Glass composite with functional element

专利摘要:
Glass composite (1) comprising at least a first main glass sheet (2) and a wide main glass panel (3) located at a distance to each other and at least one technical module (4), which is arranged between the two main glass sheets, and at least one between the main glass sheets (2, 3 ) located plate member (5), wherein the plate member defines a recess adapted to the shape of the module recess (6), in which recess (6), the module (4) is accommodated.
公开号:AT512741A1
申请号:T50118/2012
申请日:2012-04-02
公开日:2013-10-15
发明作者:Linda Czapka
申请人:Linda Czapka；
IPC主号:

专利说明:

-1 -
DO IO 140 TITLE
Glass composite with functional element DESCRIPTION TECHNICAL FIELD
The invention relates to a glass composite, a method for producing a glass composite and a use of a glass composite.
BACKGROUND
An initially mentioned in the first paragraph glass composite is known from W003048494. The glass composite disclosed therein can be used architecturally in an advantageous manner.
The invention has for its object to extend the scope of the known glass composite on the pure architectural use addition.
SUMMARY OF THE INVENTION
This object is achieved on the one hand by a glass composite according to claim 1 and on the other hand by a method according to claim 10.
The subject of the invention is therefore a glass composite having at least a first Hauptgiastafel and a wide main glass panel spaced apart and at least one technical module, which is arranged between the two main glass panels, and at least one located between the main glass panels, plate element, wherein the Piattenelement (eg at least partially) defines or defines a recess adapted to the shape of the module, in which recess the module is accommodated.
In addition, the subject matter of the invention is a method for producing a glass composite comprising the steps of arranging at least one plate element between two main glass sheets, wherein the sheet member defines (eg, at least partially) a recess adapted to the size of a technical module, and arranging said glass sheet Module in said recess. -2-
The subject of the invention is also a use of a glass composite according to the invention as a frame for a technical module.
A technical module does not mean a plate element in the sense of this patent application. Thus, the module is an element different from the plate element.
By the measures according to the invention is achieved in an advantageous manner that the module or modules are now dustproof and scratch-resistant integrated or received in the Giasverbund. With such a trained Giasverbund thus not only aesthetically pleasing, but also functional elements can be integrated into the architecture. In this case, conventional metal frame, screwdrivers or rivets, etc., and the like, which are usually required for Lagestablllsierung or positioning of electrical modules and would affect the aesthetics of the glass composite, completely avoided.
The two main glass panels can realize a front and a rear wall of the glass composite. The main glass panels can be realized by all types of glass in technical structures and thicknesses, transparent and translucent plastics, etc.
The plate element is preferably transparent, in particular colorless or colored, wherein advantageously the plate element consists of e.g. transparent or translucent plastic, in particular made of acrylic glass is made (for example PMMA-polymethyl methacrylate). As materials for the plate element but also metals, minerals, wood u.a. come into use. The plate element is usually aligned parallel to the main glass panels and approximately the same size as the main glass panels, but in particular formed around elements in the edge region smaller than the main glass panels. The plate element (s) acts as a support disc (s) or frame for the module. The sole plate element or plates are arranged in a plane between the main glass plates. This level can be understood as a functional level, because the module brings a technical function in the glass composite.
Such a Piattenelement can be formed, for example, one or more parts. The entire occupied area of the one or more plate element and the module, which are both in a plane parallel to the
-3-
Main glass panels are arranged, corresponds approximately to the total surface of the glass composite.
In one piece construction, the recess may be completely defined by a hole in the plate member. However, the recess may also be located at the edge of the plate member, e.g. limit two or three sides of the recess. The remaining sides of the recess can be realized by the edge of the glass composite. Even with a multi-part design of the plate element individual Platteneiemente adjacent to each other in the plane between the main glass plates at least partially flush 10 are arranged adjacent to each other. In this embodiment, the recess may be contained in one of the plate members and the one or more other plate members may be free of recesses.
However, adjacent plate elements can also have recesses at their mutually pointing edges, which in total realize the shape of the recess to be defined for the module. Exactly in this cutout or recess in the transition region between the plate elements Is the module used. Even with a multi-part training so are both the or the plate elements and the module In said plane between the main glass panels. 20 Further, particularly advantageous embodiments and further developments of
Invention will be apparent from the dependent claims and the description below. The features of the method can be developed according to the features of the device. The advantages mentioned in connection with the device also apply to the method. 25 According to a preferred embodiment, the plate element is multi-part, so at least formed in two parts. Along one of the two plate elements or both plate elements is said recess formed in which the module is received. The module is thus arranged in a boundary region between the at least two plate elements. It is therefore also possible for adjacent plate elements to have recesses at their mutually adjacent or mutually pointing edges, which in total realize the shape of the recess to be defined for the module. The number of plate elements can be selected according to the respective optical effects to be achieved.
-4-
It has proved to be particularly advantageous if the plate elements are made of glass-like panels, referred to below as frame glass panels, whereby the frame glass panels have different transparency or different colors for aesthetic as well as visual protection reasons. For example, sensory functions of the module (s) may be associated with a less transparent region, whereas modules or regions of such modules serving the visualization may be associated with a more transparent region.
Preferably, the module is selected from a group of the following elements: display unit (e.g., a monitor), input unit such as buttons or keyboard or the like, sensor unit, photovoltaic panel, flow and / or data carrying and / or data recording means, especially camera. With these elements, many functions of an even autonomous glass composite can already be realized. With the help of the display unit, information can be communicated to a user or to a passerby. With the help of the input unit, information can be supplied by such a person. A sensor unit can detect, for example, air pressure or air temperature when it is connected via sensor elements with the environment of the glass composite. The power supply of the individual elements can be ensured for example by means of an integrated photovoltaic panel, so that an autonomous operation is possible. It should also be mentioned at this point that no autonomous function of the glass composite must be present, in which case the individual elements are connected to the surroundings of the glass composite in the form of wireless or wire-based information or energy or power transmission , The technical module may be an electronic or mechanical or e.g. physical principle based module, e.g. a mercury thermometer or a barometer or an optical lens.
According to a further aspect, in the glass composite, at least one of the main glass sheets and the module are arranged at a distance from one another with the aid of a spacer in such a way that cooling of the module is ensured. The spacer ensures that an air space provided for cooling is maintained between at least one of the main glass panels and the module and / or the panel element. This distance is so dimensioned that it allows a cooling operation corresponding to the cooling during operation of the module. If the air space is only formed on one side, that is to say provided in front of or behind the module, then it can have a depth of 5% to 90% of the depth of the module. However, if two air spaces are formed, one in front of and one behind the module, it can have a depth of 5% to 45% of the depth of the module. In both cases it is ensured that the module does not fall into the airspace. According to this embodiment, the advantage is obtained that reliable cooling or heat removal from the module into the environment of the gas network is ensured.
According to a further aspect of the invention, the glass composite on conduit means which are provided for electrically conductive connection of the electrical connections of the module with the environment of the glass composite. Such conduit means may have in the plate member a bore or notch or groove and an electrical lead received therein and / or have edges of the plate member extending there and linear or area-like first pathways and / or have inserted between the main glass panels at the edge spacers that the distance define the main glass panels to each other, wherein the spacer is a part of the conduit means and partially electrically conductive structures, in particular in the form of cable, line or sheet-like second pathways, and / or wherein corner elements between the spacers form a part of the conduit means and an electrically have conductive passage to electrically connect the module with the environment of the glass composite.
The bore, notch, groove or lines received therein can be used deliberately for design purposes. In order not to adversely affect the visually undisturbed character of plates arranged flush with each other, it is possible to use as inconspicuous forms as possible, such as line or area-like first conducting paths, or to make the material of the plate elements opaque (opaque). These pathways may also be coated with insulating layers and layered along the edges of the mat element side by side or one above the other. In the area of the received module they end where they are contacted with electrical contacts or electrical leads of the module.
However, as a conduit for the signal transmission and light guides can be provided which, depending on the application either optically possible
Inconspicuous or an optical accent giving integrated into the respective plate element or run on the surface.
According to a further aspect of the invention, the spacer is also a component of the conduit means and has a partially electrically conductive structure, in particular in the form of cable, line or area-like second conduit paths. These second conductor paths end at those regions in which the first conductor paths of the respective plate element terminate. There, the second conductor paths are connected to the above-mentioned electrical conductors. The spacer may, for example, a 10 hollow body -. B. a hollow profile bar - and it can be added lines in it. However, the spacer may also be formed by its structure of electrically conductive material, e.g. be separated along its longitudinal extent two or more metallically conductive parts which are interconnected by an insulating part, so that the spacer itself realizes a two- or multi-core cable. Also may be integrated in the spacer for signal transmission optical fiber, which are coupled to optical fibers in the respective plate member.
The spacers extending along the edges of the glass composite are interconnected at the corners of the glass composite by corner elements. 20 The tightness of the glass composite is ensured by the corner element, because not the sealing material and other materials of the glass composite must be broken. Accordingly, these corner elements between the spacers are also part of the conduit means and have an electrically conductive passage to electrically connect the module to the environment of the glass composite without jeopardizing the tightness of the glass composite. The electrically conductive passage can be realized by means of a cable. The cable can end outside the glass composite in any plugs. Preferably, the electrically conductive passage is realized by a connector integrated in the corner element, which allows a 30 power input from the outside by means of a cable, thus connecting the current-consuming elements located within the spacer and realizes their power connection.
According to a preferred embodiment, the glass composite consists of only two main glass sheets and between these main glass sheets extends a single functional level. In this training can
Lighting means integrated between the two main glass panels and provided for laterally feeding light between the main glass panels in a plate edge of the plate member. Said lighting means may have so-called fluorescent lamps or energy-saving lamps. According to a preferred embodiment, the illumination means comprise one or more light-emitting diodes, in particular in the form of a light-emitting diode strip. Said lamps are arranged at the edge of the glass composite between the main glass panels and emit light in the areas between the main glass panels. The light is thus radiated laterally (edge) and exits 10 surface over the surfaces (front and / or back surface) of the plate elements again. In such a illuminated plate element, the module or modules is illuminated with this light. At the same time this light can be used for room lighting for the environment of the glass composite.
According to a further embodiment, the glass composite adjacent to one of the main glass panels, in particular that main glass panel facing a rear side of the module, is provided with an illumination layer running in a plane parallel to said main glass panel and sandwiched between said main glass panel and a third main glass panel having light-conducting lighting panel. This has the advantage that the respective 20 lighting glass panel can be fully illuminated. In the event that the illumination glass panels are arranged in front of the module, the entire module appears in the respectively selected color of the light. However, the color can also be chosen by the color of the lighting glass panel. In the event that the lighting glass panel is arranged behind the module 25, that is, the module is mounted in the viewing direction in front of the lighting glass panel, the module appears illuminated from the background. The lighting glass panel can illuminate both the area in front of the glass composite and the area behind the glass composite with a light of the same color. According to a further aspect of the invention, the glass composite has adjacent to one of the main glass panels, in particular that main glass panel facing a rear side of the module, a color layer extending in a plane parallel to said main glass panel and between said main glass panel and another main glass panel embedded a color chart 35 has. The additional color chart allows the provision of additional
-8- optical functions, such as: privacy of e.g. at the back to visually hide the module or other elements of the glass composite; Sunscreen; When the color plane is illuminated from within the glass composite, it can also be used to achieve color effects, such as behind the glass composite, a different light color than before the glass composite. Consequently, the glass composite has a light disk (lighting panel) arranged relative to the retaining pane (main glass panel), the light pane being formed from light-conducting material. The mounting plate is illuminated by light feeds on at least one edge side edge of the light panel and light emission over their surface facing the mounting plate, wherein a spacer material is provided areally between the mounting plate and the light-emitting pane having a different refractive index of the color wheel (color chart) refractive index. As a result of the illuminability thus achieved, the technical elements or modules in different applications can assume or develop the optical and / or visual functions described above. The light-emitting pane above forms a lighting fixture which produces an ambient light which radiates over the glass composite, so to speak illuminates the surroundings of the glass composite.
According to a further aspect of the invention, the light-emitting diodes, preferably the light-emitting diode strip, are arranged on the right and / or left and / or upper edge of the glass composite. It is thus possible to achieve direction-dependent light impressions or a homogeneous illumination, ie a direction-independent illumination. The individual light-emitting diode strips can also be supplied with power at different times and can thus achieve light-dynamic effects.
According to another aspect of the invention, the illumination means are thermally coupled to the spacer. The illumination means are located in relation to the outer edge of the glass composite within the spacer and produce there heat. The thermal coupling is particularly advantageous if the spacers consist of a thermally highly conductive material, in particular a metal (for example aluminum) or an alloy. The thermal coupling of the illumination means and spacers realizes a heat sink with the aid of which the heat generated by the illumination means can be efficiently transported out of the glass composite. The thermal coupling can be achieved by close contact
9-
the parts together, e.g. Bonding together or done with the help of a thermal paste, etc. In the event that the illumination means are arranged in the same plane as the module, said heat sink can also be used to dissipate heat 5, which is generated by the operation of the module in the glass composite.
It has proven to be particularly advantageous if the spacer is realized in the form of a hollow profile, so that the largest possible surface is available for cooling. 10
According to a preferred embodiment, the
Lighting means a Leuchtdfondenleiste having a board with light-emitting diodes attached thereto. The board serves as a heat sink for heat dissipation.
Such a glass composite can be produced as follows. First, the main gypsum panels are made and provided and framed with appropriate positioning and limiting members (spacers, corner members, elastic edge member). The rear main glass panel is laid flat. On this main glass panel, the respective plate member and the module inserted in the recess are laid and the module is connected to the electric wires (e.g., power supply lines). Thereafter, the 20 main front glass panel is placed on the primary seal. Accordingly, at least one glassy plate element is arranged between two main glass sheets, wherein the at least one sheet element defines a recess adapted to the size of the module, and arranging said module in said recess. As already mentioned, the sheet element can also be made in several parts be. In this case, the module can be inserted into the recess bounded by two or more plate elements.
Optionally, lighting means may also be included in the glass composite, which are integrated between main glass panels and which are formed for the lateral supply of light between the main gypsum panels. The integration of the illumination means can take place in the plane of the module or in a plane adjacent thereto. The illumination means are thermally coupled as mentioned above with the spacer located further outward with respect to the center of the gas composite for achieving the aforementioned effects.
The assembled glass composite can now be set up and the electrical module put into operation. The elements that frame the panel or panels together with the module serve essentially three functions, namely spacing and resilient support, defining a spacing of the panel from the edges of the glass composite, and sealing of the glass composite. This protects the electrical module from moisture and other environmental influences.
In summary, the invention discloses a technical method by which technical modules such as monitors, displays, sensors can be inserted into the glass 10 and at the same time ensure their illumination and that of the glass surface. For this purpose, according to the invention in a glass composite plate-shaped, for example, acrylic glass elements provided, the omissions according to the needs of various technical parts (modules) and their wiring can accommodate and at the same time form a holder for these 15 technical parts. The integration of Leuchtmittein these illuminated in the glass composite plate elements and their integrated modules can be illuminated. The technical modules thus integrated into the glass composite give the impression that they are simply held in the glass without any mounting brackets. The position, position and orientation of the 20 modules can be defined very precisely by the precise machinability of the plate elements or the plate element. The expected heat development during operation is taken into account by an appropriate distance from the glass plates. In addition, the heat dissipation from the light sources, such as the light emitting diodes, through specially designed board 25 (printed circuit board) via the spacer, which is thermally coupled to the board, passed out of the interior of the glass composite to the outside.
The special arrangement of the modules in the recess of the plate element allows a snug fit recording of the technical modules and fixes them in a reliable way and catfish. With regard to the power and data transmission cables, it should be mentioned that they can not be visually integrated into the glass composite, not only via conventional cables, but also through optically designed, almost invisible cables or materials. 35
FIGURE DESCRIPTION 5 10 15
The invention will be explained in more detail below with reference to the accompanying figures with reference to an embodiment, to which the invention is not limited. The same components are provided with identical reference numerals in the various figures. They show in a schematic way:
1 shows a glass composite according to a first embodiment of the invention;
FIG. 2 is a sectional view through the glass composite according to FIG. 1; FIG. Fig. 3 a module and two provided for receiving the module frame glass panels detached from each other;
FIG. 4 shows the elements according to FIG. 3 in the assembled state; FIG.
Hg. 5 conduit means according to a first embodiment;
Fig. 6 conduit means according to a second embodiment;
7 shows a detail of the glass composite according to FIG. 1 with lighting means n;
Fig. 8 - 10 further embodiments of the invention. DESCRIPTION OF EXEMPLARY EMBODIMENTS FIG. 1 shows a glass composite 1, which is a first
Main glass panel 2 as a windshield and a second main glass panel 3 has as a central disk. Between the first and the second main glass panel 2, 3, a functional level or module layer 26 is arranged. In this module layer 26 four different modules 4 are integrated, such as the uppermost than 25 display unit, the two middle as the input unit and the bottom right as a sensor unit. Behind the second main glass panel 3, a lighting layer 27 and a third main glass panel 22 connected in parallel thereto are provided as a rear wall. The illumination layer 27 serves to illuminate the rear of the module layer 26 or the modules 4 then accommodated. The module layer 26 and the illumination layer 27 are provided in the region of their corners with electrical connections 12, which in the present case are designed as cables.
FIG. 2 shows a sectional view along the sectional plane A-A shown in FIG. 1, in which further details of the glass composite 35 1 are visible. An arrow 31 shows a viewing direction on the glass composite
-12- 1 on. Between the three main gypsum panels 2, 3, 22, at least two upper modules 4 can be seen in cross-section in the sectional plane A-A. It can also be seen clearly that the plate element 5 has a recess 6 adapted to the shape of the respective module 4, in which the module 4 is accommodated.
In the present case, the plate element 5 is formed by a single frame glass panel 7, which has 4 corresponding recesses 6 according to the number of modules. Between the main glass sheets 2, 3, 22 spacers 9 are inserted at the edge, which define the distance of the main glass sheets 2, 3, 22 to each other such that a gap 10 between the main glass sheets 2, 3, 22 and the module 4 and the plate member 5 is formed so that the heat development to be expected in the module 4 can be dissipated via the air between the module 4 and the plate element 5 on the one hand and the respective main glass plate 2, 3, 22 on the other hand. The spacer 9 is in turn embedded in a primary seal 28 in the direction of the main slide panels 2, 3, 22. Outside the spacer 9 is a secondary seal 29 which abschiießt on its outer side flush with the outer edge of the Hauptgiastafeln 2, 3, 22. Within the spacer 9, at least in the functional plane of the modules 4, that is to say the module layer 26, an elastic edge element 30 in the form of a Sillcon tube is provided, which surrounds the plate element 5 essentially completely peripherally.
Also in the illumination layer 27 said spacer 9 is embedded in said primary seal 28 is present. Likewise, the secondary seal 29 is located outside of the spacer 9. In contrast to the module layer 26, in which the elastic edge element 30 encloses the entire circumference, in the illumination layer 27 the elastic edge element 30 is formed only on the left, right and lower edges. At the upper edge, a light-emitting diode strip 24 having a number of light-emitting diodes 23 is arranged between a moistening panel or illumination panel 21 and the upper spacer 9. The lighting panel 21, together with the light-emitting diode strip 24, realizes stockpiles of lighting means 19 which serve to illuminate the module layer 26 or the modules 4 accommodated in the module layer 26. In the present case, the illumination means 19 are embedded between the second main glass panel 3 and the third main glass panel 22. The light-emitting diodes 23 of the light-emitting diode strip 24 are peripherally attached to the glass composite 1 between the second main glass sheet 3 and the third main glass sheet 22
arranged and radiate light in the areas between the main glass panels 3 and 22, which propagates along the lighting panel 21. The light exits the illumination panel 21 via its front side facing the modules 4 and thus illuminates the modules 4 from behind and shimmers between them 5. The light exits the illumination disk 21 via its rear side oriented parallel to the front side and illuminates the space behind the glass composite 1 there.
FIG. 3 shows a plate element 5 according to a further exemplary embodiment of the invention. This plate element 5 has 10 two frame glass panels 7. In the present case, the lower left frame glass panel 7 has a recess in a shape which allows the module 4 to be completely received at its left and lower edges. In the assembled state, the three elements, namely the two frame glass panels 7 and the module 4 are arranged as shown in FIG. For reasons of clarity, in FIG. 4
Gaps between the elements 5 and 7 are shown, which do not occur in reality because of the exact fit of the recesses of the individual frame glass panels 7 to the contour of the module 4 to this extent or not at all. For a viewer of a real education, it seems as if the elements merge seamlessly into one another.
In the present case, the focus is directed to conduit means 11 which are formed in the lower left frame glass panel 7 in the form of a bore 13 with an electrical line 14 received therein 25, the line 14 is electrically connected to the module 4 is. The electrical line 14 is connected to the module 4 fixed or separable by means of connectors, not shown.
FIG. 6 shows a further exemplary embodiment of the line means 11, which in the present case are formed on edges of the frame glass panel 7 arranged on the bottom left in the form of linear or area-like first conductor tracks 15. The conduit means 11 are contacted by placing the module 4.
Not shown in detail is the fact that the spacer is a part of the conduit means 11 and partially has electrically conductive structures, in particular in the form of cable, line or area-like
Second conduction paths 16, which are electrically conductively connected to the first conduction paths 15.
FIG. 7 shows a detail of the area of the illumination layer 27 located at the top right. There illumination means 19 are visualized, which are realized by a light-emitting diode strip 24 having a number of light-emitting diodes 23 mounted on a circuit board 32. The board 32 is thermally coupled to the spacer 9. Between adjacent spacers 9, a connecting corner element 17 is shown. The Eckeiement 17 has a passage 18, in which a cable is used as the electrical connection 12, with the light-emitting diode bar 24 is connected to the environment of the glass composite 1. FIG. 8 shows a glass composite 1 with a single plane between the main gas branches 2 and 3, whereby here also the lighting function is integrated in the upper part.
In the figure 9 is in the direction of the back of the module 4, a fourth main glass panel 33 and wipe the main glass panels 3 and 33, a color chart 34 integrated. With their help, the back of the glass composite 1 appears in a different light color than the front.
Finally, in FIG. 10, the configuration shown in FIG. 1 is extended by said fourth main glass panel 33 and said color panel 34.
It is finally pointed out once again that the figures described in detail above are only exemplary embodiments which can be modified by the person skilled in many different ways without departing from the scope of the invention. For the sake of completeness, it is also pointed out that the use of the indefinite article "a " or "a " does not exclude that the characteristics in question can also be present several times. -15- REFERENCE LIST 18 Execution 19 Lighting means 1 Glass composite 20 not used 2 First main glass panel 21 Illumination panel 3 Second main glass panel 22 Third main glass panel 4 Module 23 Light emitting diode 5 Panel member 24 Light emitting diode bar 6 Recess 25 not used 7 Frame glass panel 26 Modular layer 8 Not used 27 Illumination layer 9 Spacer 28 Primary seal 10 gap (distance) 29 secondary seal 11 line means 30 elastic edge element 12 electrical connections 31 arrow 13 bore, notch, groove, etc. (viewing direction) 14 line 32 board 15 first line paths 33 (further) fourth 16 second line paths main glass panel 17 corner elements 34 color chart

权利要求:
Claims (14)
[1]
-16-

CLAIMS 1. Glass composite (1) comprising - at least a first main glass sheet (2) and a wide main glass sheet (3) at 5 spaced apart localized and - at least one technical module (4), which is arranged between the two main glass sheets, and - at least one plate element (5) located between the main glass panels (2, 3), wherein the plate element delimits a recess (6) adapted to the shape of the module, in which recess (6) the module (4) is accommodated.
[2]
2. Glass composite (1) according to claim 1, wherein the plate element (5) is formed at least in two parts and the two parts in the plane between the 15 skin glass panels (2, 3) adjoin module edges.
[3]
3. Gias composite (1) according to any one of the preceding claims, wherein the module (4) is selected from a group of the following elements: display unit, input unit, sensor unit, photovoltaic panel, flow and 20 or data-carrying and / or data-recording device, in particular Camera.
[4]
4. Glass composite (1) according to any one of the preceding claims, wherein at least one of the main glass sheets (2, 3) and the module (4) by means of a spacer 25 (9) are arranged at a distance (10) to each other that a cooling of the module (4) is guaranteed.
[5]
5. glass composite (1) according to one of the preceding claims, wherein adjacent to one of the main glass panels (2, 3), in particular those 30 main glass panels (3), which faces a rear side of the module (4), a lighting layer is provided which in a plane parallel to said main glass panel (2, 3) and between said main glass panel (2, 3) and a third main glass panel (22) has an embedded photoconductive lighting panel (21). 35


[6]
6. Glass composite (1) according to one of the preceding claims, wherein adjacent to one of the main glass panels (2, 3; 22), in particular that main glass panel (3; 22) which faces a rear side of the module (4), a color layer is provided which is in a plane parallel to said main glass panel 5 (2, 3, 22) and embedded between said main glass panel (2, 3, 22) and another main glass panel (33) has a color chart (34).
[7]
7. Glass composite (1) according to one of the preceding claims, wherein conduit means (11) are provided, which are provided for the electrically conductive connection 10 of the electrical connections (12) of the module (4) with the environment of the Giasverbunds (1), wherein the Conduction means (11) - in the plate member (5) has a bore or notch or groove (13) and an electrical line (14) received therein and / or - at the edges of the plate member (5) extending and there linear or 15 surface-like first Conductor paths (15) and / or - between the main glass panels (2, 3) at the edge spacers (9) are used, which define the distance of the main glass panels (2, 3) to each other, wherein the spacer (9) is a part of the conduit means (11 ) is and partially electrically conductive structures, in particular in the form of cable, line or line-like second conductive paths (16), and / or wherein corner elements (17) between the spacers (9) form part of the conduit means (11) and have an electrically conductive passage (18) for electrically connecting the module (4) to the surroundings of the glass composite (1). 25
[8]
8. Glass composite (1) according to one of the preceding claims, wherein lighting means (19) between two main glass sheets (2, 3, 3, 22) are integrated and for the lateral supply of light between the main glass sheets (2, 3, 3, 22) and the illumination means (19) are thermally coupled to a spacer (9).
[9]
9. glass composite (1) according to claim 8, wherein the illumination means (19) a r 'light-emitting diode strip (24) comprising a board (32) with light-emitting diodes (23) attached thereto and the board (32) serves as a heat sink. 35

-ίδ ιο. Method for producing a glass composite (1) comprising the method steps - arranging at least one plate element (5) between two main glass sheets (2, 3), wherein the sheet element (5) has a recess (6) adapted to the size of a technical module (4) ), and - arranging said module (4) in said recess.
[10]
11. The method according to claim 10, wherein the plate element (5) is formed at least in two parts and in arranging the parts of the plate member 10 (5) are aligned so that in the plane between the main glass sheets (2, 3) module edges to the edges of the plate Parts of the plate element (5) adjoin.
[11]
12. The method according to any one of the preceding claims 10 to 11, wherein 15 between the main glass sheets (2, 3) edge spacers (9) are used, so that at least one of the distance of the main glass sheets (2, 3) and the module (4) by means the spacers (9) are arranged at a distance (10) from one another such that cooling of the module (4) is ensured
[12]
13. The method according to any one of claims 10 to 12, wherein adjacent to one of the Hauptgiastafeln (2, 3), in particular those Hauptgiastafle (3), which faces a rear side of the module (4), a lighting layer is arranged, in a plane extending parallel to said main glass panel (2, 3) and between said main glass panel (2, 3) and a third main glass panel (22) 25 has an imichticht Iichtleitende lighting panel (21).
[13]
14. The method according to any one of claims 10 to 13, wherein adjacent to one of the main glass panels (2, 3; 22), in particular that main glass panel (3; 22) which faces a rear side of the module (4), a color layer is arranged, 30 is in a plane parallel to said main glass panel (2, 3, 22) and embedded between said main glass panel (2, 3, 22) and another main glass panel (33) has a color chart (34).
[14]
15. The method according to any one of the preceding claims 10 to 14, wherein 35 lighting means (19) between the main glass panels (2, 3, 3, 22) integrated



are formed for the lateral supply of light between the main glass panels (2, 3), and the illumination means (19) with the spacer (9) are thermally coupled. 5

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DE202018104105U1|2018-07-30|Vehicle light assembly with improved heat dissipation

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EP2388510A2|2011-11-23|Lighting element

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EP2834080B1|2021-12-29|Composite glass with functional element

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DE102011089266A1|2013-06-20|Display with an electro-optical display module

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DE102015218610A1|2017-03-30|Illuminated display with transparent base

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DE202014105232U1|2014-12-17|presentation element

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AT11503U1|2010-11-15|LIGHTING BODY WITH REDUCED COMPONENT NUMBER

同族专利:

---

公开号 | 公开日

---

RU2612568C2|2017-03-09|

---

AT512741B1|2014-05-15|

---

AU2013243210A1|2014-10-30|

---

US9462687B2|2016-10-04|

---

RU2014144318A|2016-05-27|

---

CN104334365A|2015-02-04|

---

US20150305148A1|2015-10-22|

---

AU2013243210A9|2016-06-02|

---

KR20140144260A|2014-12-18|

---

EP2834080A1|2015-02-11|

---

CN104334365B|2018-10-02|

---

JP6162213B2|2017-07-12|

---

AU2013243210B2|2016-08-11|

---

EP2834080B1|2021-12-29|

---

WO2013149274A1|2013-10-10|

---

US20160363836A1|2016-12-15|

---

JP2015519220A|2015-07-09|

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法律状态:

优先权:

---

申请号 | 申请日 | 专利标题

---

ATA50118/2012A|AT512741B1|2012-04-02|2012-04-02|Glass composite with functional element|ATA50118/2012A| AT512741B1|2012-04-02|2012-04-02|Glass composite with functional element|

---

JP2015503711A| JP6162213B2|2012-04-02|2013-04-02|Glass composite with functional elements|

---

EP13716165.9A| EP2834080B1|2012-04-02|2013-04-02|Composite glass with functional element|

---

US14/389,816| US9462687B2|2012-04-02|2013-04-02|Glass composite with functional element|

---

RU2014144318A| RU2612568C2|2012-04-02|2013-04-02|Multilayer glass with functional element|

---

PCT/AT2013/000054| WO2013149274A1|2012-04-02|2013-04-02|Glass composite with functional element|

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KR1020147030678A| KR20140144260A|2012-04-02|2013-04-02|Glass composite with functional element|

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CN201380026997.1A| CN104334365B|2012-04-02|2013-04-02|Glass composite members including function element|

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AU2013243210A| AU2013243210B2|2012-04-02|2013-04-02|Glass composite with functional element|

---

US15/248,137| US20160363836A1|2012-04-02|2016-08-26|Glass composite with functional element|