EA013311B1 - Illumination correction device - Google Patents

Abstract

A device for automatically correcting the illumination of an enclosed or semi-enclosed space containing a light source, LEDs and at least one transparent glass sheet in which means for correcting the light emitted by the light source are controlled by the amount and/or quality of light illuminating the space. The device is suitable for lighting panels, motor vehicle roofs, greenhouse roof glazing and illuminated mirrors.

Description

The present invention relates to devices for adjusting the lighting, which automatically turn on when the intensity and quality of the lighting changes over time.

There is a known problem of automatically turning on lighting when natural daylight becomes weak or disappears. This problem is solved by using electronic control modules equipped with sensors that continuously measure the intensity of illumination in the surrounding space and give a lamp turn on signal when the illumination intensity in the surrounding space becomes less than a certain predetermined threshold.

However, the system of automatic correction of the intensity and (or) color temperature of the illumination depending on the change in the intensity and (or) quality of illumination in the surrounding space is unknown.

The present invention is to eliminate this drawback by creating a device described in claim 1 of the claims.

The dependent claims describe other possible embodiments of the present invention, some of which are preferred.

Compared to standard lighting solutions, the present invention has the following advantages:

the color rendition of the illuminated objects is maintained over time and, moreover, does not depend on the lighting conditions;

the intensity of illumination remains unchanged, which prevents fatigue of the eye of the observer;

energy losses are excluded due to the absence of illumination not required at the current moment from excessively powerful lighting devices;

increases the comfort of observation by reducing or eliminating color distortion of the illuminated objects.

The lighting adjustment device of the present invention is an automatic device in the sense that it does not require operator intervention for the continuous implementation of said lighting adjustment function. This function is to maintain, as far as possible, the most constant level of quantity and / or quality of illumination in a given space under conditions where the specified space is also illuminated by at least one additional light source. The illuminated space may be half-open, for example, a section formed by at least two opaque, more or less reflecting light walls, and connected to a large space, or, conversely, a space completely closed in all directions by more or less opaque walls. The specified space can also be limited to at least one wall having an opening allowing the passage of light through it.

Within the specified space, the lighting device distributes the light it creates. According to the present invention, said lighting means comprises LEDs.

This space also illuminates at least one additional light source, such as an electric light source such as an incandescent lamp, a fluorescent tube, an electric lamp filled with halogen vapor, a LED, an electric discharge light source, or natural daylight. The specified illumination created by an additional light source may be direct or indirect, for example daylight, diffused by clouds in cloudy weather.

The lighting adjustment device of the present invention is made of at least one transparent glass sheet. The term glass sheet means any glass plate whose thickness is between 1 and 50 mm. The specified thickness may vary at different points on the surface of the sheet. The surface may be flat or curved. However, flat glass sheets of constant thickness at all points on the surface are preferred. Glass may consist, without distinction, of one or more types of glass, for example soda-calcium-silicate glass, borosilicate glass, crystalline and semi-crystalline glass. The glass may be translucent or transparent over the entire surface of the sheet. Preferred are sheets of pure and ultrapure glass that are uniformly neutral over the entire surface or over the entire volume of the sheets. The term ultrapure glass means glass in which:

a) the light transmission of ΤνΑ4 light from a source of standard A according to C1E (International Commission on Illumination) is at least 90.8% with a glass thickness of 4 mm and a viewing angle of 2 °;

b) the coefficient of color rendition of light from a source of the standard С65 in CGE, simulating daylight, is at least 99.6% with a glass thickness of 4 mm and a viewing angle of 2 °.

Sheet glass may also be transparent or, conversely, to a greater or lesser extent, filter light radiation at a frequency of radiation above and below the frequencies of the visible spectrum.

According to the present invention, the illumination correction device comprises means for adjusting the light produced by the source. The term means of adjustment refers to the means of modulating the intensity and / or relative magnitude of one or more lines of the spectrum of light,

- 1 013311 given by the source. These correction tools are further controlled depending on the quantity and / or quality of the light illuminating the space. This implies that it is the quantity and / or quality of light that is present in the space that directly determine the operation of the lighting adjustment device.

In accordance with one particular embodiment of the invention, the device comprises at least two groups of LEDs, each of which emits light with different dominant wavelengths λ. The term prevailing wavelength has the meaning defined in the system (x, y, ζ) for the three-color representation of light in accordance with C1E in order to describe the nature of the color of the light emitted by the object. Preferably, the device comprises three groups of LEDs, each of which emits light with different dominant wavelengths λ. Even more preferably, these three groups of LEDs emit red, green light and blue light. The term red light here means light with a predominant wavelength in the wavelength range from 596 to 770 nm. Similarly, green light means light with a predominant wavelength in the wavelength range from 489 to 571 nm, and blue light means light with a predominant wavelength in the wavelength range from 430 to 488 nm.

According to the present invention, the illumination correction device comprises a system for measuring the intensity and / or color temperature of the light illuminating the space. The term color temperature of light means the temperature of a black body emitting light of the same spectrum as the analyzed one. Preferably, said measuring system is made of electronic components, for example, components similar to those used in modern digital cameras. Alternatively, the indicated measuring system may, instead of the color temperature, measure the intensity of three characteristic colors (red, green and blue) having wavelengths within the ranges described above.

In accordance with another specific embodiment of the device of the present invention, which is compatible with the previous embodiments and is preferred, said measuring system is included in a control unit that continuously evaluates the difference in intensity and / or color temperature of the light illuminating the space and compares the specified parameters with a given control point. It is preferable to provide a regulating system with feedback by installing a regulator in the control unit that generates electrical control signals depending on the measured intensity difference and / or color temperature and send the specified control signals to the LED power supply device of the lighting device to minimize this difference.

Even more preferably, said unit is an electronic control module. According to the present invention, it is more preferable that said lighting device contains different groups of LEDs and a control unit.

One preferred embodiment of the present invention, compatible with the previous embodiments, is that the LEDs and / or the electronic control module are embedded in at least one transparent plastic sheet located at least between two glass sheets. It is also particularly preferred if said glass sheets are made of clear transparent glass or clear ultrapure glass.

In one particular embodiment of the present invention, the illumination device of the device of the present invention is an illumination panel mounted in the upper part of the illuminated space.

In another specific embodiment of the present invention, the lighting device is a daylight-transparent glazing panel for a car, a greenhouse or a veranda.

Another specific embodiment of the present invention comprises an illumination device, which is an illumination mirror. In the latter embodiment, the LEDs may be located around the perimeter of the reflecting surface. Alternatively, these LEDs can also be located on the back of the mirror behind the semi-reflective layer.

Claims (13)

CLAIM 1. A device for automatically adjusting the illumination of a space illuminated by a lighting device and at least one other light source, the lighting device comprising at least one sheet of transparent glass and LEDs, characterized in that the lighting device also contains means for correcting the light emitted by the lighting device in depending on the quality and / or amount of light illuminating the space, and the color of the light illuminating the space. 2. The device according to claim 1, characterized in that at least one of the other light sources is daylight. 3. The device according to claim 1 or 2, characterized in that the intensity of the light emitted light - 2 013311 telny device, controlled depending on the intensity of the light illuminating the space. 4. The device according to claim 1 or 2, characterized in that the color of the light emitted by the illumination device is controlled depending on the color of the light illuminating the space. 5. The device according to claim 4, characterized in that the said means of adjustment contain at least two groups of LEDs emitting light with different dominant wavelengths. 6. A device according to any one of the preceding claims, characterized in that said correction means comprise a system for measuring the intensity and / or color temperature of the light illuminating the space. 7. The device according to claim 6, characterized in that the measurement system is included in the control unit, which continuously evaluates the difference in intensity and / or color temperature of the light illuminating the space, compares it with a given control point and generates an electrical signal to control at least two groups of LEDs to minimize this difference. 8. The device according to claim 7, characterized in that said control unit is an electronic module. 9. The device according to claim 8, characterized in that said lighting device contains different groups of LEDs and an electronic control module. 10. The device according to claim 9, characterized in that the LEDs and / or the electronic module are placed in at least one transparent plastic sheet located at least between two glass sheets. 11. Device according to one of the preceding claims, characterized in that said illumination device is an illumination panel mounted in the upper part of the illuminated space. 12. Device according to one of claims 1 to 10, characterized in that said illuminant is a transparent panel for daylight glazing of a car hatch, a greenhouse or a veranda. 13. Device according to one of claims 1 to 10, characterized in that said illuminant is a lighting mirror. ABOUT