surfaces

52b second surfaces

53 luminescence units

53a first ends

The ends of 53b second

54 first intermediate layers

55 second intermediate layers

6 luminous building materials

60 first light- transmittable layers

60a first surfaces

61 second light- transmittable layers

61b second surfaces

62 luminescence units

62a first ends

The ends of 62b second

63 first intermediate layers.

Specific embodiment

Illustrate embodiment of the present utility model by particular specific embodiment below, those skilled in the art can be by Content disclosed in the present specification understands easily further advantage of the present utility model and effect.The utility model also can be by it Its different specific embodiment is implemented or applied.

Fig. 1 is referred to, Fig. 1 is the structural representation of the luminous building materials of the utility model first embodiment.As illustrated, this The luminous building materials 1 of utility model, including the first light- transmittable layer 10, the second light- transmittable layer 11, line layer 12 and luminescence unit 13. Wherein, line layer 12 is arranged between the first light- transmittable layer 10 and the second light- transmittable layer 11, and line layer 12 has relative first Conducting wire is respectively equipped with surface 12a and second surface 12b, and first surface 12a and second surface 12b；And it is luminous single Unit 13 is arranged on line layer 12, and luminescence unit 13 has first end 13a and the second end 13b, first end 13a and the second end 13b The conducting wire being respectively connecting on the first surface 12a of line layer 12 and second surface 12b.Different from prior art by conduction In sets of lines on same plane, first surface 12a and second surface that luminous building materials 1 of the present utility model pass through line layer 12 Conducting wire on 12b provides luminescence unit 13 power supply and is controlled, therefore conducting wire quantity required on single face Relatively low, so as to lift the density of luminescence unit 13, in practical application, the luminescence unit 13 of higher density can provide resolution ratio Higher luminous pattern.

In one embodiment, Packed hollow structure is formed between the first light- transmittable layer 10 and the second light- transmittable layer 11 14, for example, the first light- transmittable layer 10 and the second light- transmittable layer 11 can be tightly connected in frame using adhesive and sealing strip, This structure have sound insulation, it is heat-insulated the features such as.

In a further embodiment, may also include the inert gas being filled in hollow structure 14, preferably be through Dry inert gas.

In one embodiment, the conducting wire on first surface 12a or second surface 12b can be indium tin oxide films institute structure Winner, for example, line layer 12 can use transparent or semitransparent glass substrate, plates ito thin film and in modes such as etchings Lay out conducting wire.

In one embodiment, luminescence unit 13 can be to include one or more light emitting diodes（Light Emitting Diode, LED）The light emitting diode of component（Light Emitting Diode, LED）Luminescence unit.In further embodiment In, luminescence unit 13 may include redness, green and blue LED（Light Emitting Diode, LED）Component.

Fig. 2 is referred to, Fig. 2 is the electrical block diagram of the luminescence unit of the utility model second embodiment.It is real one In applying example, luminescence unit 13 includes three light emitting diodes（LED）Component 20,21,22, light emitting diode（LED）Luminescence unit 13 first end 13a have be equal to light emitting diode（LED）External contact 20a, 21a, 22a of the quantity of component 20,21,22, And second end 13b there is single external contact 20b, wherein, the corresponding connection first end of the conducting wire on first surface 12a External contact 20a, 21a, 22a of 13a, the external contact of the second end 13b of corresponding connection of the conducting wire on second surface 12b 20b.Light emitting diode（LED）The negative electrode of component 20,21,22 can pass through single external contact 20b and connect single conductor wire Road, light emitting diode（LED）The anode of component 20,21,22 can be connected to three not by external contact 20a, 21a, 22a respectively Same conducting wire, thereby can respectively control light emitting diode（LED）The driving of component 20,21,22.It is noted that luminous Included light emitting diode in unit 13（LED）Component count is not limited with three.

Fig. 3 is referred to, Fig. 3 is the electrical block diagram of the luminescence unit of the utility model 3rd embodiment.It is real one In applying example, luminescence unit 13 includes three light emitting diodes（LED）Component 30,31,32, light emitting diode（LED）Luminescence unit 13 first end 13a have be equal to light emitting diode（LED）External contact 30a, 31a, 32a of the quantity of component 30,31,32, Similarly light emitting diode（LED）Second end 13b of luminescence unit 13 also have be equal to light emitting diode（LED）Component 30, 31st, external contact 30b, 31b, 32b of 32 quantity.Wherein, the corresponding connection first end of conducting wire on first surface 12a External contact 30a, 31a, 32a of 13a, the external contact of the second end 13b of corresponding connection of the conducting wire on second surface 12b 30b、31b、32b.Light emitting diode（LED）Component 30,31,32 is respectively connecting to different conducting wires, thereby can control respectively Light emitting diode processed（LED）The driving of component 30,31,32.It is noted that light emitting diode included in luminescence unit 13 （LED）Component count is not limited with three.

Fig. 4 is referred to, Fig. 4 is the electrical block diagram of the luminescence unit of the utility model fourth embodiment.It is real one In applying example, light emitting diode（LED）The negative pole of component 40 can be connected to line layer by first end 13a and the second end 13b simultaneously Conducting wire on 12 first surface 12a and second surface 12b.In the fig. 4 embodiment, light emitting diode（LED）Component 40 positive pole is to be connected to conducting wire by first end 13a, but in other embodiments, light emitting diode（LED）Group The positive pole of part 40 is to be connected to conducting wire by the second end 13b.Due to each luminescence unit 13,13 ' in circuit design often Negative pole can be total to, therefore connect the conducting wire of negative pole need to have higher conductance, and the width of conducting wire is also therefore wider, Which has limited the density of conducting wire in the prior art, and the utility model is by by light emitting diode（LED）Negative conductive Circuit is dispersed to the mode of the conducting wire on first surface 12a and second surface 12b, can reduce light emitting diode on single face （LED）The width of negative conductive circuit, and then improve the density of conducting wire and luminescence unit.

In one embodiment, the first light- transmittable layer 10 or the second light- transmittable layer 11 can be made up of glass or plastic material Person, for example, glass material can be soda-lime glass or Pyrex, plastic material can be acryl or polycarbonate, but It is not limited.

Fig. 5 is referred to, Fig. 5 is the structural representation of the luminous building materials of the embodiment of the utility model the 5th.The utility model A kind of luminous building materials 5 are also provided, including the first light- transmittable layer 50, the second light- transmittable layer 51, line layer 52, luminescence unit 53, One intermediate layer 54 and the second intermediate layer 55.Wherein, line layer 52 is arranged on the first light- transmittable layer 50 and the second light- transmittable layer 51 Between, line layer 52 has on relative first surface 52a and second surface 52b, and first surface 52a and second surface 52b It is respectively equipped with conducting wire；Luminescence unit 53 is arranged on line layer 52, and luminescence unit 53 has first end 53a and the second end 53b, first end 53a and the second end 53b are respectively connecting to the conduction on the first surface 52a of line layer 52 and second surface 52b Circuit；First intermediate layer 54 is arranged between the first light- transmittable layer 50 and the first surface 52a of line layer 52；And in the middle of second Layer 55, is arranged between the second light- transmittable layer 51 and the second surface 52b of line layer 52.

It is noted that not formed between first light- transmittable layer 50 and the second light- transmittable layer 51 of the luminous building materials 5 of Fig. 5 Packed hollow structure 14, the first intermediate layer 54 will be binded in first surface 52a, and the second intermediate layer 55 will be binded second Surface 52b, the first selected intermediate layer 54 of cooperation and the material of the second intermediate layer 55, this structure will be with sound insulation, uvioresistant And the features such as when being hit be not likely to produce fragment.

In one embodiment, the first intermediate layer 54 and the second intermediate layer 55 can be thermoplastic material film.Further In embodiment, the first intermediate layer 54 and the second intermediate layer 55 can be polyvinyl butyral resin（PVB）Film, but be not limited.

In one embodiment, the conducting wire on first surface 52a or second surface 52b can be indium tin oxide films institute structure Winner, for example, line layer 52 can use transparent or semitransparent glass substrate, plates ito thin film and in modes such as etchings Lay out conducting wire.

In one embodiment, luminescence unit 53 can be to include one or more light emitting diodes（LED）Luminous the two of component Pole pipe（LED）Luminescence unit.In a further embodiment, luminescence unit 53 may include redness, green and the pole of blue-light-emitting two Pipe（LED）Component.

In one embodiment, light emitting diode（LED）First end 53a of luminescence unit 53 have be equal to light emitting diode （LED）The external contact of component count, and the second end 53b has single external contact, wherein, leading on first surface 52a The external contact of corresponding connection first end 53a of electric line, the second end of the corresponding connection of the conducting wire on second surface 52b The external contact of 53b.

In one embodiment, light emitting diode（LED）First end 53a of luminescence unit 53 and the second end 53b have equivalent In light emitting diode（LED）The external contact of component count, wherein, the corresponding connection the of the conducting wire on first surface 52a The external contact of one end 53a, the external contact of the second end 53b of corresponding connection of the conducting wire on second surface 52b.

In one embodiment, light emitting diode（LED）The negative pole of component can simultaneously by first end 53a and the second end 53b The conducting wire being connected on the first surface 52a of line layer 52 and second surface 52b.

In one embodiment, the first light- transmittable layer 50 or the second light- transmittable layer 51 can be made up of glass or plastic material Person, for example, glass material can be soda-lime glass or Pyrex, plastic material can be acryl or polycarbonate, but It is not limited.

Fig. 6 is referred to, Fig. 6 is the structural representation of the luminous building materials of the utility model sixth embodiment.The utility model A kind of luminous building materials, including the first light- transmittable layer 60, the second light- transmittable layer 61, the intermediate layer of luminescence unit 62 and first are provided again 63.Wherein, there is the first light- transmittable layer 60 first surface 60a, first surface 60a to be provided with conducting wire；Second light- transmittable layer 61 are arranged on the side that the first light- transmittable layer 60 has first surface 60a, and the second light- transmittable layer 61 has relative first surface The second surface 61b of 60a, second surface 61b are provided with conducting wire；Luminescence unit 62 is arranged on first surface 60a, is lighted Unit 62 has first end 62a and a second end 62b, and first end 62a and the second end 62b are respectively connecting to first surface 60a and the Conducting wire on two surface 61b；And first intermediate layer 63 be arranged between first surface 60a and second surface 61b.

It is noted that not formed between first light- transmittable layer 60 and the second light- transmittable layer 61 of the luminous building materials 6 of Fig. 6 The second surface 61b of Packed hollow structure 14, the first surface 60a of the first light- transmittable layer 60 and the second light- transmittable layer 61 To respectively bind the both sides in the first intermediate layer 63, coordinate the selected material of the first intermediate layer 63, this structure will with sound insulation, Uvioresistant and the features such as be not likely to produce fragment when being hit.

In one embodiment, the first intermediate layer 63 can be thermoplastic material film.In a further embodiment, in first Interbed 63 can be polyvinyl butyral resin（PVB）Film, but be not limited.

In one embodiment, the conducting wire on first surface 60a or second surface 61b can be indium tin oxide films institute structure Winner, for example, ito thin film can be plated in the first light- transmittable layer 60 or the second light- transmittable layer 61 and arranged in modes such as etchings Go out conducting wire.

In one embodiment, luminescence unit 62 can be to include one or more light emitting diodes（LED）Luminous the two of component Pole pipe（LED）Luminescence unit.In a further embodiment, luminescence unit 62 may include redness, green and the pole of blue-light-emitting two Pipe（LED）Component.

In one embodiment, light emitting diode（LED）First end 62a of luminescence unit 62 can have be equal to light-emitting diodes Pipe（LED）The external contact of component count, and the second end 62b has single external contact, wherein, on first surface 60a The external contact of corresponding connection first end 62a of conducting wire, the second end of the corresponding connection of the conducting wire on second surface 61b The external contact of 62b.

In one embodiment, light emitting diode（LED）First end 62a of luminescence unit 62 and the second end 62b can have etc. It is same as light emitting diode（LED）The external contact of component count, wherein, the corresponding connection of the conducting wire on first surface 60a The external contact of first end 62a, the external contact of the second end 62b of corresponding connection of the conducting wire on second surface 61b.

In one embodiment, light emitting diode（LED）The negative pole of component can simultaneously by first end 62a and the second end 62b The conducting wire being connected on first surface 60a and second surface 61b.

In one embodiment, the first light- transmittable layer 60 or the second light- transmittable layer 61 can be made up of glass or plastic material Person.

Compared to prior art, due to the luminescence unit of luminous building materials of the present utility model be arranged on the first light- transmittable layer and Between second light- transmittable layer, and the first end of luminescence unit and the second end are respectively connecting to leading on first surface and second surface Required conducting wire is fewer than prior art in electric line, therefore single surface such that it is able to increase the density of luminescence unit, Sufficiently address the disappearance of prior art.Additionally, line layer and luminescence unit may be provided in hollow structure, or it is arranged on In sandwich with intermediate layer, so as to have the advantages that hollow structure or sandwich, also visual demand makes luminescence unit Use single color LED（LED）Or RGB color light emitting diode（LED）, and can be by light emitting diode（LED）Negative pole be dispersed to Conducting wire on first surface and second surface, to reduce light emitting diode on single face（LED）The width of negative conductive circuit Degree.

By the description of above preferred embodiment, one skilled in the art is new when can more understand this practicality The feature of type and spirit, only above-described embodiment is only to illustrate principle of the present utility model and its effect, and is not used to limit this reality With new.Therefore, any modification carried out to above-described embodiment and change are without departing from spirit of the present utility model, and this practicality Listed by the claim that new interest field should be as be described hereinafter.

Claims (30)

1. a kind of luminous building materials, it is characterised in that the luminous building materials include：

First light- transmittable layer；

Second light- transmittable layer；

Line layer, is arranged between first light- transmittable layer and second light- transmittable layer, and the line layer has relative Conducting wire is respectively equipped with first surface and second surface, and the first surface and the second surface；And

Luminescence unit, is arranged on the line layer, and the luminescence unit has first end and the second end, the first end and institute State the conducting wire that the second end is respectively connecting on the first surface of the line layer and the second surface.

2. luminous building materials according to claim 1, it is characterised in that first light- transmittable layer and second light-permeable Packed hollow structure is formed between layer.

3. luminous building materials according to claim 2, it is characterised in that also including the inertia being filled in the hollow structure Gas.

4. luminous building materials according to claim 1, it is characterised in that the institute on the first surface or the second surface Conducting wire is stated for indium tin oxide films institute constitutor.

5. luminous building materials according to claim 1, it is characterised in that the luminescence unit is to include that one or more light The LED unit of diode assembly.

6. luminous building materials according to claim 5, it is characterised in that the luminescence unit includes red, green and blue Light-emitting diode component.

7. luminous building materials according to claim 5, it is characterised in that described the first of the LED unit End has the external contact for being equal to the light-emitting diode component quantity, and second end has single external contact, Wherein, the described external contact of the conducting wire corresponding connection first end on the first surface, described second The described external contact at the corresponding connection of the conducting wire second end on surface.

8. luminous building materials according to claim 5, it is characterised in that described the first of the LED unit End and second end have the external contact for being equal to the light-emitting diode component quantity, wherein, on the first surface The conducting wire corresponding connection first end described external contact, the conducting wire on the second surface The corresponding described external contact for connecting second end.

9. luminous building materials according to claim 5, it is characterised in that the negative pole of the light-emitting diode component passes through simultaneously The first end and second end be connected to the first surface and the second surface on the conducting wire.

10. luminous building materials according to claim 1, it is characterised in that first light- transmittable layer described second can be saturating Photosphere is glass or plastic material institute makers-up.

11. a kind of luminous building materials, it is characterised in that the luminous building materials include：

First light- transmittable layer；

Second light- transmittable layer；

Line layer, is arranged between first light- transmittable layer and second light- transmittable layer, and the line layer has relative Conducting wire is respectively equipped with first surface and second surface, and the first surface and the second surface；

Luminescence unit, is arranged on the line layer, and the luminescence unit has first end and the second end, the first end and institute State the conducting wire that the second end is respectively connecting on the first surface of the line layer and the second surface；

First intermediate layer, is arranged between first light- transmittable layer and the first surface of the line layer；And

Second intermediate layer, is arranged between second light- transmittable layer and the second surface of the line layer.

12. luminous building materials according to claim 11, it is characterised in that first intermediate layer and second intermediate layer For thermoplastic material film.

13. luminous building materials according to claim 12, it is characterised in that first intermediate layer and second intermediate layer For polyvinyl butyral film.

14. luminous building materials according to claim 11, it is characterised in that on the first surface or the second surface The conducting wire is indium tin oxide films institute constitutor.

15. luminous building materials according to claim 11, it is characterised in that the luminescence unit is to include one or more The LED unit of optical diode component.

16. luminous building materials according to claim 15, it is characterised in that the luminescence unit includes red, green and indigo plant Color light-emitting diode component.

17. luminous building materials according to claim 15, it is characterised in that described the of the LED unit One end has and is equal to the external contact of the light-emitting diode component quantity, and second end have it is single to external Point, wherein, the described external contact of the corresponding connection first end of the conducting wire on the first surface, described the The described external contact at the corresponding connection of the conducting wire second end on two surfaces.

18. luminous building materials according to claim 15, it is characterised in that described the of the LED unit One end and second end have the external contact for being equal to the light-emitting diode component quantity, wherein, the first surface On the conducting wire corresponding connection first end described external contact, the conductor wire on the second surface The described external contact at the corresponding connection in road second end.

19. luminous building materials according to claim 15, it is characterised in that the negative pole of the light-emitting diode component is simultaneously logical Cross the first end and second end be connected to the first surface and the second surface on the conducting wire.

20. luminous building materials according to claim 11, it is characterised in that first light- transmittable layer described second can be saturating Photosphere is glass or plastic material institute makers-up.

21. a kind of luminous building materials, it is characterised in that the luminous building materials include：

First light- transmittable layer, with first surface, the first surface is provided with conducting wire；

Second light- transmittable layer, is arranged on the side that first light- transmittable layer has the first surface, and described second can be saturating Photosphere has the second surface of relatively described first surface, and the second surface is provided with conducting wire；

Luminescence unit, is arranged on the first surface, and the luminescence unit has first end and the second end, the first end and Second end is respectively connecting to the conducting wire on the first surface and the second surface；And

First intermediate layer, is arranged between the first surface and the second surface.

22. luminous building materials according to claim 21, it is characterised in that first intermediate layer is that thermoplastic is thin Film.

23. luminous building materials according to claim 22, it is characterised in that first intermediate layer is polyvinyl butyral resin Film.

24. luminous building materials according to claim 21, it is characterised in that on the first surface or the second surface The conducting wire is indium tin oxide films institute constitutor.

25. luminous building materials according to claim 21, it is characterised in that the luminescence unit is to include one or more The LED unit of optical diode component.

26. luminous building materials according to claim 25, it is characterised in that the luminescence unit includes red, green and indigo plant Color light-emitting diode component.

27. luminous building materials according to claim 25, it is characterised in that described the of the LED unit One end has and is equal to the external contact of the light-emitting diode component quantity, and second end have it is single to external Point, wherein, the described external contact of the corresponding connection first end of the conducting wire on the first surface, described the The described external contact at the corresponding connection of the conducting wire second end on two surfaces.

28. luminous building materials according to claim 25, it is characterised in that described the of the LED unit One end and second end have the external contact for being equal to the light-emitting diode component quantity, wherein, the first surface On the conducting wire corresponding connection first end described external contact, the conductor wire on the second surface The described external contact at the corresponding connection in road second end.

29. luminous building materials according to claim 25, it is characterised in that the negative pole of the light-emitting diode component is simultaneously logical Cross the first end and second end be connected to the first surface and the second surface on the conducting wire.

30. luminous building materials according to claim 21, it is characterised in that first light- transmittable layer described second can be saturating Photosphere is glass or plastic material institute makers-up.