CN209079383U - Ultra-thin multilayer luminescent glass - Google Patents
Ultra-thin multilayer luminescent glass Download PDFInfo
- Publication number
- CN209079383U CN209079383U CN201821329836.6U CN201821329836U CN209079383U CN 209079383 U CN209079383 U CN 209079383U CN 201821329836 U CN201821329836 U CN 201821329836U CN 209079383 U CN209079383 U CN 209079383U
- Authority
- CN
- China
- Prior art keywords
- glass
- electro
- led lamp
- lamp bead
- conductive
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Active
Links
Landscapes
- Illuminated Signs And Luminous Advertising (AREA)
Abstract
The utility model provides a kind of ultra-thin multilayer luminescent glass, including the first glass and the second glass to stack together up and down, it further include the electro-conductive glass being arranged between the first glass and the second glass, it is respectively set on two surfaces up and down of electro-conductive glass there are two light emitting structure, the LED lamp bead of two light emitting structures shifts to install and its light-emitting surface is towards the same direction;The light-emitting surface of the LED lamp bead of one of light emitting structure is far from electro-conductive glass, the light-emitting surface of the LED lamp bead of another light emitting structure is close to electro-conductive glass, and the bending leg of the LED lamp bead of another light emitting structure extends towards the bending of the direction of electro-conductive glass and the light transmitting electro-conductive route on surface corresponding with its is arranged in is electrically connected.It is closeer that the utility model can achieve the LED lamp bead on fluorescent glass, the quantity of LED lamp bead is increased in the fluorescent glass of limited areal, the light emitting pixel for improving fluorescent glass has many advantages, such as that structure is simple, beautiful, light emitting pixel is high, thickness is thin and display effect is good.
Description
Technical field
The utility model relates to luminescent glass technique fields, more particularly, to a kind of ultra-thin multilayer luminescent glass.
Background technique
LED glass (LED Glass) is also known as electrified light emitting glass, automatically controlled fluorescent glass, is invented earliest by Germany, China
The country was successfully developed in 2006.Have the characteristics that penetrating, anti-riot, waterproof, antiultraviolet, can design.It is mainly used for indoor and outdoor
The fields such as decoration, furniture design, fluorescent tube Lighting Design, outdoor cladding glass, glass sunlight house design.LED glass itself is a
Safety glass, and be building doubling glass, there is antiultraviolet, the energy-saving effect of part infrared ray can be widely applied to interior
Outer purposes.Due to the energy-efficient characteristic of LED itself, the extremely power saving of LED glass, energy conservation and environmental protection.LED glass is widely used in various set
Meter and application end field: such as business or furniture interior/exterior decoration, finishing, decoration, furniture design, fluorescent tube Lighting Design, indoor scape
See design, indoor shower cabinet partition, clinic, number, urgent Warning Mark design, meeting room partition, outdoor cladding glass, quotient
Shop show window, special counter design, the design of luxury goods special counter, skylight design, ceiling design, glass sunlight house design, 3C Product glass panel are answered
With, indoor and outdoor billboard design, fashion home ornaments, clock, prize, the wide neck such as the various terminals application product such as lamps and lanterns design
Domain.
However, existing LED fluorescent glass, since light transmitting electro-conductive route has certain area, it is thus impossible to send out LED
The density of LED lamp bead on light glass reaches very close range.That is, after the density of LED lamp bead reaches certain value, no
It can continue that LED lamp bead is arranged on the LED fluorescent glass of fixed-area, allow for the luminous picture of existing LED fluorescent glass in this way
Element is low, influences the display effect of LED fluorescent glass.
Utility model content
In order to overcome the above problem, the utility model provides a kind of very close and display effect that LED lamp bead can be arranged
Good ultra-thin multilayer luminescent glass.
The technical solution of the utility model is: a kind of ultra-thin multilayer luminescent glass is provided, including what is stacked together up and down
First glass and the second glass further include the electro-conductive glass being arranged between first glass and second glass, in institute
It states and is respectively set on two surfaces up and down of electro-conductive glass there are two light emitting structure, the LED lamp bead of two light emitting structures is wrong
Position setting and its light-emitting surface is towards the same direction;The light-emitting surface of the LED lamp bead of one of them light emitting structure is far from institute
Electro-conductive glass is stated, for the light-emitting surface of the LED lamp bead of another light emitting structure close to the electro-conductive glass, another is described luminous
The bending leg of the LED lamp bead of structure bends saturating in extension and surface corresponding with its is arranged in towards the direction of the electro-conductive glass
Photoconductive route is electrically connected.
As the improvement to the utility model, if the light emitting structure includes light transmitting electro-conductive route and is electrically connected
Dry LED lamp bead, the light transmitting electro-conductive route are to be formed on the surface of the electro-conductive glass by laser ablation.
As the improvement to the utility model, the bending leg includes intermediate bending part, and the one of the intermediate bending part
End is connect with the LED lamp bead, and the other end of the intermediate bending part and the light transmitting electro-conductive route are electrically connected.
It further include the lateral bending substantially parallel with the surface of the electro-conductive glass as the improvement to the utility model
Portion, one end of the transverse direction bending part and the other end of the intermediate bending part connect, the other end of the lateral bending part or
Transverse direction bending part described in person is electrically connected close to the surface of the electro-conductive glass and the light transmitting electro-conductive route.
As the improvement to the utility model, the intermediate bending part is inclination bending part, curved bend folding part, vertical and horizontal bending
Portion or curved shape bending part.
As the improvement to the utility model, the vertical and horizontal bending part includes transverse part and vertical portion, the transverse part
Both ends are connect with the LED lamp bead and the vertical portion respectively, side wall of the vertical portion close to or far from the LED lamp bead.
As the improvement to the utility model, between first glass and the electro-conductive glass, and described
Intermediate mucigel is respectively arranged between two glass and the electro-conductive glass.
As the improvement to the utility model, the thickness of the intermediate mucigel is equal to or more than the thickness of the LED lamp bead
Degree.
As the improvement to the utility model, when the thickness of the intermediate mucigel is equal to the thickness of the LED lamp bead,
The surrounding of the LED lamp bead is arranged in the intermediate mucigel.
There are two light emitting structure, two hairs due to being respectively set on two surfaces up and down of electro-conductive glass for the utility model
The LED lamp bead of photo structure shifts to install and its light-emitting surface is towards the same direction, so that the LED lamp bead on fluorescent glass
It can achieve closeer, the quantity of LED lamp bead increased in the fluorescent glass of limited areal, improves the luminous picture of fluorescent glass
Element has many advantages, such as that structure is simple, beautiful, light emitting pixel is high, thickness is thin and display effect is good.
Detailed description of the invention
Fig. 1 is the schematic cross-sectional view of the first embodiment of the utility model.
Fig. 2 is the schematic cross-sectional view of the second embodiment of the utility model.
Fig. 3 is the schematic cross-sectional view of the 3rd embodiment of the utility model.
Fig. 4 is the schematic cross-sectional view of the fourth embodiment of the utility model.
Fig. 5 is the schematic cross-sectional view of the 5th embodiment of the utility model.
Fig. 6 is the schematic cross-sectional view of the sixth embodiment of the utility model.
Fig. 7 is the schematic cross-sectional view of the 7th embodiment of the utility model.
Fig. 8 is the schematic cross-sectional view of the 8th embodiment of the utility model.
Fig. 9 is the schematic cross-sectional view of the 9th embodiment of the utility model.
Figure 10 is the schematic cross-sectional view of the tenth embodiment of the utility model.
Wherein: 1, the first glass;2, electro-conductive glass;3, the second glass;4, intermediate mucigel;5, light transmitting electro-conductive route;6,
LED lamp bead;60, leg is bent;61, light-emitting surface;62, intermediate bending part;63, lateral bending part.
Specific embodiment
In the description of the present invention, it should be understood that "center" in term, "upper", "lower", "front", "rear",
The orientation or positional relationship of the instructions such as "left", "right" is to be based on the orientation or positional relationship shown in the drawings, and is merely for convenience of retouching
State the utility model and simplify description, rather than the device or component of indication or suggestion meaning must have a particular orientation, with
Specific orientation construction and operation, therefore should not be understood as limiting the present invention.In addition, term " first ", " second "
It is used for descriptive purposes only and cannot be understood as indicating or suggesting relative importance.
In the description of the present invention, it should be noted that unless otherwise clearly defined and limited, term " is pacified
Dress ", " connection ", " connected " shall be understood in a broad sense, for example, it may be being fixedly connected, be also possible to dismantling connection, or integrally connect
It connects;It can be mechanical connection, be also possible to be electrically connected;It can be directly connected, be also possible to indirectly connected through an intermediary,
It can be the connection of two component internals.For the ordinary skill in the art, above-mentioned art can be understood with concrete condition
Concrete meaning of the language in the utility model.
Referring to Figure 1, Fig. 1 is revealed is a kind of embodiment of ultra-thin multilayer luminescent glass, including is stacked in one up and down
The first glass 1 and the second glass 3 risen, an electro-conductive glass 2 are arranged between first glass 1 and second glass 3.It is described
First glass 1 and second glass 3 can be flat glass, be also possible to tempered glass and/or bulletproof glass, and described first
Glass 1 and second glass 3 can also be organic glass, quartz glass, silicate glass, soda-lime glass, fluoride glass,
High temp glass, high pressure resistant glass, ultraviolet ray intercepting glass and/or implosion guard etc..
The size of first glass 1, second glass 3 and the electro-conductive glass 2 is substantially identical big, shape also base
This is identical.Their shape can be the geometries such as rectangle, triangle, circle, ellipse, pentagon, hexagon, they
Shape is also possible to non-geometrically, above-mentioned to be merely illustrative, and the utility model is without being limited thereto.
In the present embodiment, it is respectively set on two surfaces up and down of the electro-conductive glass 2 and (is not marked there are two light emitting structure
Know), the LED lamp bead 6 of two light emitting structures shifts to install and its light-emitting surface 61 is towards the same direction.
The light emitting structure includes light transmitting electro-conductive route 5 and several LED lamp beads 6 for being electrically connected, and the light transmission is led
Electric line 5 is to be formed on the surface of the electro-conductive glass 2 by laser ablation, herein no longer to the light transmitting electro-conductive line
The manufacturing process on road 5 carries out detailed explanation, because it is the prior art.It should be noted that the LED lamp bead 6 can
To be adopting surface mounted LED lamp bead, it is also possible to direct insertion LED lamp bead, the utility model is by taking adopting surface mounted LED lamp bead as an example.Several institutes
Stating LED lamp bead 6 can be arranged at array, and several LED lamp beads 6 can not also be arranged at array, several LED lamp beads 6
Specifically how to be arranged, can be selected according to actual needs.
The upper surface of the electro-conductive glass 2 is close to first glass 1, and the lower surface of the electro-conductive glass 2 is close to described
Second glass 3, two light emitting structures are separately positioned in the upper and lower surfaces of the electro-conductive glass 2.That is,
One of them described light emitting structure is arranged on the upper surface of the electro-conductive glass 2, then the LED of a light emitting structure
Lamp bead 6 is between the electro-conductive glass 2 and first glass 1;Another described light emitting structure setting is in the conductive glass
On the lower surface of glass 2, then the LED lamp bead 6 of another light emitting structure is located at the electro-conductive glass 2 and second glass
Between glass 3.
Described in overlook view when fluorescent glass, i.e., from vertical first glass 1 to from the direction of second glass 3
When, it is found that the LED lamp bead 6 of two light emitting structures shifts to install.The benefit shifted to install is: although at each
Spacing on the light emitting structure between the two neighboring LED lamp bead 6 does not change, i.e. institute on each described light emitting structure
The density for stating LED lamp bead 6 does not change.But it after the LED lamp bead 6 of two light emitting structures shifts to install, is bowing
In apparent direction, reduce the spacing between the two neighboring LED lamp bead 6, the size constancy of the fluorescent glass the case where
Under, the quantity of the LED lamp bead 6 on the fluorescent glass is increased, that is, increases the LED lamp bead on the fluorescent glass
6 density.
Mode there are three types of shifting to install, mode one: in overlook direction, in the two rows of LED lamp beads 6 of arbitrary neighborhood,
In LED lamp bead 6 described in a row belong to one of them described light emitting structure, i.e., wherein the setting of LED lamp bead 6 described in a row is led described
On the upper surface or lower surface of electric glass 2.LED lamp bead 6 described in another row belongs to another light emitting structure, i.e., wherein another
The LED lamp bead 6 is arranged to be arranged on the lower surface or upper surface of the electro-conductive glass 2.
Mode two: in overlook direction, arranging in the LED lamp bead 6 in arbitrary neighborhood two, wherein a column LED lamp bead 6 belongs to
In one of them light emitting structure, i.e., wherein a column LED lamp bead 6 be arranged in the electro-conductive glass 2 upper surface or under
On surface.Another column LED lamp bead 6 belongs to another light emitting structure, i.e., wherein another column LED lamp bead 6 is arranged
On the lower surface or upper surface of the electro-conductive glass 2.
Mode three: in overlook direction, in several LED lamp beads 6, one of them described LED lamp bead 6 belongs to wherein one
A light emitting structure, i.e. one of them described LED lamp bead 6 are arranged on the upper surface or lower surface of the electro-conductive glass 2.Then
Other LED lamp beads 6 adjacent thereto belong to another light emitting structure, i.e., other LED lamp beads 6 adjacent thereto
It is arranged on the lower surface or upper surface of the electro-conductive glass 2.
The light-emitting surface 61 of two light emitting structures is towards the same direction, that is to say, that in the fluorescent glass, institute
The light-emitting surface 61 for the LED lamp bead 6 having is both facing to a direction, i.e., the light-emitting surface 61 of all LED lamp beads 6 is all upwards
Or downwards, refers to upwards towards first glass 1, refer to downwards towards second glass 3.It shines when one of them is described
The light-emitting surface 61 of the LED lamp bead 6 of structure shines far from the electro-conductive glass 2, the LED lamp bead 6 of another light emitting structure
Face 61 is close to the electro-conductive glass 2, and the bending leg 60 of the LED lamp bead 6 of another light emitting structure is towards the electro-conductive glass 2
Direction bending extend and surface correspondings with its is arranged on light transmitting electro-conductive route 5 electric connection.Conversely, working as one of institute
The light-emitting surface 61 of the LED lamp bead 6 of light emitting structure is stated close to the electro-conductive glass 2, the LED lamp bead 6 of another light emitting structure
Light-emitting surface 61 far from the electro-conductive glass 2.It should be noted that one of them described light emitting structure can be set in institute here
It states on the upper surface or lower surface of electro-conductive glass 2, then another described light emitting structure can be set under the electro-conductive glass 2
On surface or upper surface.
When 61 court of light-emitting surface of the LED lamp bead 6 of the light emitting structure for the upper surface that the electro-conductive glass 2 is arranged in
When upper, i.e., towards first glass 1, the bottom of the LED lamp bead 6 is close to the upper surface of the electro-conductive glass 2.So it is arranged
The light-emitting surface 61 of the LED lamp bead 6 of the light emitting structure on the lower surface of the electro-conductive glass 2 is also upward and far from institute
The second glass 3 is stated, i.e., its light-emitting surface 61 is also towards first glass 1, and the bottom of the LED lamp bead 6 is far from the conductive glass
Glass 2 and close second glass 3, to its light-emitting surface 61 is arranged also towards first glass 1, in the electro-conductive glass
The light-emitting surface 61 of the LED lamp bead 6 of the light emitting structure on 2 lower surface is close to the lower surface of the electro-conductive glass 2.
Alternatively, working as shining for the LED lamp bead 6 that the light emitting structure of lower surface of the electro-conductive glass 2 is arranged in
Face 61 downward when, i.e., towards second glass 3, the bottom of the LED lamp bead 6 is close to the lower surface of the electro-conductive glass 2.That
The light-emitting surface 61 of the LED lamp bead 6 of the light emitting structure on the upper surface of the electro-conductive glass 2 is set also downward simultaneously
Far from first glass 1, i.e., its light-emitting surface 61 is also towards second glass 3, and the bottom of the LED lamp bead 6 is far from described
Electro-conductive glass 2 and close first glass 1, to make its light-emitting surface 61 also towards second glass 3, setting is led described
The light-emitting surface 61 of the LED lamp bead 6 of the light emitting structure on the upper surface of electric glass 2 is upper close to the electro-conductive glass 2
Surface.
In the present embodiment, detailed explain is carried out so that the light-emitting surface 61 of all LED lamp beads 6 is all upward as an example
It is bright.
61 court of light-emitting surface of the LED lamp bead 6 of the light emitting structure of the upper surface of the electro-conductive glass 2 is set
On, the bottom of the LED lamp bead 6 close to the upper surface of the electro-conductive glass 2, and the leg of 6 bottom of the LED lamp bead with set
The light transmitting electro-conductive route 5 set on the upper surface of the electro-conductive glass 2 is electrically connected.It should be noted that the LED light
The bottom of pearl 6 can directly be contacted with the upper surface of the electro-conductive glass 2, the bottom of the LED lamp bead 6 can not also it is direct with
The upper surface of the electro-conductive glass 2 contacts, i.e., the bottom of the described LED lamp bead 6 can pass through other structures and the electro-conductive glass 2
Upper surface contact or the LED lamp bead 6 bottom and the electro-conductive glass 2 upper surface between be provided with space.
The light-emitting surface 61 of the LED lamp bead 6 of the light emitting structure on the lower surface of the electro-conductive glass 2 is set
Upward and far from second glass 3, the light-emitting surface 61 of the LED lamp bead 6 is close to the lower surface of the electro-conductive glass 2.It is described
The light-emitting surface 61 of LED lamp bead 6 can directly with the electro-conductive glass 2 following table face contact, the light-emitting surface 61 of the LED lamp bead 6
Can not also the direct following table face contact with the electro-conductive glass 2, i.e., the light-emitting surface 61 of the described LED lamp bead 6 can be by other
The light-emitting surface 61 and the electro-conductive glass 2 of the following table face contact or the LED lamp bead 6 of translucent construction and the electro-conductive glass 2
Lower surface between be provided with space.
When the light-emitting surface 61 of the LED lamp bead 6 of the light emitting structure on the lower surface that the electro-conductive glass 2 is arranged in
When also upward and far from second glass 3, the bending leg 60 of the LED lamp bead 6 is bent towards the direction of the electro-conductive glass 2
Extend and the light transmitting electro-conductive route 5 on surface corresponding with its is arranged in is electrically connected.The bending leg 60 includes centre
One end of bending part 62, the intermediate bending part 62 is connect with the LED lamp bead 6, the other end of the intermediate bending part 62 with
The light transmitting electro-conductive route 5 is electrically connected, and the intermediate bending part 62 is inclination bending part.In addition to tilt bending part, it is described in
Between bending part 62 can also be curved bend folding part (shown in Figure 2) or curved shape bending part (shown in Figure 3).It needs
Illustrate, when needing that the light-emitting surface 61 of all LED lamp beads 6 is all down-set, refer to above content, only needs
Setting direction is changed.
In the present embodiment, between first glass 1 and the electro-conductive glass 2, and in second glass 3 and institute
It states and is respectively arranged with intermediate mucigel 4 between electro-conductive glass 2, the intermediate mucigel 4 uses PVB, SGP, EVA or PU material system
At.The thickness of the intermediate mucigel 4 is equal to or more than the thickness of the LED lamp bead 6, that is to say, that 1 He of the first glass
The thickness of the intermediate mucigel 4 between the electro-conductive glass 2 be equal to or more than the LED lamp bead 6 thickness, described second
The thickness of the intermediate mucigel 4 between glass 3 and the electro-conductive glass 2 is equal to or more than the thickness of the LED lamp bead 6.
When the thickness of the intermediate mucigel 4 is equal to the thickness of the LED lamp bead 6, the intermediate setting of mucigel 4 exists
The surrounding of the LED lamp bead 6.That is, the spacing between first glass 1 and the electro-conductive glass 2 is equal to the LED
The thickness of lamp bead 6, the spacing between second glass 3 and the electro-conductive glass 2 are equal to the thickness of the LED lamp bead 6, in this way
The benefit of design is the thickness for reducing the fluorescent glass, so that the fluorescent glass seems thinner more beautiful.
About the two ways that is provided with of the intermediate mucigel 4, mode one is arranged in the light emitting structure and leads described
After in the upper and lower surface of electric glass 2, the intermediate mucigel 4 is coated in the upper and lower surface of the electro-conductive glass 2, then will
First glass 1 is arranged on the intermediate mucigel 4 on the upper surface of the electro-conductive glass 2, by second glass 3
It is arranged on the intermediate mucigel 4 on the lower surface of the electro-conductive glass 2.Mode two, by first glass 1 and described
Second glass 3 is separately positioned in the upper and lower surface of the electro-conductive glass 2, then by the intermediate viscose by way of perfusion
Layer 4 is circulated between first glass 1 and the electro-conductive glass 2 respectively and second glass 3 and the electro-conductive glass
Between 2.
Refer to Fig. 4, it is the 4th kind of embodiment of ultra-thin multilayer luminescent glass that Fig. 4 is revealed, institute in structure and Fig. 1
The structure shown is essentially identical, no longer carries out detailed explanation to identical structure herein, particular content referring to Figure 1 with
And the above-mentioned explanation content to Fig. 1.Different structures is as follows:
The intermediate bending part 62 is vertical and horizontal bending part, and the vertical and horizontal bending part includes transverse part (not identifying) and vertical portion
(not identifying), the both ends of the transverse part are connect with the LED lamp bead 6 and the vertical portion respectively, and the vertical portion is far from institute
The side wall of LED lamp bead 6 is stated, the vertical portion can also be close to the side wall (shown in Figure 5) of the LED lamp bead 6.
Refer to Fig. 6, it is the 6th kind of embodiment of ultra-thin multilayer luminescent glass that Fig. 6 is revealed, institute in structure and Fig. 1
The structure shown is essentially identical, no longer carries out detailed explanation to identical structure herein, particular content referring to Figure 1 with
And the above-mentioned explanation content to Fig. 1.Different structures is as follows:
It further include the lateral bending part 63 substantially parallel with the surface of the electro-conductive glass 2, the transverse direction bending part 63
The connection of the other end of one end and the intermediate bending part 62, the other end of the transverse direction bending part 63 or the lateral bending part
63 are electrically connected close to the surface of the electro-conductive glass 2 and the light transmitting electro-conductive route 5.The intermediate bending part 62 is that inclination is curved
Folding part, in addition to tilting bending part, the intermediate bending part 62 can also be curved bend folding part (shown in Figure 7) or curved shape
Bending part (shown in Figure 8).
Refer to Fig. 9, it is the 9th kind of embodiment of ultra-thin multilayer luminescent glass that Fig. 9 is revealed, institute in structure and Fig. 6
The structure shown is essentially identical, no longer carries out detailed explanation to identical structure herein, particular content refer to Fig. 6 with
And the above-mentioned explanation content to Fig. 6.Different structures is as follows:
The intermediate bending part 62 is vertical and horizontal bending part, and the vertical and horizontal bending part includes transverse part (not identifying) and vertical portion
(not identifying), the both ends of the transverse part are connect with the LED lamp bead 6 and the vertical portion respectively, and the vertical portion is far from institute
The side wall of LED lamp bead 6 is stated, the vertical portion can also be close to the side wall (shown in Figure 10) of the LED lamp bead 6.
The utility model on two surfaces up and down of the electro-conductive glass due to being respectively set there are two light emitting structure, and two
The LED lamp bead of a light emitting structure shifts to install and its light-emitting surface is towards the same direction, so that the luminous glass
The LED lamp bead on glass can achieve closeer, and the number of the LED lamp bead is increased in the fluorescent glass of limited areal
Amount, improves the light emitting pixel of the fluorescent glass, has simple structure, beautiful, light emitting pixel height, thickness thin and display effect
The advantages that good.
It should be noted that being explained in detail for the respective embodiments described above, purpose be only that the utility model into
Row explain, in order to be able to preferably explanation the utility model, still, these description cannot with any explanation at be to this
The limitation of utility model, in particular, each feature described in various embodiments can also mutual any combination, thus
Other embodiments are formed, in addition to there is clearly opposite description, these features should be understood to can be applied to any one reality
It applies in mode, and is not limited merely to described embodiment.
Claims (7)
1. a kind of ultra-thin multilayer luminescent glass, including the first glass and the second glass to stack together up and down, it is characterised in that:
It further include the electro-conductive glass being arranged between first glass and second glass, at two up and down of the electro-conductive glass
Light emitting structure there are two being respectively set on surface, the LED lamp bead of two light emitting structures shifts to install and its light-emitting surface court
To the same direction;The light-emitting surface of the LED lamp bead of one of them light emitting structure is far from the electro-conductive glass, described in another
The light-emitting surface of the LED lamp bead of light emitting structure is welded close to the electro-conductive glass, the bending of the LED lamp bead of another light emitting structure
Foot extends towards the bending of the direction of the electro-conductive glass and the light transmitting electro-conductive route on surface corresponding with its is arranged in is electrically connected;
The luminous face-up of the LED lamp bead of the light emitting structure of the upper surface of the electro-conductive glass, the LED are set
The bottom of lamp bead is close to the upper surface of the electro-conductive glass;
The light-emitting surface that the LED lamp bead of the light emitting structure on the lower surface of the electro-conductive glass is arranged in is also upward and remote
From second glass, the light-emitting surface of the LED lamp bead is close to the lower surface of the electro-conductive glass;
The bending leg includes intermediate bending part, and one end of the intermediate bending part is connect with the LED lamp bead, the centre
The other end of bending part and the light transmitting electro-conductive route are electrically connected;
Further include the lateral bending part substantially parallel with the surface of the electro-conductive glass, it is described transverse direction bending part one end with it is described
The other end of intermediate bending part connects, and the other end of the transverse direction bending part or the lateral bending part are close to the conductive glass
The surface of glass and the light transmitting electro-conductive route are electrically connected.
2. ultra-thin multilayer luminescent glass according to claim 1, it is characterised in that: the light emitting structure includes light transmitting electro-conductive
Route and several LED lamp beads being electrically connected, the light transmitting electro-conductive route is passed through on the surface of the electro-conductive glass
What laser ablation was formed.
3. ultra-thin multilayer luminescent glass according to claim 1, it is characterised in that: the intermediate bending part is inclination bending
Portion, curved bend folding part, vertical and horizontal bending part or curved shape bending part.
4. ultra-thin multilayer luminescent glass according to claim 3, it is characterised in that: the vertical and horizontal bending part includes transverse part
And vertical portion, the both ends of the transverse part are connect with the LED lamp bead and the vertical portion respectively, the vertical portion is close or remote
Side wall from the LED lamp bead.
5. ultra-thin multilayer luminescent glass according to claim 1 or 2, it is characterised in that: in first glass and described
Between electro-conductive glass, and between second glass and the electro-conductive glass it is respectively arranged with intermediate mucigel.
6. ultra-thin multilayer luminescent glass according to claim 5, it is characterised in that: the thickness of the intermediate mucigel is equal to
Or the thickness greater than the LED lamp bead.
7. ultra-thin multilayer luminescent glass according to claim 6, it is characterised in that: when the thickness etc. of the intermediate mucigel
When the thickness of the LED lamp bead, the surrounding of the LED lamp bead is arranged in the intermediate mucigel.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201821329836.6U CN209079383U (en) | 2018-08-17 | 2018-08-17 | Ultra-thin multilayer luminescent glass |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201821329836.6U CN209079383U (en) | 2018-08-17 | 2018-08-17 | Ultra-thin multilayer luminescent glass |
Publications (1)
Publication Number | Publication Date |
---|---|
CN209079383U true CN209079383U (en) | 2019-07-09 |
Family
ID=67114779
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201821329836.6U Active CN209079383U (en) | 2018-08-17 | 2018-08-17 | Ultra-thin multilayer luminescent glass |
Country Status (1)
Country | Link |
---|---|
CN (1) | CN209079383U (en) |
-
2018
- 2018-08-17 CN CN201821329836.6U patent/CN209079383U/en active Active
Similar Documents
Publication | Publication Date | Title |
---|---|---|
US9568659B2 (en) | Luminous glazing unit | |
US9059378B2 (en) | Luminous glazing unit | |
JP5199236B2 (en) | Luminescent panel | |
US9453361B2 (en) | Luminous multiple glazing unit comprising light-emitting diodes | |
PT1969403E (en) | Luminous structure comprising at least one light-emitting diode, its manufacture and its applications | |
CN201053623Y (en) | LED luminescent sandwiched glass | |
US20130051000A1 (en) | Transparent display structure | |
CN206635233U (en) | Led transparent luminescent glass | |
CN209079383U (en) | Ultra-thin multilayer luminescent glass | |
US10882281B2 (en) | Double-layer conductive LED photoelectric glass with voltage compensation and manufacturing process thereof | |
CN206892491U (en) | A kind of LED intelligent glass | |
TWI557306B (en) | Illuminating multiple glazing with light-emitting diodes | |
CN102713701B (en) | Light-emitting-diode panel | |
CN209079380U (en) | Ultra-thin light-emitting glass | |
CN201081173Y (en) | Double-side lighting LED surface light source for decorative lighting on building | |
CN211857996U (en) | Transparent display module and transparent display screen | |
CN209079382U (en) | Ultra-thin light-emitting glass | |
CN206649852U (en) | LED photovoltaic glass with double-sided display function | |
CN101105276A (en) | Method for making construction material two-side surface light extraction and LED surface light source for lighting | |
CN209079381U (en) | Multilayer luminescent glass | |
CN108790325A (en) | Multilayer luminescent glass | |
CN209351022U (en) | A kind of decoration wire glass | |
CN202929969U (en) | LED (light-emitting diode) jade glass display screen | |
CN217481107U (en) | Brightening hollow glass structure and building curtain wall | |
CN217322917U (en) | Elevator pilot lamp integrated design mounting structure |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
GR01 | Patent grant | ||
GR01 | Patent grant |