奥地利专利AT512168A4 MARKING PROJECTOR

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专利摘要:
A marker projector (1), in particular a building projector, with at least one light-generating device (2) and at least one light-out device (3) for coupling at least part of the light generated by the at least one light-generating device (2) from the marker projector (1), the at least one At least a portion of the at least one beam path between the at least one light generating device (2) and the at least one light outcoupling device (3) through one on the surface of a planar light emitting device (3) Substrate (4) hardened, liquid or gel-like light guide (5) extends.
公开号:AT512168A4
申请号:T119/2012
申请日:2012-01-30
公开日:2013-06-15
发明作者:Oliver Bertsch
申请人:Sola Messwerkzeuge Gmbh；
IPC主号:

专利说明:

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The invention relates to a marker projector, in particular a building projector, with at least one light-generating device and at least one light extraction device for coupling at least part of the light generated by the at least one light generating device from the marker projector, wherein the at least one light-out device connected via a radiation path with the at least one light generating device is.
For example, generic marker projectors are used to create one or more lines visible on a wall (or one or more points) or a grid. In order to achieve that the visible line is actually horizontal, the marker projectors may be provided with means to compensate for floor slant (for example, height-adjustable feet attached to the floor panel, pendulum suspension of the light-generating device or motorized adjustment of the light-generating device) and so on cause a vertical alignment of the marking projectors. Generic marker projectors can also be used to mark slopes, slopes, and the like.
If the marker projectors are designed for use on construction parts, this is also referred to as construction projectors.
Generic marking projectors are described, for example, in EP 1 759 172 B1 (relating to a scanner), CN 2 348 353 Y, EP 1 484 578 A1 and AT 506 924 A2.
In the prior art, the beam paths between the at least one light-generating device and the at least one Lichtauskoppiungseinrichtung free in the housing interior of the marker projector. In order to adjust the geometric properties of the light beam, various optical elements such as, for example, collimating lenses, converging lenses or diverging lenses are arranged in the beam path, whereby it is relatively difficult to correctly adjust the beam paths. In addition, there is a relatively large φ φ φ φ • φ
70674 36 / fr
Space requirement in the marker projector and thus the need for a relatively large housing of the marker projector.
The object of the invention is to develop a generic marker projector such that the beam path between the at least one light generating device and the at least one light extraction device can be made simpler and thus easier to adjust and more compact than in the prior art.
This object is achieved by a marker projector with the features of claim 1. Further advantageous embodiments of the invention are defined in the dependent claims.
By using a cured on the surface of a flat substrate, liquid or gel-like optical fiber for guiding the light beam between the light generating device and the light extraction means, the geometric properties of the light beam can be controlled in a simple manner. This results in a reduced adjustment effort.
In addition, due to the simple design of the beam path (ideally, this extends substantially completely in the light guide along the flat substrate), a reduced size of the marking projector according to the invention in comparison to the prior art.
Compared to a light guide in the form of a fiber optic cable, the use of the liquid or gel-like light guide hardened on the surface of a planar substrate has the advantage that a rigid substrate having predetermined and no longer changeable geometrical properties can be used, which is the factory calibration facilitates the beam path and eliminates deterioration in use on the site or the like. Alternatively, a flexible substrate can be used, which also has the advantages mentioned above by a suitable mechanical fixation. * * • «70674 36 / fr * * •« 70674 36 / fr t · «# · ♦ · • *» · · ·. • · 3 · · *
It should be noted that although the light guide is disposed on the surface of a substrate, it does not always have to be on the top surface of a component. In other words, for example, the substrate and / or the light guide could be coated with a protective layer.
Liquid or gel-like light guides hardened on the surface of a flat substrate for use in the invention, for example consisting of a UV-cured polymer, are known from the prior art (see, for example, EP 2 219 059 A2, EP 1 715 368 B1 , EP 0 990 931 B1, EP 0 911 658 B1, EP 1 312 948 B1, DE 197 32 506 A1). In this sense, the cured on the surface of a sheet substrate, liquid or gel-like light guide can also be referred to as a polymeric light guide.
Substrates provided with cured, liquid or gel-like optical conductors can be obtained, for example, from the company vario-optics ag, Mittelbissaustrasse 7, CH-9410 Heiden.
In the prior art, such optical fibers are mainly used in so-called electro-optical printed circuit boards and serve for data transmission with the aid of light. Since these electro-optical circuit boards are flat, often of planar optical waveguides (to delimit fiber optic cables) is mentioned.
In the context of the invention, the use can be carried out on substrates without electrical components, for example on bare printed circuit boards. In the case of the use of planar substrates, the light guides according to the invention can also be characterized as planar optical waveguides. The use of substrates which are bent at least in sections, but is not excluded in the invention. Rather, desired deflections of the beam path can be achieved in this way by the use of one or more appropriately curved planar substrates.
As already stated above, the flat substrate can be rigid or flexible. Very particularly preferred is an embodiment in which the planar substrate is partially rigid and partially flexible. The rigid portion may serve as a support of the light generating device and optionally the driving electronics of the light generating device. The flexible portion may be formed in the form of one or more fingers, which can be bent by the flexibility in any desired position, for example, to effect an orthogonal beam splitting can.
The light guides have, for example, a substantially rectangular cross-section, preferably in a range of approximately 10 to 55 μm, particularly preferably between 20 and 50 μm. Other geometries are of course possible, the dimensioning should be in the aforementioned ranges.
Mechanical alignment structures may be provided at the ends of the sheet substrate and optionally particularly the flexible sections, which allow passive mounting of the light generating device or more prone further optical elements. It is functionally an adjusting device before and / or after the waveguide for the light generating device, Einkoppelungs- or decoupling devices.
For example, a laser diode, a laser chip or an LED, each emitting particularly preferably in the red or green spectral range, may be used as the light-generating device.
The light extraction device may be designed in the form of means for deflecting, for fanning or expanding light, in particular in the form of a collimating lens, a pentaprism, a reflective convex or concave cone (see, for example, FIGS. 1 and 17 of US Pat. No. 4,111,564), but also more diffractive optical Elements. Alternatively, a simple window can be provided.
The number of light-generating devices and / or light-out devices may vary depending on the desired primary
• · * ν 70674 36 / fr
Purpose of the marker projector and / or the strength of the light-generating devices are chosen differently. Often marker projectors are used, which produce two or three orthogonally arranged light planes. It is relatively expensive if a separate light generating device is used for each light level. This can be avoided, for example, by using a single, strong enough light generating device in combination with multiple light extraction devices.
In principle, however, it is also within the scope of the invention to use two, three or more units each of a light-generating device and a light-out device. In this case, each light plane is therefore generated independently of the optionally existing light planes.
It is also conceivable, of course, in three light levels, the use of two-optionally weaker - light generating devices, wherein one of the two light generating devices is coupled to two light extraction devices. Whether only one or two light-generating devices are used, in both cases at least two light-out devices are provided, which are light-conductively connected to a light-generating device.
Especially in this case (but not only there) it may be advantageous if it is provided that at least part of the beam path between each of the at least two light extraction means and the light generating device passes through a common portion of the arranged on the surface of the sheet substrate light guide.
It can be provided that the light guide splits after the common section (main light guide) in leading to the at least two light extraction devices branches. ·· * · Μ »· · 70674 36 / fr» * · ♦ ·· »* ·· ♦ < »·« · «*» At ··
As an alternative or in addition, provision can also be made for two separate flat substrates with light guides arranged thereon to be arranged in at least one beam path. For example, two substrates could be arranged orthogonal to each other in the marker projector, with the optical path between the substrates passing over an optical redirecting element (for example 45 ° mirror).
The division of the light guide can be done in different ways. For example, it may be provided to start all the branches in one place. The simplest is the formation of straight branches, preferably with the same cross section of the main light guide and the branches.
Another variant is the use of curved branches, preferably also starting from a location.
For coupling the light generated by the at least one green generating device into the optical waveguide, a coupling-in optical system (for example, a converging lens) will usually be necessary in order to be able to achieve sufficient efficiency. In principle, however, a direct coupling without coupling optics is possible. In this case, the light-generating device must be placed as close as possible to the entrance of the light guide in order to couple as much light as possible. It is also conceivable, the light of a light generating device in two or three straight, separate optical fibers directly, d. H. to couple without using a coupling optics.
From the light guide, the light can directly, d. H. arrive without the use of a coupling optics for at least one light extraction device. Of course, corrective optical elements could also be provided here.
Further advantages and details of the invention will become apparent from the figures and the accompanying explanations. It shows: φ * φφ 4
4 # * 70674 36 / fr • · * * · φ • ·· * φ ·· ** · φ φ φ ΦΦ I »·
Fig. 1a Fig. 1b Fig. 1c Fig. 2a to 2c Fig. 3a to 3c Fig. 4a to 4c shows a marker projector in a schematic perspective view with partially broken away housing, an isolated view of the optical assembly including their storage, in Figure 1b 1 c shows a detail in three different views, a variant of the detail shown in FIG. 2 in various views, and a further detail of the representation of FIG. 1 c in one
Exploded view, a side view and a
Sectional view.
Figure 1 a shows schematically a marker projector 1 with partially broken housing. Only those components are shown which are of importance to the invention, namely an optical assembly 7, which is mounted on a bearing 6 gimbal in the housing of the marker projector 1. Instead of the cardanic bearing 6, as discussed in the introduction, other or no measures to compensate for a floor slope or the like can be taken.
As can be seen in particular from FIG. 1c, the optical assembly 7 is gimballed via an axle cross 8 of the bearing 6. The optical assembly 7 has a holder 9, on which the assemblies of the optical assembly 9 shown in more detail in the following figures are held.
Of particular importance is illustrated in Figures 2 and 3 in two different embodiments, on the surface of a sheet-like substrate 4 cured light guide. 5
In the variant of FIG. 2, the light guide 5 extends between a light-generating device 2 to form three branches 51, 52, 53
70674 36 / fr up to the light extraction devices not shown in Figure 2 3. The branches 51 and 53 are formed curved in Figure 2.
In contrast, in the variant of FIG. 3, all branches 51, 52, 53 are straight. The common section (main light guide) of the light guide 5 is longer than in FIG. 2.
In the variant of Figure 3, the sheet-like substrate 4 per se is completely flexible, but partially rigidly fixed by a stiffening element 14. Due to the flexible design of the planar substrate 4, it is possible to form the planar substrate 4 bent at least in sections, as shown by way of example for the planar substrate 4 in the region of the branch 52. After bending of the sheet-like substrate 4 in the flexible portion to the desired extent, the individual sections can also be fixed in their position by suitably formed stiffeners (not shown).
FIG. 4b shows a side view of the light extraction device 3, which is connected via a transparent window 10 and a sleeve 11 to a coupling-out optical system 12 and can be fastened to the holder 9 as a unit with the entire components. The light extraction device 3 is designed in this embodiment as a reflective cone.
FIG. 4c shows a sectional view of FIG. 4b along the line A-A.
Innsbruck, 25th January 2012

权利要求:
Claims (12)
[1]
1. A marking projector (1), in particular a building projector, with at least one light generating device (2) and at least one light extraction device (3) for decoupling at least part of the light generated by the at least one light-generating device (2) from the marker projector (1), the at least one light-out device (3) being light-conductively connected to the at least one light-generating device (2) via at least one light path, characterized in that at least part of the at least one beam path between the at least one light-generating device (2) and the at least one light-out device (3) extends through a liquid or gel-like light guide (5) hardened on the surface of a flat substrate (4).
[2]
2. Markierungsprojektor according to claim 1, characterized in that the planar substrate (4) is flat.
[3]
3. marker projector according to claim 1, characterized in that the planar substrate (4) is formed bent at least in sections.
[4]
4. marker projector according to one of claims 1 to 3, characterized in that the planar substrate (4) is at least partially rigid and partially flexible formed.
[5]
5. Marking projector according to one of claims 1 to 4, characterized in that at least two light extraction means (3) are provided, which are light-conductively connected to the at least one light generating device (2). 2 • Φ Φ Φ Φ Φ »Φ * Φ * Φ φ Φ * Φ Φ Φ

70674 36 / fr
[6]
Marking projector according to claim 5, characterized in that at least part of the beam path between each of the at least two light extraction means (3) and the at least one light generating device (2) is cured by a common portion of the surface hardened on the surface of the sheet substrate (4) or gel-like light guide (5).
[7]
7. marking projector according to claim 6, characterized in that the light guide (5) according to the common portion in the at least two Lichtauskopplungseinrichtungen (3) leading branches (51,52, 53) divides.
[8]
8. Marking projector according to one of claims 1 to 7, characterized in that the at least one light generating device (2) is designed as a laser diode, laser chip or LED.
[9]
9. marking projector according to one of claims 1 to 8, characterized in that the at least one light extraction device (3) as a means for deflecting, fanning or expansion of light, in particular as Kollimationsiinse, as pentaprism, as a reflective cone, as a diffractive optical element or as simple window is formed.
[10]
10. marker projector according to one of claims 1 to 9, characterized in that for coupling of at least one light generating device (2) generated light in the light guide (5) is provided a coupling optics.
[11]
11. marker projector according to one of claims 1 to 9, characterized in that by the at least one light generating device (2) generated light without the use of a coupling optics directly into the light guide (5) is coupled. 3 • «• • • • * * * * * * * * * * * *

«* · * ··· • · · ·« · ·· · 70674 36 / ϊγ
[12]
12. Marker projector according to one of claims 1 to 11, characterized in that at least two light-generating devices (2) are provided, which differ from each other in the wavelength of the emitted light, wherein the light of the at least two light-generating devices (2) by separate light guides (5 ) or the same light guide (5). Innsbruck, 25th January 2012 φ · · · · · t * t ♦

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引用文献:

公开号 | 申请日 | 公开日 | 申请人 | 专利标题

EP0759538B1|1995-08-17|2006-11-22|Kabushiki Kaisha Topcon|Laser system for surveying|

DE10325859B3|2003-06-06|2004-06-03|Hilti Ag|Rotational laser has deflection device for laser beam supported by spherical pivot mounting allowing laser beam rotational plane to be angled|

EP1715368A1|2005-04-18|2006-10-25|Varioprint AG|Component for optical coupling|

US4111564A|1973-02-08|1978-09-05|Trice Jr James R|Reference plane production|

DE19732506B4|1997-07-29|2005-05-19|Daimlerchrysler Ag|Method of making multimode waveguides and waveguide structures|

DE19746508A1|1997-10-22|1999-04-29|Daimler Chrysler Ag|Arrangement and method for producing waveguide structures with optical components|

CN2348353Y|1998-08-20|1999-11-10|美华科技激光制品有限公司|Self-adjusting automatic laser level-meter|

DE19845227A1|1998-10-01|2000-04-06|Daimler Chrysler Ag|Arrangement for adjusting optical components|

JP2000304949A|1999-04-26|2000-11-02|Minolta Co Ltd|Light source unit|

AU2002361901A1|2002-01-03|2003-07-24|Victor Babbit|Liquid light guide system for interior lighting|

AU2003243590A1|2002-06-21|2004-01-06|Wavien, Inc.|Multiple lamp illumination system|

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EP1701199A1|2003-12-10|2006-09-13|Matsushita Electric Industrial Co., Ltd.|Optical element, laser beam source, and 2-d image forming device|

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CN101495798A|2005-09-23|2009-07-29|皇家飞利浦电子股份有限公司|Diffusing light system with light collector|

US8317331B2|2006-06-13|2012-11-27|Wavien, Inc.|Recycling system and method for increasing brightness using light pipes with one or more light sources, and a projector incorporating the same|

CH700471B1|2009-02-17|2013-07-31|Vario Optics Ag|A process for producing an electro-optical printed circuit board with optical waveguide structures.|

AT506924A3|2009-09-25|2010-11-15|Sola Messwerkzeuge Gmbh|BAUPROJEKTOR|

US8534892B2|2010-07-30|2013-09-17|Alcatel Lucent|Controlled flaring light transmission device|CN202485675U|2012-03-09|2012-10-10|常州华达科捷光电仪器有限公司|Laser line-throwing instrument|

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法律状态:
2020-09-15| MM01| Lapse because of not paying annual fees|Effective date: 20200130 |

优先权:

申请号 | 申请日 | 专利标题

ATA119/2012A|AT512168B1|2012-01-30|2012-01-30|MARKING PROJECTOR|ATA119/2012A| AT512168B1|2012-01-30|2012-01-30|MARKING PROJECTOR|

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