CN208486785U - Transparence display hollow glass - Google Patents

Abstract

The utility model relates to a kind of transparence display hollow glasses.A kind of transparence display hollow glass, including transparence display glass and outer glass plate, the transparence display glass and the outer glass plate interval are arranged, the transparence display glass includes transparent substrate and the luminescence generated by light functional membrane for being laminated in the transparent substrate surface, the luminescence generated by light functional membrane is located at the transparent substrate close to the side of the outer glass plate, the luminescence generated by light functional membrane includes photoluminescent layers, and the photoluminescent layers include at least one layer in blue light photoluminescent layers, green light photoluminescent layers and red photoluminescent layer.The mist degree of above-mentioned transparence display glass is smaller and scratch resistance.

Description

Transparence display hollow glass

Technical field

The utility model relates to a kind of transparence display hollow glasses.

Background technique

Transparence display has positive meaning in the life of modern.Projection Display is a kind of common image reproducing Mode.It is that simultaneously reconstructed object is really three-dimensional using interference and diffraction principle record that line holographic projections technology, which is also referred to as virtual image technology, The record of image and the technology of reproduction.Currently, line holographic projections technology, usually using line holographic projections film, line holographic projections film possesses only one Without two transparent characteristic, while keeping clear imaging, spectators can be allowed to see behind scenery through projection film.However, existing Line holographic projections film by reflection realize display function, it is necessary to have certain mist degree, when light is radiated on film, the inside of film Arrangement architecture difference will generate diffusing reflection, can see that the light of reflection, line holographic projections film are saturating on hyaline membrane using human eye Light rate is lower and limits its application.And the performances such as the strong weatherability of film, resistance to marring are poor, are easy to be damaged, and tear shadow Display effect is rung, and service life is shorter.

Utility model content

Based on this, provide that a kind of mist degree is smaller and scratch resistant transparence display hollow glass.

A kind of transparence display hollow glass, including transparence display glass and outer glass plate, the transparence display glass and institute State the setting of outer glass plate interval, the transparence display glass includes transparent substrate and is laminated in the photic of the transparent substrate surface Light-emitting function film, the luminescence generated by light functional membrane are located at the transparent substrate close to the side of the outer glass plate, described photic Light-emitting function film includes photoluminescent layers, the photoluminescent layers be include blue light photoluminescent layers, green light photoluminescent layers and At least one layer in red photoluminescent layer.

Above-mentioned transparence display hollow glass, transparence display glass by the surface of transparent substrate formed photoluminescent film, Photoluminescent film is irradiated with laser-projector, excites the photoluminescent layers luminescence imaging of photoluminescent film, (mist degree is less than no mist degree Equal to 1%), smaller, transparence display is influenced on the translucency of transparence display glass with a thickness of 50nm~6000nm photoluminescent film Glass transmission is higher, and when being irradiated using laser-projector, comprehensive 360 ° visual, realizes that super large visual angle is shown and image is constant Multicolor displaying also may be implemented in shape；The photoluminescent film of transparence display glass is located at transparent substrate close to the side of outer glass plate, Transparence display strength of glass is higher, corrosion-resistant, high temperature resistant, scratch resistance.

The photoluminescent layers are laminated in the surface of the transparent glass substrate in one of the embodiments,.

In one of the embodiments, the photoluminescent layers with a thickness of 50nm~6000nm.

The transparence display glass further includes glass superstrate in one of the embodiments, the glass substrate, the light Photoluminescence functional membrane and glass superstrate stack gradually, and the luminescence generated by light functional membrane further includes setting with the luminescence generated by light layer stackup The adhesive layer set.

The adhesive layer is PVB layer, SGP layers, EVA layer or PU layers etc. in one of the embodiments,.

In one of the embodiments, the luminescence generated by light functional membrane with a thickness of 0.05mm~0.125mm；Or

The luminescence generated by light functional membrane with a thickness of 0.3~0.38mm；Or

The luminescence generated by light functional membrane with a thickness of 0.76mm；Or

The luminescence generated by light functional membrane with a thickness of 1.52mm.

In one of the embodiments, the photoluminescent film with a thickness of 0.1mm~1.6mm.

It in one of the embodiments, further include structure glue, the edge of the transparence display glass passes through the structure glue It is adhesively fixed with the outer glass plate.

It in one of the embodiments, further include the aluminium being set between the transparence display glass and the outer glass plate Item, the first sealant, the second sealant, the aluminum strip and the structure glue interval are arranged, and the first structure sticker invests institute Transparence display glass is stated, second sealant is attached at the outer glass plate.

It in one of the embodiments, further include desiccant, the desiccant is contained in the aluminum strip.

Detailed description of the invention

Fig. 1 is the structural schematic diagram of the transparence display hollow glass of an embodiment；

The structural schematic diagram of the transparence display glass of the transparence display hollow glass of Fig. 2 Fig. 1；

Fig. 3 is the structural schematic diagram of the transparence display glass of another embodiment.

Specific embodiment

The utility model is more fully retouched below with reference to relevant drawings for the ease of understanding the utility model, It states.The section Example of the utility model is given in attached drawing.But the utility model can come in many different forms in fact It is existing, however it is not limited to embodiment described herein.On the contrary, purpose of providing these embodiments is makes in the utility model discloses Hold more thorough and comprehensive.

Unless otherwise defined, all technical and scientific terms used herein are led with the technology for belonging to the utility model The normally understood meaning of the technical staff in domain is identical.Terminology used in the description of the utility model herein only be The purpose of description specific embodiment, it is not intended that in limitation the utility model.

Referring to Fig. 1, the hollow glass 200 of an embodiment, including transparence display glass 100, outer glass plate 220, knot Structure glue 240, the first sealant 262, the second sealant 264, aluminum strip 270 and desiccant 280.

Referring to Fig. 2, transparence display glass 100 includes transparent substrate 110 and the photic hair for being laminated in transparent substrate surface Light functional membrane 130.

The light transmittance of transparent substrate 110 is 50%~98% in one of the embodiments,.

In one of the embodiments, transparent substrate 110 with a thickness of 0.05mm~19mm, preferably 1.1mm.

Transparent substrate 110 is unorganic glass substrate or organic transparent substrate in one of the embodiments,.Unorganic glass base Bottom is soda-lime glass substrate, ultra-clear glasses substrate, middle lead glass substrate or high alumina substrate of glass.In some embodiments, inorganic Substrate of glass is tempered glass substrate, and certainly, in other embodiments, unorganic glass substrate may be without at tempering The substrate of glass or semi-tempered glass substrate of reason.

Organic transparent substrate is polyethylene terephthalate (PET) substrate, polyimides (PI) substrate, poly- methyl-prop E pioic acid methyl ester (PMMA) substrate, polycarbonate (PC) substrate or polystyrene (PS) substrate.Certainly, it should be noted that have The organic polymer substrate of higher light transmittance.

There is transparent substrate 110 opposite inner surface (surface contacted with cavity) and outer surface (to contact with external environment Surface).Luminescence generated by light functional membrane 130 is laminated in inner surface.

In the illustrated embodiment, luminescence generated by light functional membrane 130 includes photoluminescent layers.Photoluminescent layers be include indigo plant At least one layer in light photoluminescent layers, green light photoluminescent layers and red photoluminescent layer.

In some embodiments, luminescence generated by light functional membrane is formed in inner surface by way of coating or impregnating.Specifically , the coating containing embedded photoluminescent material can be sprayed in inner surface and form photoluminescent layers, or inner surface is soaked in and is contained Have in the coating of embedded photoluminescent material, prepares photoluminescent layers.

Photoluminescent layers include blue light photoluminescent layers, green light photoluminescent layers and feux rouges in one of the embodiments, Photoluminescent layers.Blue light photoluminescent layers are laminated in inner surface, and green light photoluminescent layers are laminated in the table of blue light photoluminescent layers Face, red photoluminescent are laminated on the surface of green light photoluminescent layers layer by layer.Blue light photoluminescent layers with a thickness of 50nm~ 2000nm, green light photoluminescent layers with a thickness of 50nm~2000nm, red photoluminescent layer with a thickness of 50nm~2000nm.

Certainly, in other embodiments, red photoluminescent is laminated on inner surface layer by layer, and green light photoluminescent layers are laminated in The surface of red photoluminescent layer, blue light photoluminescent layers are laminated in the surface of green light photoluminescent layers.Blue light photoluminescent layers With a thickness of 50nm~2000nm, green light photoluminescent layers with a thickness of 50nm~2000nm, the thickness of red photoluminescent layer For 50nm~2000nm.

Further, in other embodiments, blue light photoluminescent layers, green light photoluminescent layers and red photoluminescent At least one of layer can be omitted, for example, photoluminescent layers include be laminated in inner surface red in one of the embodiments, Light photoluminescent layers and the blue light photoluminescent layers for being laminated in red photoluminescent layer surface.Preferably, blue light photoluminescent layers With a thickness of 50nm~2000nm, red photoluminescent layer with a thickness of 50nm~2000nm.

In other embodiments, photoluminescent layers include blue light photoluminescent layers, green light photoluminescent layers and feux rouges light One layer in electroluminescent layer, monochromatic display is carried out at this time.For example, photoluminescent layers are red photoluminescent layer, with a thickness of 50nm~2000nm.

Red photoluminescent layer is the layer of rare earth material containing europium or the layer of rare earth material containing praseodymium in one of the embodiments,.It is blue Light photoluminescent layers are the layer of rare earth material containing thulium or material layer containing cerium mischmetal.Green light photoluminescent layers be the layer of rare earth material containing terbium or The layer of rare earth material containing erbium.

Outer glass plate 220 is arranged with the interval of transparence display glass 100.

Outer glass plate 220 is unorganic glass plate or poly (methyl methacrylate) plate in one of the embodiments,.Unorganic glass plate is sodium Lime glass plate, ultra-clear glasses plate, middle lead glass plate or high alumina glass plate.In some embodiments, outer glass plate 220 is tempering glass Glass plate.Certainly, in some embodiments, outer glass plate 220 can also be heat-reflecting glass, anti reflection glass, colored glazed glass Or anti-dazzle glas.Specific low emissivity glass can be single silver-colored glass, double silver-colored glass or three silver medal glass.

In the illustrated embodiment, outer glass plate 220 is located at transparent substrate 110 and is provided with the one of photoluminescent film 130 Side, i.e. luminescence generated by light functional membrane 130 are located at transparent substrate 110 close to the side of outer glass plate 220.Transparence display glass 100 with The edge of outer glass plate 220 is adhesively fixed by structure glue 240.Structure glue 240 can be silicone in one of the embodiments, Glue or TR sealant.Certainly, the edge of transparence display glass 100 and the edge of outer glass plate 220 are adhesively fixed by structure glue 240 It is internal afterwards to form closed accommodating space.

Aluminum strip 270, the first sealant 262, the second sealant 264 are respectively positioned on transparence display glass 100 and outer glass plate 220 Between, and it is located at the inside of structure glue 240.In the illustrated embodiment, aluminum strip 270 and the interval of structure glue 240 are arranged.The One sealant 262 is attached at transparence display glass 100 and extends to structure glue 240 from aluminum strip 270, and the second sealant 264 attaches Outer glass plate 220 and structure glue 240 is extended to from aluminum strip 270.The first sealant 262, second is close in one of the embodiments, Sealing 264 is butyl rubber.

Desiccant 280 is contained in aluminum strip 270, and between the first sealant 262 and the second sealant 264.At it In middle one embodiment, desiccant 280 is molecular sieve desiccant.

Above-mentioned hollow glass 200, transparence display glass 100 is by forming luminescence generated by light function on the surface of transparent substrate 110 Energy film 130, laser-projector irradiate luminescence generated by light functional membrane 130, and excitation luminescence generated by light functional membrane 130, which shines, forms image, mist Degree is less than or equal to 1%, with a thickness of 50nm~6000nm luminescence generated by light functional membrane 130 to the translucency shadow of transparence display glass 100 Sound is smaller, and 100 integral light-transmitting of transparence display glass is higher；The light transmittance of transparence display glass 100 depends entirely on transparent base The light transmittance of plate 110, when using ultra-clear glasses as transparent substrate 110, light transmittance is greater than 70%；It is irradiated using laser-projector When, comprehensive 360 ° are visual, realize that super large visual angle is shown and image is indeformable, multicolor displaying also may be implemented；Luminescence generated by light function Energy film 130 is located at 200 inside of hollow glass, and 100 intensity of transparence display glass is higher, corrosion-resistant, high temperature resistant, scratch resistance.

Referring to Fig. 3, the structure of the transparence display hollow glass of another embodiment and above-mentioned transparence display hollow glass 200 structure is roughly the same, and difference is, transparence display glass 300 includes transparent substrate 310, the photic hair stacked gradually Light functional membrane 330 and transparent cover sheet 350.

The light transmittance of transparent substrate 310 is 50%~98% in one of the embodiments,.

In one of the embodiments, transparent substrate 310 with a thickness of 0.05mm~19mm, preferably 1.1mm.

Transparent substrate 310 is unorganic glass substrate or organic transparent substrate 310 in one of the embodiments,.Inorganic glass Glass substrate is soda-lime glass substrate, ultra-clear glasses substrate, middle lead glass substrate or high alumina substrate of glass.In some embodiments, Unorganic glass substrate is tempered glass substrate, and certainly, in other embodiments, unorganic glass substrate may be without steel Change the substrate of glass or semi-tempered glass substrate of processing.

Organic transparent substrate 310 is polyethylene terephthalate (PET) substrate, polyimides (PI) substrate, poly- first Base methyl acrylate (PMMA) substrate, polycarbonate (PC) substrate or polystyrene (PS) substrate.Certainly, it should be noted that Organic polymer substrate with higher light transmittance.

Transparent substrate 310 has opposite inner surface and outer surface.Luminescence generated by light functional membrane 330 is laminated in inner surface.

In the illustrated embodiment, luminescence generated by light functional membrane 330 includes adhesive layer and photoluminescent layers (not shown).

In one of the embodiments, luminescence generated by light functional membrane 330 with a thickness of 0.05mm~0.125mm.

In one of the embodiments, luminescence generated by light functional membrane 330 with a thickness of 0.3~0.38mm.

In one of the embodiments, luminescence generated by light functional membrane 330 with a thickness of 0.76mm.

In one of the embodiments, luminescence generated by light functional membrane 330 with a thickness of 1.52mm.

Adhesive layer is PVB layer, SGP layers, EVA layer or PU layers.

In some embodiments, one of surface of adhesive layer is formed with photoluminescent layers, in other embodiment party In formula, two opposite surfaces of adhesive layer are each formed with photoluminescent layers.In some embodiments, by coating or impregnating Mode bonding layer surface formed photoluminescent layers.Specifically, embedded photoluminescent material can be contained in bonding layer surface spraying Coating form photoluminescent layers, or be soaked in adhesive layer in the coating containing embedded photoluminescent material on one side prepares light Photoluminescence functional membrane.

Photoluminescent layers include blue light photoluminescent layers, green light photoluminescent layers and feux rouges in one of the embodiments, Photoluminescent layers.Blue light photoluminescent layers are laminated in bonding layer surface, and green light photoluminescent layers are laminated in blue light photoluminescent layers Surface, red photoluminescent is laminated on the surface of green light photoluminescent layers layer by layer.Blue light photoluminescent layers with a thickness of 50nm~ 2000nm, green light photoluminescent layers with a thickness of 50nm~2000nm, red photoluminescent layer with a thickness of 50nm~ 2000nm。

Certainly, in other embodiments, red photoluminescent is laminated on adhesive layer surface layer by layer, and green light luminescence generated by light is layer by layer It is laminated on the surface of red photoluminescent layer, blue light photoluminescent layers are laminated in the surface of green light photoluminescent layers.The photic hair of blue light Photosphere with a thickness of 50nm~2000nm, green light photoluminescent layers with a thickness of 50nm~2000nm, red photoluminescent layer With a thickness of 50nm~2000nm.

Further, in other embodiments, blue light photoluminescent layers, green light photoluminescent layers and red photoluminescent At least one of layer can be omitted, for example, photoluminescent layers include being laminated in bonding layer surface in one of the embodiments, Red photoluminescent layer and be laminated in the blue light photoluminescent layers of red photoluminescent layer surface.Preferably, the photic hair of blue light Photosphere with a thickness of 50nm~2000nm, red photoluminescent layer with a thickness of 50nm~2000nm.

In other embodiments, photoluminescent layers include blue light photoluminescent layers, green light photoluminescent layers and feux rouges light One layer in electroluminescent layer, monochromatic display is carried out at this time.For example, photoluminescent layers are red photoluminescent layer, with a thickness of 50nm~2000nm.

Red photoluminescent layer is the layer of rare earth material containing europium or the layer of rare earth material containing praseodymium in one of the embodiments,.It is blue Light photoluminescent layers are the layer of rare earth material containing thulium or material layer containing cerium mischmetal.Green light photoluminescent layers be the layer of rare earth material containing terbium or The layer of rare earth material containing erbium.

Transparent cover sheet 350 is laminated in the surface of luminescence generated by light functional membrane 330, so that luminescence generated by light functional membrane 330 be clamped Laminated glass is formed between transparent cover sheet 350 and transparent substrate 310, so as to prevent plowing from luminescence generated by light functional membrane 330, Transparence display laminated glass 100 can corrosion-resistant, tear-proof, it is anti-zoned injure resist it is dirty.

Transparent cover sheet 350 is identical as transparent substrate 310 in one of the embodiments,.

When prepared by transparence display laminated glass 300, luminescence generated by light functional membrane 330 is spread on transparent substrate 310, it will be transparent The surface that cladding plate 350 is covered on luminescence generated by light functional membrane 330 rolls after closing piece processing, later kettle pressure.Further, piece is closed 23 DEG C of temperature, humidity 25%, rolling pressure 6bar, kettle pressure pressure is 15bar, and it is 140 DEG C that kettle, which presses temperature, and constant temperature is permanent when kettle is pressed Pressure is kept for 60 minutes.

It is illustrated below in conjunction with specific embodiment.

Embodiment 1

The structure of hollow glass such as Fig. 1, including transparence display glass, outer glass plate, structure glue, the first sealant, second Sealant, aluminum strip and desiccant.

The transparent substrate of transparence display glass is the ultra-clear glasses of 6mm thickness.

The interior surface layers of transparent substrate are laminated with luminescence generated by light functional membrane.Photoluminescent film includes that the feux rouges that stacks gradually is photic Luminescent layer, green light photoluminescent layers and blue light photoluminescent layers.Blue light photoluminescent layers are the rare earth material containing thulium of 100nm thickness Layer.Green light photoluminescent layers are the layer of rare earth material containing terbium of 100nm thickness.Red photoluminescent layer is the rare earth containing praseodymium of 100nm thickness Material layer.

Outer glass plate is single silver-layer low-radiation glass of the 6mm with a thickness of film surface inwardly.

Structure glue is silicone adhesive.Sealant is butyl rubber.Desiccant is molecular sieve desiccant.

(wavelength 360-500nm) is irradiated with laser-projector, comprehensive 360 ° visual, and image is indeformable, may be implemented Colour display.

After tested, hollow glass thermal property are as follows: heat transfer coefficient (U value) 1.82W/m²DEG C, shading coefficient (Sc) 0.53.

Embodiment 2

The structure of hollow glass such as Fig. 1, including transparence display glass, outer glass plate, structure glue, the first sealant, second Sealant, aluminum strip and desiccant.

Transparence display glass is sandwich transparent substrate and transparent cover sheet is the ultra-clear glasses of 6mm thickness.

The interior surface layers of transparent substrate are laminated with luminescence generated by light functional membrane.Luminescence generated by light functional membrane includes adhesive layer and photic hair Photosphere, adhesive layer are the PVB glue with a thickness of 0.35mm.Photoluminescent layers include red photoluminescent layer, the green light stacked gradually Photoluminescent layers and blue light photoluminescent layers.Blue light photoluminescent layers are the material layer containing cerium mischmetal of 100nm thickness.Green light is photic Luminescent layer is the layer of rare earth material containing erbium of 100nm thickness.Red photoluminescent layer is the layer of rare earth material containing europium of 100nm thickness.

Outer glass plate is the ultra-clear glasses of thickness 12mm.

Structure glue is silicone adhesive.Sealant is butyl rubber.Desiccant is molecular sieve desiccant.

(wavelength 360-500nm) is irradiated with laser-projector, comprehensive 360 ° visual, and image is indeformable, may be implemented Colour display.

The transmitance and mist degree of the transparence display hollow glass of testing example 1~2, the results are shown in Table 1.Transmitance and mist degree Test method referring to GB/T 2410-2008 " measurement of transparent plastic light transmittance and mist degree ".

Table 1

Item	Transmitance	Mist degree
			Embodiment 1	56%	0.7%
Embodiment 2	80%	0.7%

Each technical characteristic of embodiment described above can be combined arbitrarily, for simplicity of description, not to above-mentioned reality It applies all possible combination of each technical characteristic in example to be all described, as long as however, the combination of these technical characteristics is not deposited In contradiction, all should be considered as described in this specification.

Above-described embodiments merely represent several embodiments of the utility model, the description thereof is more specific and detailed, But it cannot be understood as the limitations to utility model patent range.It should be pointed out that for the common skill of this field For art personnel, without departing from the concept of the premise utility, various modifications and improvements can be made, these are belonged to The protection scope of the utility model.Therefore, the scope of protection shall be subject to the appended claims for the utility model patent.

Claims (10)

1. a kind of transparence display hollow glass, which is characterized in that including transparence display glass and outer glass plate, the transparence display Glass and the outer glass plate interval are arranged, and the transparence display glass includes transparent substrate and is laminated in the transparent substrate table The luminescence generated by light functional membrane in face, the luminescence generated by light functional membrane are located at the transparent substrate close to the side of the outer glass plate, The luminescence generated by light functional membrane includes photoluminescent layers, and the photoluminescent layers include blue light photoluminescent layers, the photic hair of green light At least one layer in photosphere and red photoluminescent layer.

2. transparence display hollow glass according to claim 1, which is characterized in that the photoluminescent layers are laminated in described The surface of transparent substrate.

3. transparence display hollow glass according to claim 2, which is characterized in that the photoluminescent layers with a thickness of 50nm~6000nm.

4. transparence display hollow glass according to claim 1, which is characterized in that the transparence display glass further includes glass Glass cladding plate, the transparent substrate, the luminescence generated by light functional membrane and glass superstrate stack gradually, and the luminescence generated by light functional membrane is also Including the adhesive layer being stacked with the photoluminescent layers.

5. transparence display hollow glass according to claim 4, which is characterized in that the adhesive layer be PVB layer, SGP layers, EVA layer or PU layers etc..

6. transparence display hollow glass according to claim 4, which is characterized in that the adhesive layer with a thickness of 0.05mm ~0.125mm；Or

The luminescence generated by light functional membrane with a thickness of 0.3~0.38mm；Or

The luminescence generated by light functional membrane with a thickness of 0.76mm；Or

The luminescence generated by light functional membrane with a thickness of 1.52mm.

7. transparence display hollow glass according to claim 4, which is characterized in that the photoluminescent film with a thickness of 0.1mm~1.6mm.

8. transparence display hollow glass according to claim 1, which is characterized in that it further include structure glue, it is described transparent aobvious Show that the edge of glass is adhesively fixed by the structure glue and the outer glass plate.

9. transparence display hollow glass according to claim 8, which is characterized in that further include being set to the transparence display Aluminum strip, the first sealant, the second sealant between glass and the outer glass plate, the aluminum strip are set with the structure glue interval It sets, first sealant is attached at the transparence display glass, and second sealant is attached at the outer glass plate.

10. transparence display hollow glass according to claim 9, which is characterized in that it further include desiccant, the desiccant It is contained in the aluminum strip.