FOR THE WAY SUITABLE DISC

专利摘要:
The invention relates to a lens (1) of glass or plastic suitable for viewing, on which mirroring patterns (2) are provided for advertising purposes, wherein the disc (1) is designed as a composite of several individual discs (3, 4) and on each of the individual discs (3, 4) one or more mirrored areas (5, 6) are provided, and a method for producing the disc (1) according to the invention.
公开号:AT511012A1
申请号:T68/2011
申请日:2011-01-18
公开日:2012-08-15
发明作者:Josef Schauer
申请人:Josef Schauer；
IPC主号:

专利说明:

«t« ί
»» * I * * * * »« «« «* * *« # * · * Ψ * Ψ 1 49949 Ag / FI Josef Schauer
For viewing suitable disc
The invention relates to a suitable for viewing glass or plastic disc, are provided on the Verspiegelungsmuster for promotional purposes.
It is known from the state of the art to apply reflective layers to optical disks such as glass or plastic spectacle lenses. These mirroring layers are achieved by vapor deposition of interference layers in a vacuum. By selecting the thickness of the deposited interference layer and the deposited material, amplifying interference may occur, causing a mirror effect. By different thicknesses of the interference layers different reflection colors can be achieved. For various applications, in particular advertising, it is desirable to provide mirrored surfaces with patterns, symbols, inscriptions and the like. These arrangements should have little effect on the view, while on the mirrored side of the mirror effect should clearly recognize the desired sampling.
Areas of application include, for example, sunglasses, eye glasses, protective glasses, shields on helmets, protective helmets, goggles, discs and foils of all kinds, which are located in the facial area in front of the eyes. Thus, e.g. Advertising in this area are shown before the eyes, which in particular for advertising in TV and film, for example at sports events, may be of interest.
Examples of metallic mirroring materials are lead, zinc, silver, gold, or aluminum. These are higher-refracting materials that can be used to • • * * * * * * * * * * * * * 4 * · · »* ··· * · • · * mmmt · * * ·· * * · * * # · * ·
H. 41949 Ag / FI
Josef Schauer beam distract more than the material of the disc. The mirroring material can be covered by a transparent protective layer.
From AT 505 720 B1, glass or plastic sheets suitable for viewing are known which, on their surface remote from the eye, have adjacent areas of different colors or intensities of reflection, forming one or more pattern surfaces. In this case, the term 'eyes turned away' the side of the disc, which faces away from the eyes of the wearer. The pattern surfaces of the mirrored areas make it possible to represent any mirrored patterns on the pane which are visible from the side of the pane facing away from the eye, that is, in particular from a viewer.
A problem with these discs is that when looking through the disc the wearer perceives the applied mirrored areas as annoying. The application of a tinting layer or an antireflection coating on the outside of the pane, as proposed in AT 505 720 B1, does not provide a complete remedy in this regard. A use of such discs is therefore problematic in safety-critical applications.
The technical object of the present invention is therefore to provide an improved disc with mirrored areas, in which on the one hand clear from the eye-facing side, the mirrored areas are recognizable, and on the other hand from the eye-facing side no disturbances of the view. The disc should be easy and simple to manufacture and particularly suitable for safety-critical applications.
This technical object is achieved in that the disc is designed as a composite of several individual slices, wherein one or more mirrored areas are provided on each of the individual slices.
The carrier of the disc, which is located on the side facing the disc, looks through the composite and thus through all mirrored areas. However, the observer, who is on the side of the disc facing away from the eye, only notices the mirrored area on the side of the outermost individual disc which is remote from the eye. The Carrier and Viewer • * Φ Φ Φ φ »I * * Φ φ« ··· * * * · φ «·« ··· φ φ Φ • φ * «·« Φ * «Φ Φ ** * Φ * ΦΦ * * * φ ·
3 49949 Ag. FI
Thus, spectators see different patterns: the wearer sees a superposition of all mirrored areas, the observer sees only the outermost mirrored area. By providing a mirrored area on one of the internal individual panes, which is the negative image of the mirrored area mounted on the outermost individual pane, it is achieved that the carrier experiences virtually no inhomogeneities when looking through. Thus, the task of the invention is achieved.
According to the invention, it is provided that the mirrored areas of the individual panes do not overlap and their combination covers the entire viewing area of the pane.
In particular, the pane may be a) composite of a first single pane with a first mirrored area and a second single pane with a second mirrored area, wherein the second mirrored area is the negative image of the first mirrored area.
Furthermore, it can be provided that the mirrored areas are each located on the sides of the individual panes facing away from the eyes. At least one of the individual panes can have on one side a full-surface mirroring layer or anti-reflection layer. Correspondingly, at least one of the individual panes can also have on their side facing the eye a full-surface mirroring layer or anti-reflection layer.
According to the invention, it is provided that the individual disks are glued, fused or cemented together. Furthermore, it can be provided according to the invention that the mirrored areas differ in their mirroring color and / or mirroring intensity from the individual panes or stand out.
The individual slices can have over their entire surface reflective layers on their sides facing the eyes, the intensity of which is preferably at most 50% of the intensity of the mirroring of the mirrored areas.
Furthermore, it can be provided that the individual panes are tinted and / or have a tinting layer under the mirrored areas. Such a
* * • * * * * * * f 4 49949 Ag. In particular, FI Josef Schauer coating has the advantage that the mirroring is more effective (better reflected) compared to a non-tinted glass.
One or more of the mirroring layers, anti-reflection layers or tint layers may further contain fluorescent substances to improve the mirror effect.
In particular, the first individual disc may have on its side facing away from the eyes a first mirrored area with 70% intensity and on its side facing a full-surface anti-reflection layer, and the second single disc on its side facing away from the eyes a second mirrored area with 70% intensity and on its side facing a full-surface Have mirroring layer with 70% intensity.
The invention further extends to a method for producing mirrored glass or plastic panes comprising the steps of:
Applying a mask on the eye-facing surface of a first single disc;
Applying a mirroring layer on the side facing away from the eye of the first single pane; Removal of the mask;
If necessary, repeat the last three steps with other masks; Optionally, applying a full-surface anti-reflection layer on the side facing the eye of the first single pane;
Applying a mask on the eye-facing surface of a second single disc;
Applying a mirroring layer on the eye-facing surface of the second single disc;
Removal of the mask;
If necessary, repeat the last three steps;
Optionally, applying a full-surface mirroring layer on the side facing the eye of the second individual disc;
Connection of the first single disc with the second single disc by means of gluing, fusing or cementing. * * * T I * * * * * * * * * * * * * + ··· · ##
5 49949 Ag / H
Josef Schauer
Optionally, one or more tinting layers may be applied prior to applying the mirroring layers or antireflection layers.
Further features according to the invention can be found in the description, the drawings and the claims.
The invention will now be described in more detail with reference to Ausführungsbeispieien in the following figures. Show it
Fig. 1: a schematic three-dimensional view of an inventive
Embodiment of the disc;
Fig. 2: a schematic cross section through the imple mentation from the invention on Fig. 1;
3 shows a schematic plan view of the two individual disks of an embodiment of the disk according to the invention;
4 shows a schematic cross section through the invention A zelscheiben from Fig, 3;
5a-5b: a schematic flow diagram of an embodiment of the method according to the invention.
1 shows a schematic three-dimensional view of an embodiment of the pane 1 according to the invention. On the side 13 of the pane 1 facing away from the eye, a reflective pattern 2, for example a logo or an advertising message, is formed by a first mirrored area 5. The disc 1 comprises a first single disc 3 and a second single disc 4, wherein the two discs are connected together as a composite, for example glued, welded or cemented.
FIG. 2 shows the pane 1 from FIG. 1 along the section line II-II. The pane 1 comprises a first individual pane 3 and a second individual pane 4, which form a composite with one another. On the side facing away from the eye 13 of the first single disc
49949 Ag / Ft Josef Schauer 3 is a first mirrored area 5 is formed. Also located on the side facing away from the eye of the second individual disc 4 is a second mirrored area 6. A carrier of the disc 1 is located on the side 12 facing the side of the second individual disc 4 and looks through both individual discs 3, 4. He thus noticed at-5 de mirrored areas 5, 6. An observer of the disc 1 is located on the side 11 facing away from the eye of the first individual disc 3 and only notices the first mirrored region 5.
3 shows a schematic plan view of the two individual disks 3, 4 of an embodiment of the disk 1 according to the invention. In this case, the mirrored areas 5 and 6 are designed in such a way that their combination yields exactly the viewing surface of the disk 1. In other words, the second mirrored area 6 is the negative of the first mirrored area 5. Of course, more than two individual slices can be provided, wherein the superposition of all more mirrored areas give the viewing surface of the disc.
4 shows a schematic cross section through the individual disks 3, 4 according to the invention from FIG. 3, the individual disks having been separated for reasons of clarity. The first individual disk 3 has a first mirrored region 5 on its side 13 facing the eye and an antireflection coating 8 on its side 12 facing the eye. The second individual disk 4 likewise has a first mirrored region 6 on its side facing away from the eye 13, and a tinting layer 9 on its side 12 facing the eye. FIGS. 5a and 5b show a schematic flow diagram of an embodiment of the method according to the invention. 5a shows the application of a mask 11 on the surface of a first individual disk 3 remote from the eye, the application of a first mirroring layer 7 on the side of the first individual disk 3 facing away from the eye; the removal of the mask; and applying a full-surface anti-reflection coating 8 on the facing side of the first single pane.
Fig. 5b shows the application of a mask 11 on the eye-facing surface of a second single disc 4; the application of a second mirroring layer 7 on the eye-facing surface of the second individual disc 4; the distance of the • ♦ # * * * • φ φ 7 49949 Ag / f'l Josef Schauei '
Mask 11; and the application of a full-surface mirroring layer 7 on the facing side of the second individual disc 4th
The last method step, the connection of the first individual disc 3 with the second individual disc 4 by means of gluing, fusing or cementing, is not shown in this figure. 11 11 49949 Ag / FI Josef Schauer
LIST OF REFERENCES 1 pane 2 mirroring pattern 3 first individual pane 4 second individual pane 5 first mirrored area 6 second mirrored area 7 mirroring layer 8 antireflection layer 9 tinting layer 10 fluorescent substances 11 mask 12 eye-facing side / carrier side 13 eye-side / viewer side

权利要求:
Claims (14)
[1]
49949 Ag / Fl loset'Schauer ** I · »· · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · 1 for glass or plastic, on which Verspiegelungsmuster (2) are provided for advertising purposes, characterized in that the disc (1) as a composite of a plurality of individual panes (3 4), wherein one or more mirrored areas (5, 6) are provided on each of the individual panes (3, 4).
[2]
2. Disc according to claim 1, characterized in that the mirrored areas (5, 6) of the individual discs (3, 4) do not overlap and their association covers the entire viewing area of the disc (1).
[3]
3. Disc according to claim 1 or 2, characterized in that the disc (1) as a composite of a first single disc (3) with a first mirrored area (5) and a second single disc (4) with a second mirrored area (6) wherein the second mirrored region (6) is the negative image of the first mirrored region (6).
[4]
4. Disc according to one of claims 1 to 3, characterized in that the mirrored areas (5,6) respectively on the opposite sides of the individual discs (3, 4) are located.
[5]
5. Disc according to one of claims 1 to 4, characterized in that at least one of the individual discs (3, 4) on one side has a full-surface Verspiegelungsschicht (7) or anti-reflection layer (8).
[6]
6. Disc according to one of claims 1 to 5, characterized in that at least one of the individual discs (3, 4) on its side facing the side of a full-surface Verspiegelungsschicht (7) or anti-reflection layer (8).
[7]
7. Disc according to one of claims 1 to 6, characterized in that the individual discs (3, 4) are glued together, fused or cemented. * * * * * * * * * * * '* · *, * # ** ··· ι «* ··· * ·« «« ι • * M i · IM * «« «« 9 49949 AgfKI Josef Schauer
[8]
8. Disc according to one of claims 1 to 7, characterized in that the mirrored regions (5, 6) differ in their mirroring color and / or Verspiegelungsintensität of the individual discs (3, 4).
[9]
9. Disc according to one of claims 1 to 8, characterized in that the individual discs (3, 4) on their sides facing sides over the entire surface Verspiegelungsschichten (7) which is at most 50% of the intensity of the mirroring of the mirrored areas (5, 6) ,
[10]
10. Disc according to one of claims 1 to 9, characterized in that the individual discs (3, 4) are tinted and / or a tinting layer (9) under the mirrored areas (5,6).
[11]
11. A pane according to any one of claims 1 to 10, characterized in that one or more of the Verspiegelungsschichten (7), anti-reflection layers (8) or Tönungsschichten (9) contain fluorescent substances (10).
[12]
12. Disc according to one of claims 3 to 11, characterized in that the first individual disc (3) on its side facing away from the eye a first mirrored area (5) with 70% intensity and on its side facing the eye a full-surface anti-reflection layer (8), and the second individual disc (4) has on its side facing away from the eye a second mirrored region (6) with 70% intensity and on its side facing the eye a full-surface mirroring layer (7) with 70% intensity.
[13]
13. A method for producing mirrored glass or plastic discs, characterized in that it comprises the following steps: a. Applying a mask (11) on the eye-facing surface of a first single disc (3); b. Applying a mirroring layer (7) on the side facing away from the eye of the first single disc (3); c. Removal of the mask (11); d. If necessary, repeating steps a) - c) with other masks; • «« * * ♦ * * · · ································································································································································································································· Optionally applying a complete-area antireflection coating (8) on the side facing the eye of the first individual disc (3) f) applying a mask (11) on the eye-remote area of a second individual disc (4) g. Applying a coating layer (7) on the surface facing away from the eye h) removal of the mask (11); i, if necessary, repetition of steps f) -h); j. Optionally, applying a full-surface mirroring layer (7) on the side facing the eye of the second individual disc (4); k. Connection of the first single disc (3) with the second single disc (4) by means of gluing, fusing or cementing.
[14]
14. The method according to claim 13, characterized in that one or more Tönungsschichten (9) are applied before applying the Verspiegelungsschichten (7) or anti-reflection layers (8).

rdfef & partner

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法律状态:
2017-09-15| PC| Change of the owner|Owner name: INVISILUX GMBH, DE Effective date: 20170724 |

优先权:

---

申请号 | 申请日 | 专利标题

---

ATA68/2011A|AT511012B1|2011-01-18|2011-01-18|FOR THE WAY SUITABLE DISC|ATA68/2011A| AT511012B1|2011-01-18|2011-01-18|FOR THE WAY SUITABLE DISC|

---

US13/980,141| US9494806B2|2011-01-18|2012-01-18|Transparent disk with mirrored surface|

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DK12700680T| DK2666054T3|2011-01-18|2012-01-18|Transparent dial with mirror coating|

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PCT/EP2012/050684| WO2012098144A1|2011-01-18|2012-01-18|Transparent disk with reflective surface|

---

EP12700680.7A| EP2666054B1|2011-01-18|2012-01-18|Mirrored transparent disc|

---

ES12700680T| ES2759024T3|2011-01-18|2012-01-18|Transparent disc with mirror coating|