DE202016006196U1 - Light source with optical straightening foil - Google Patents

Abstract

Light source with optical directional film, wherein the optical directional film allows the linear alignment of radiation of the light source along a beam direction to a target, characterized in that - at least two optical straightening between source and target are arranged, - at least one of the straightening films transversely to the beam direction slidably in a holder is taken and - the holder has means for controlled and / or controlled displacement.

Description

TECHNICAL PART

The present invention relates to light sources with optically active films according to the preamble of the independent claims. The general technical field can be given as the range of optically effective films and sheets. Such films and plates have fine structures, which align and / or focus a light radiation suitable for the intended use.

The DE 20 29 800 B2 discloses, for example, a film or plate which is to serve as a transmitted-light projection screen. The aim here is to form lens systems in the screen via optically effective fine structures, which provide a viewer with a better and clearer image at a specific viewing distance. Fundamental elements of the technical field, including lens systems, their combination, and the use of such fine structures to condition an optically desirable, uniform projection pattern, are set forth herein.

The DE 29 29 313 C2 discloses complementary advantageous plastics, plastic systems and plastic composite materials, which can be used to form advantageous, optically effective fine structures.

DESCRIPTION OF THE PRIOR ART

Generic, optically effective films are used for variable alignment of light radiation. The concrete goal is therefore the adaptable alignment of a light radiation / an optical pattern on a target surface.

From the DE 199 37 448 A1 is a film combination with Fresnel structure known, which describes the space-saving focusing of solar radiation on a solar cell. Alignment and adaptation of this combination to changing the position of the sun is achieved by aligning the entire assembly with the sun. This holder must therefore be 'tracked, ie by aligning the funnel-shaped bracket to the current position of the sun, solar radiation with maximum efficiency is usable. This can be supplemented by adapted structuring of the films, whereby the extent of the necessary rotation of the entire assembly is advantageously reduced. From the DE 10 2009 008 997 B4 For example, a method is known with which such Fresnel structures can be formed as droplet agglomerates.

A disadvantage of the generic directional films that they must be adjusted in their fine structure in order to adjust the projection point / focal point.

The inventors are not aware of an optical straightening film which focuses on the adaptable alignment of a light radiation of a light source. Also corresponding devices were not available in the market.

It was therefore an object of the present invention to overcome the disadvantages of the prior art and to provide a device which, despite optical straightening films, is able to provide the adaptable alignment of a light radiation.

The solution of this object is achieved according to the features of the independent claims. Advantageous embodiments will become apparent from the dependent claims and the following description.

SUMMARY OF THE INVENTION

According to the invention, a light source with an optical straightening film, wherein the optical straightening film allows the linear alignment of radiation of the light source along a beam direction to a target, characterized in that at least two optical straightening are arranged between source and target, at least one of the straightening films transversely to the beam direction displaceable is held in a holder and the holder has means for controlled and / or controlled displacement.

DESCRIPTION OF THE INVENTION AND ADVANTAGEOUS CHARACTERISTICS

According to the invention, a light source with an optical straightening film is characterized in that at least two optical straightening films are arranged between the source and the target, at least one of the straightening films is gripped transversely to the beam direction displaceably in a holder and the holder has means for controlled and / or regulated displacement.

Preferably, the light source comprises in its devices at least one sensor which is selected from the group consisting of light barrier sensor, distance sensor, mechanical pedometer, brightness sensor, stereoscopic area sensor, IR sensor, radio wave sensor, conductivity sensor.

Preferably, the light source comprises at least one further assembly selected from the group consisting of light filters, Paralellization filter, optical grating, wavelength-selective prism, tunable LED group, ammeter, voltmeter, brightness meter, IR detector, thermal imager, impedance bridge, image sensor with switchable microscope, current filter, current generator, voltage generator, AC generator, temperature meter, control module to perform regulated Measuring programs, ICs, digital interface for the digital extraction of measurement data and / or measurement protocols, computer assembly with operating system, stepper motors, stepper motors with micro-contact electrodes, multimeter assembly for measurement and analysis of electrical components, digital multimeter combination for the evaluation of time-controlled light-current Gradients of connectable photovoltaic modules.

Preferably, the light source comprises assemblies that enable the measurement and analysis of photovoltaic modules.

Preferably, the light source has at least one optical directional film with electrochromically activatable components, whereby an absorption is provided controllable and / or controllable.

The light source preferably comprises at least one straightening foil which can be elastically stretched more than 10% in its planar extent and arranged in a variably adjustable clamping holder, whereby an optical focal point is provided controllably and / or controllably.

The light source preferably comprises at least one directional foil with piezoactive components which are connected directly or indirectly to an electrical signal generator, thereby providing a piezoelectric effect-modulated optical property.

Preferably, in an advantageous embodiment of the light source, at least two directional foils enclose a gap, wherein the gap is formed as a closed volume and filled with a gas, preferably an inert protective gas. Preferably, the gap is connected to a pneumatic control and regulating assembly, whereby the gas pressure in the gap can be controlled and / or regulated.

Preferably, the pneumatic control and regulating assembly is connected to sensors, wherein the sensors are arranged to measure the projected light range and / or the spatial form of at least one film; the at least one film is elastically deformable by the pneumatic pressure, whereby a pneumatically adaptable radiation characteristic is provided.

Further advantages emerge from the exemplary embodiments. It is understood that the above-described, preferred features, advantages and subsequent embodiments are not restrictive. Advantageous or preferred, additional features and additional combinations of features, as described in the description and in the cited prior art and the documents cited therein, can be realized within the scope of the independent claims in the claimed subject matter both individually and deviantly combined, without the Area of the invention would leave.

BRIEF DESCRIPTION OF THE FIGURES

The figures illustrate on the basis of schematic diagrams ...

1 Side view of an advantageous combination of two directional films;

2 Rear view of a combination of two directional films acc. 1 ;

3 Isometric front view of a combination of two directional films acc. 1 ;

4 Beam path in a combination of two directional films acc. 1 ;

5 Beam path in a combination of two directional films acc. 1 with shifted slides;

6 Beam path in a combination of two directional films acc. 1 with shifted slides;

DETAILED EXPLANATION OF THE INVENTION BY HAND OF EXAMPLES

In an advantageous embodiment, a light source is used for the controlled generation of phones, ie the wavelengths and wavelength components are at least exactly known, preferably adjustable via control sensors. Optical straightening films allow aligning the photon beam thus provided along a beam direction to a target. At least two optical directories are located between the source and the target. At least one of the straightening films is displaceable transversely to the beam direction. In order to make precise the displacement of the at least one straightening foil, this is taken in a holder which has means for controlled and / or controlled displacement. This allows a shift in small to smallest steps and the photon beam can be suitably varied in its beam angle. According to 1 let in an advantageous embodiment, the directional films in side view optically effective formations recognize, which are formed as a combination of concave and convex profiles, which are all arranged in the normal position on a common optical axis. According to 2 lets a rear view of the combination of two directional films acc. 1 Recognize the concave back profile of the back straightening foil. 'Rear referred to in the context of the present description, the respective side facing the target, while' front 'refers to the light source side facing. According to 3 lets an isometric front view of the combination of two directional films gem. 1 Accordingly, it can be seen that at least the optically active structures are transparent, ie permeable and directionally effective for the incident light radiation. Thus, in the case of optically transparent structures in front view, the rear-side, convex minute structure of the front-side straightening film can be recognized through the front-side, larger convex structure. At congruent arranged, optical axes of all the small structures of at least two directional films initially results in a direct beam path, as in 4 for the combination of two directional films acc. 1 The outer, front convex structure focuses the incident photons of the light source 'P' onto the region of the back convex structure which, by scattering the focused beam onto a smaller area of a broad beam of photons, forms a concentrated beam of parallel emerging ones Photons generated. This concentrated light beam strikes regions of the optical patterning of the following directional foil oriented horizontally to the beam direction and passes them without deflection. For shifted slides according to 5 and 6 the beam initially experiences a deflection and focusing via the second foil, wherein the final, rear-side concave structure scatters / widens the beam so far that it will reach a shifted target with undiminished illuminance. Such a film combination is particularly advantageous in a PV module flasher, ie a device for measuring and characterizing photovoltaic modules, abbreviated as 'PV modules', use to simulate the state of the sun at different times and at different locations , Against this background, the present specification also discloses a use of a straightening film combination in a PV module flasher and a PV module flasher equipped with such a straightening combination and a method of characterizing PV modules using a straightening film combination. The guide film combination described here offers a precise and controllable radiation characteristic of a light source in the narrowest of spaces. Accordingly, uses in areas lacking space for large, precise optics are also conceivable. Optics of miniature cameras in electronic devices or lens systems for flat LED light sources in the field of stage and fair construction technology represent attractive, complementary applications in which a use of the here-proposed directional combination can offer monetary benefits.

INDUSTRIAL APPLICABILITY

A disadvantage of known, optical directional films is that they do not allow precise alignment of a light beam. The task was to overcome this disadvantage.

The solution is achieved by a combination of two directional films, wherein at least one leveling foil is precisely displaceable relative to the other directional film (s). By precisely shifting optical fine structures, a group of light beams with undiminished photon density with changed exit angle can be directed to a new target area.

Areas where there is no room for large, precise optics offer worthwhile applications with the developed straightener combination. In particular, PV module flashers can be meaningfully supplemented by a further option for characterizing PV modules.

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• DE 2029800 B2 [0002]
• DE 2929313 C2 [0003]
• DE 19937448 A1 [0005]
• DE 102009008997 B4 [0005]

Claims (10)

Light source with optical directional film, wherein the optical directional film allows the linear alignment of radiation of the light source along a beam direction to a target, characterized in that - at least two optical straightening between source and target are arranged, - at least one of the straightening films transversely to the beam direction displaceable in a holder is taken and - the holder has means for controlled and / or controlled displacement. Light source according to the preceding protection claim, characterized in that the means comprise at least one sensor which is selected from the group consisting of light barrier sensor, distance sensor, mechanical pedometer, brightness sensor, stereoscopic area sensor, IR sensor, radio wave sensor, conductivity sensor. Light source according to one of the preceding claims to protection, characterized in that the light source comprises at least one additional assembly selected from the group consisting of light filters, Paralellisierungs filter, optical grating, a wavelength-selective prism tunable LED group, ammeter, voltmeter, Brightness meter, IR detector, thermal imager, impedance measuring bridge, image sensor with switchable microscope, current filter, current generator, voltage generator, AC voltage generator, temperature meter, control module for carrying out controlled measuring programs, ICs, digital interface for digital extraction of measurement data and / or measurement protocols, computer assembly with operating system, stepper motors , Stepper motors with micro-contact electrodes, multimeter assembly for the measurement and analysis of electrical components, digital multimeter computer combination for the evaluation of time-controlled light-current profiles of connectable photovoltaic ik modules. Light source according to one of the preceding claims, characterized in that the light source comprises assemblies which allow the measurement and analysis of photovoltaic modules. Light source according to one of the preceding claims, characterized in that at least one optical directional film has electrochromically activatable components, whereby an absorption is provided controllable and / or controllable. Light source according to one of the preceding claims, characterized in that at least one straightening film elastically to more than 10% stretchable in its planar extension and is arranged in a variably adjustable clamping bracket, whereby an optical focal point is provided tax and / or adjustable. Light source according to one of the preceding claims, characterized in that at least one directional film comprising piezoactive components and is connected to an electrical signal generator, whereby a temporally modulated by piezoelectric effect, optical property is provided. Light source according to one of the preceding claims, characterized in that at least two straightening films enclose a gap, wherein the gap is formed as a closed volume and filled with a gas, preferably an inert protective gas. Light source according to the preceding protection claim, characterized in that the gap is connected to a pneumatic control and regulating assembly, whereby the gas pressure in the gap can be controlled and / or regulated. Light source according to one of the two preceding claims, characterized in that - the pneumatic control and regulating assembly is connected to sensors, wherein the sensors the projected light range and / or the spatial shape of at least one film are arranged to measure, - the at least one film elastic by the pneumatic pressure is deformable, whereby a pneumatically adaptable radiation characteristic is provided.

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